ML18150A463

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Evaluation of Potential Severe Accidents During LOW Power and Shutdown Operations at Surry,Unit 1.Analysis of Core Damage Frequency from Internal Fires During Mid-Loop Operations.Appendices
ML18150A463
Person / Time
Site: Surry Dominion icon.png
Issue date: 07/31/1994
From: Chu T, Ho V, Hou Y, Lin J, Musicki Z, Nathan Siu, Yang J
BROOKHAVEN NATIONAL LABORATORY, MASSACHUSETTS INSTITUTE OF TECHNOLOGY, CAMBRIDGE, PLG, INC. (FORMERLY PICKARD, LOWE & GARRICK, INC.)
To:
NRC OFFICE OF NUCLEAR REGULATORY RESEARCH (RES)
References
CON-FIN-L-1922 BNL-NUREG-52399, NUREG-CR-6144, NUREG-CR-6144-V03-P2, NUREG-CR-6144-V3-P2, NUDOCS 9408180149
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{{#Wiki_filter:NUREG/CR-6144 BNL-NUREG-52399 Vol. 3, Part 2 Evaluation of Potential Severe Accidents During Low Power and Shutdown Operations at Surry, Unit-1 nalysis of Core Damage Frequency from ternal Fires During Mid-Loop Operations Appendices Prepared by Z. Musicki, T. L. Chu, V. Ho, Y.-M. Hou, J. Lin, J. Yang, N. Siu Brookhaven National Laboratory Prepared for U.S. Nuclear Regulatory Commission 

   ',,-    9408180149 940731           ~
PDR ADOCK 05000280 .

p PDR I

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NUREG/CR-6144 BNL-NUREG-52399 Vol. 3, Part 2 Evaluation of Potential Severe Accidents During Low Power and Shutdown Operations at Surry, Unit 1 Analysis of Core Damage Frequency from Internal Fires During Mid-Loop Operations Appendices 

-~~~~~~~~~~~~

Manuscript Completed: January 1994 Date Published: July 1994 Prepared by Z. Musicki, T. L. Chu, V. Ho1, Y.-M. Hou1, J. Lin\ J. Yang, N. Siu2 Brookhaven National Laboratory 

 *Upton, NY 11973 Prepared for Division of Safety Issue Resolution Office of Nuclear Regulatory Research U.S. Nuclear Regulatory Commission Washington, DC 20555-0001 NRC FIN L1922 LG Inc., 4590 MacArthur Boulevard, Newport Beach, CA 92660-2027 IT, Cambridge, MA, currently at EG&G, Idaho Falls, ID 83415
  • ABSTRACT Traditionally, probabilistic risk assessments (PRA) of severe accidents in nuclear power plants have considered initiating events potentially occurring only during full power operation. Some previous screening analysis that were performed for other modes of operation suggested that risks during those modes were small relative to full power operation. However, more recent studies and operational experience have implied that accidents during low power and shutdown could be significant contributors to risk.

During 1989, the Nuclear Regulatory Commission (NRC) initiated an extensive program to carefully examine the potential risks during low power and shutdown operations. The program includes two parallel projects being performed by Brookhaven National Laboratory (BNL) and Sandia National Laboratories (SNL). Two plants, Surry (pressurized water reactor) and Grand Gulf (boiling water reactor), were selected as the plants to be studied. The objectives of the program were to assess the risks of severe accidents initiated during plant operational states other than full power operation and to compare the estimated core damage frequencies, important accident sequences and other qualitative and quantitative results with those accidents initiated during full power operation as assessed in NUREG-1150. The scope of the program includes that of a Level-3 PRA. A phased approach was used in the Level-1 program. In Phase 1 which was completed in Fall 1991, a coarse screening analysis including internal fire and flood was performed for all plant operational states (POSs). The objective of the Phase 1 study was to identify potential vulnerable plant configurations, to characterize (on a high, medium, or low basis) the potential core damage accident scenarios, and to provide a foundation for a detailed Phase 2 analysis. In Phase 2, mid-loop operation was selected as the plant configuration to be analyzed based on the results of the Phase 1 study. The objective of the Phase 2 study is to perform a detailed analysis of the potential accident scenarios that may occur during mid-loop operation, and compare the results with those of NUREG-1150. The scope of the Level-1 study includes plant damage state analysis and uncertainty analysis. Volume 1 summarizes the results of the study. Internal events analysis is documented in Volume 2. Internal fire and internal flood analyses are documented in Volumes 3 and 4. A separate study on seismic analysis, documented in Volume 5, was performed for the NRC by Future Resources Associated, Inc.. Volume 6 documents the accident progression, source terms, and consequence analysis. In the Phase 2 study, system models applicable for shutdown conditions were developed and supporting thermal hydraulic analyses were performed to determine both the timing of the accidents and success criteria for systems. Initiating events that may occur during mid-loop operations were identified and accident sequence event trees were developed and quantified. In the preliminary quantification of the mid-loop accident sequences, it was found that the decay heat at which the accident initiating event_ occurs is an important parameter that determines both the success criteria for the mitigating functions and tir'ne available for operator actions. In order to better account for the decay heat, a "time window" approach was developed. In this approach, time windows after shutdown were defined based on the success criteria established for the various methods that can be used to mitigate the accident. Within each time window, the decay heat and accident sequence timing are more accurately defined and new event trees developed and quantified accordingly. Statistical analysis of the past outage data was performed to determine the time at which a mid-loop condition is reached, and the duration of the mid-loop operation. Past outage data were used to determine the probability that an accident initiating event occurs in each of the* time windows. This probability is used in the quantification of the accident sequences.

  • The major objective of the Surry internal fire analysis was to provide an improved understanding of the risk arising from internal fire-related events. The mean core damage frequency of the Surry plant due to internal fire events during mid-loop operations is 2E-05 per year, and the 5th and 95th percentiles are lE-06 and SE-05 per year, respectively. This can be compared with the mean core frequency of lE-05 per year estimated in the NUREG-1150 study for accidents initiated by fires during full power operations.

iii

TABLE OF CONTENTS Abstract . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . v List of Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix List of Tables .................. .' . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . x Executive Summary ........................................................... -~ *... xiii Foreword ................................................................* ....... xix Acknowledgements ........................................................... ; . . . xxi

1. Introduction and Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.1 Scope of the Study . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.2 Results of Previous Fire Risk Analyses for Surry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.3 Methodology Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.4 Assumptions and Simplifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 1.5 Internal PRA Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 1.6 Plant Visits and Interaction with Virginia Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 1.7 Organization of the Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 1.8 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
2. Methodology Overview ........................................................ 2-1 2.1 Fire Frequency Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2.2 Scenario Development .. : ............................... , ............... 2-1 2.3 Fire Growth Modeling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2.4 Fire Suppression and Damage Fraction Calculation ............................. 2-1 2.5 Fault Tree and Event Tree Modifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 2.6 t-fodel Quantification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 2.7 References ....................................... ;_ . . . . . . . . . . . . . . . . . . . 2-3
3. Important Fire Areas Analyzed ................................................... 3-1 3.1 Unit 1 Emergency Switchgear Room (ESGR) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 3.2 Cable Vault and Tunnel (CVI) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3.3 Containment (CI) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3.4 Normal Switchgear Room (NSGR) (Unit 1) .............................. _ . . . 3-2 3.5 Fire Areas Not Analyzed .........................................._. . . . . . 3-3
4. Fire Frequency Calculations ...................................................... 4-1 4.1 Methodology ......... *................................ : . . . . . . . . . . . . . . . 4-1 4.2 Sandia Fire Data Base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 4.3 Criteria for Inclusion/Exclusion of Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 4.4 Exposure Time at Power and Shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 4.5 Pertinent Events from Data Base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 4.6 Bayesian Updating Scheme . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 4.7 Component Based Fire Frequency ......................................... 4-3 4.8 Insights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 4.9 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
5. Scenario Development . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 V NUREG/CR-6144 I

_J

Table of Contents (continued) 5.1 5.2 5.3 5.4 Assumptions and Simplifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 Initiators Considered . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . . . 5-3 Important Equipment and Cable Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . .

  • 5-3 Types of Fire Damage to Components ......................*.........*.. : *
  • 5-3 5.5 Important Locations and Scenarios Within Fire Zones .................*.. : * . * .
  • 5-4 5.5.1 ESGR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . * . . . *
  • 5-4 5.5.2 cvr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-7 5.5.3 CT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . . . . . . . . . . . . . 5-7 5.5.4 NSGR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-8 5.6 Scenario Quantification ............................ ~ . . . . . . . . . . . . . . . . . . . . . 5-8 5.7 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-8
6. Fire Growth Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
  • 6-1 6.1 COMPBRN Ille Capabilities and Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 6.2 Modeling of Fires in Important Fire Areas ...... ~ . . . . . . . . . . . . . . . . . . . . . . . . . . * . 6-2 6.2.1 ESGR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6.2.2 cvr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-3 6.3 Fire Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ........*.. ~ . . . . . . 6-3 6.3.1 Oil Fire ....................................... , . . . . . . . . . . . . . . 6-3 6.3.2 Cable Fires . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 6.3.3 Cabinet Fire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . . 6-5 6.3.4 Trash Fire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 6.4 Sensitivity Study ................................................ -. . . . . . . 6-5 6.4.1 Pool Fire Size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 6.4.2 Effect of Wall on Plume Entrainment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6 6.4.3 Forced Ventilation ............................ *. . . . . . . . . . . . . . . . . . 6-6
  • 6.4.4 Forced Ventilation and Doorway Opening . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6 6.5 References ; . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . . . . 6-7
7. Fire Suppression Modeling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . * . . . . . . 7-1 7.1 Transition Diagram of Fire Detection and Suppression . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 7.2 Calculation of Parameters for r..s ....**.................................-. . . . 7-2 7.3 References . . . . . . . . . * . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
8. Damage Fraction Calculations .. : . . . . . . . . . . . . . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 8.1 ESGR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 8.2 cvr.................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S-1 8.3 CT ................................................................. 8-1 8.4 Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2
9. Control Room Fire Risk Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1 9.1 Fire Scenario Identification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 9.1.1 Shutdown Accident Mitigation Equipment and Control Locations . . . . . . . . . . 9-3 9.1.2 Significant Scenario Identifica,tion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-4 9.2 Fire Scenario Quantification ......... , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-9
  • 9.2.1 Control Room Walkdown ........................................ 9-10 NUREG/CR-6144 vi
*                    .9.2.2 Industrial Fire Events Specialization .................................

9.2.3 Control Room Fire Frequency Assessment ............................ 9.2.4 Control Room Fire Frequency Apportionment ......................... Table of Contents (continued) 9-11 9-13 9-14 9.2.5 Scenario Frequency Quantification .................................. 9-14 9.3 References ........................................................... 9-17

10. Modification of the Internal PRA Model ........................................... 10-1 10.1, References ........................................................... 10-1
11. Quantification ............................................................... 11-1 11.1 Summary of Procedure ................................................. 11-1 11.2 Quantification of HEP for High-Level Human Action Events .................... 11-1 11.2.1 High Level HEP Quantification ................................... 11-1 11.2.2 Recovery Actions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1 11.3 Successful System Correction . . . . . . . . . . . . : . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1 11.4 Uncertainty Analysis ................................................... 11-2 11.5 References .......................................................... 11-3
12. Results .................................................................... 12-1 12.1 Point Estimate Results ................................................. 12-1 12.2 Uncertainty Results .................................................... 12-2
  • \

12.3 13.2 13.3 Conclusions .........................................................

13. Plant Damage State Analysis ....................................................

13.1 Definition of Plant Damage State Indicators ............................... PDS Analysis, Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....... PDS Uncertainty Analysis ............................................. 12-3 13-1 13-1 13-1 13-1 APPENDIX A-List of Plants and Pertinent Times

  • APPENDIX B-Pertinent Events from the Fire Data Base B1 Generic Events B2 Surry Events APPENDIX C-Derivationof Phi, The Trash Combustible Fraction APPENDIX D-Cable Tray Trace Information APPENDIX E-Derivation of the Hot Short Spurious Operation Probability APPENDIX F-Fire Suppression Model APPENDIX G-High Level Human Errors Tables APPENDIX I-Event Trees Used in Fire Analysis APPENDIX H-Not Used APPENDIX J-Fault Trees Modified for Fire Events APPENDIX K-Input for Scenario Initiating Event Uncertainty Analysis.

Kl Algebraic Expressions for Fire Scenario Initiating Events K2 Uncertainty Data For Variables in Appendix K.1 K3 Description of Variables APPENDIX L-Fire Scenario Initiating Event Histograms APPENDIX M-Sequence Quantification vii NUREG/CR-6144

Table of Contents (continued) APPENDIX N-Basic Event Reports N.1 Basic Event Uncertainty Report N.2 Basic Event Descriptions APPENDIX 0-The Most Important Cutsets for the Total Core Damage Frequency Due to Fire at Midloop APPENDIX P-Basic Event Importance Reports P.1 Basic Event Importance Sorted by Fussell-Vesely Importance P.2 Basic Event Importance Sorted Alphabetically APPENDIX Q-Rules for Recovery Actions and Successful System Correction NUREG/CR-6144 viii

FOREWORD (NUREG/CR-6143 and 6144) Low f:'ower and Shutdown Probabilistic Risk Assessment Program Traditionally, probabilistic risk assessments (PRA) of severe accidents in nuclear power plants have considered initiating events potentially occurring only during full power operation. Some previous screening analysis that were performed for other modes of operation suggested that risks during those modes were small relative to full power operation. However, more recent studies and operational experience have implied that accidents during low power and shutdown could be significant contributors to risk. During 1989, the Nuclear Regulatory Commission (NRC) initiated an extensive program to carefully examine the potential risks during low power and shutdown operations. The program includes two parallel projects performed by Brookhaven National Laboratory(BNL) and Sandia National Laboratories(SNL), with the seismic analysis performed by Future Resources Associates. Two plants, Surry (pressurized water reactor) and Grand Gulf (boiling water reactor), were selected as the plants to be studied. The objectives of the program are to assess the risks of severe accidents due to internal events, internal fires, internal floods, and seismic events initiated during plant operational states other than full power operation and to compare the estimated core damage frequencies, important accident sequences and other qualitative and quantitative results with those accidents initiated during full power operation as assessed in NUREG-1150. The scope of the program includes that of a level-3 PRA. results of the program are documented in two reports, NUREG/CR-6143 and 6144. The reports are organized as follows: For Grand Gulf: NUREG/CR-6143 - Evaluation of Potential Severe Accidents during Low Power and Shutdown Operations at Grand Gulf, Unit 1 Volume 1: Summary of Results Volume 2: Analysis of Core Damage Frequency from Internal Events for Operational State 5 During a Refueling Outage Part 1: Main Report Part IA: Sections 1 - 9 Part lB: Section 10 Part IC: Sections 11 - 14 Part 2: Internal Events Appendices A to H Part 3: Internal Events Appendices I and J Part 4: Internal Events Appendices K to M Volume 3: Analysis of Core Damage Frequency from Internal Fire Events for Plant Operational State 5 During a Refueling Outage Volume 4: Analysis of Core Damage Frequency from Internal Flooding Events for Plant Operational State 5 During a Refueling Outage Volume 5: Analysis of Core Damage Frequency from Seismic Events for Plant Operational State 5 During a Refueling Outage ix NUREG/CR-6144

Foreword (continued) Volume 6: Evaluation of Severe Accident Risks for Plant Operational State 5 Durin Refueling Outage Part 1: Main Report Part 2: Supporting MELCOR Calculations For Surry: NUREG/CR-6144- Evaluation of Potential Severe Accidents during Low Power and Shutdown Operations at Surry Unit-1 Volume 1: Summary of Results Volume 2: Analysis of Core Damage Frequency from Internal Events during Mid-loop Operations Part 1: Main Report Part lA: Chapters 1 - 6 Part lB: Chapters 7 - 12 Part 2: Internal Events Appendices A to D Part 3: Internal Events Appendix E Pa*rt 3A: Sections E.1 - E.8 Part 3B: Sections E.9 - E.16 Part 4: Internal Events Appendices F to H Part 5: Internal Events Appendix I Volume 3: Analysis of Core Damage Frequency from Internal Fires during Mid-loop Operati. Part 1: Main Report Part 2: Appendices Volume 4: Analysis of Core Damage Frequency from Internal Floods during Mid-loop Operations Volume 5: Analysis of Core Damage Frequency from Seismic Events during Mid-loop Operations Volume 6: Evaluation of Severe Accident Risks during Mid-loop Operations Part 1: Main Report Part 2: Appendices NUREG/CR-6144 X

APPENDIX A List of Plants and Pertinent Times

Table A.1 List of U.S. Nuclear Power Plants and Pertinent Dates Plant Date of Date of Date of Exposure time Initial Commercial Decom- (years, Criticality Operation missioning months) Arkansas Nuclear One UNITl 08/06/74 12/19/74 15y4m UNIT2 12/05/78 03/26/80 llyOm Beaver Valley UNITl 05/10/76 10/01/76 13y7m UNIT2 08/15/87 11/15/87 2y4m Big Rock Point UNITl 09/27/62 03/29/63 27y3m Braidwood UNITl 05/lS/87 07/15/88 2y7m UNIT2 03/lS/88 10/15/88 ly9m Browns Ferry UNITl 08/17/73 08/01/74 16y4m UNIT2 07/20/74 03/01/75 15y5m UNIT3 08/08/76 03/01/77 13y4m Brunswick UNITl 10/08/76 03/13/77 13y2m UNIT2 Q3/20/75 11/03/75 14y9m Byron UNITl 02/02/85 09/15/85 4y tom UNIT2 01/15/87 08/15/87 2y Um Callaway UNITl 10/02/84 04/15/85 5y2m Calvert Cliffs UNITl 10/07/74 05/08/75 1Sy2m UNIT2 11/30/76 04/01/77 13ylm Catawba UNITl 01/08/85 06/29/95 4y Um UNIT2 OS/lS/86 08/lS/86 3y7m Clinton UNITl 02/lS/87 04/lS/87 2y tom Cook UNITl 01/18/75 08/27/7S 14y llm UNIT2 03/10/78 07/01/78 lly9m

  • A-1

Plant Table A.1 (Continued) List of U.S. Nuclear Power Plants and Pertinent Dates Date of Initial Date of Commercial Date of Decom-Exposure time (years, Criticality Operation missioning months) Cooper UNITl 02/21/74 07/01/74 15y 10m Crystal River UNIT3 01/14/77 03/13/77 12y Um Davis-Besse UNITl 08/12/77 07/31/78 12y4m Diablo Canyon UNIT 1 04/29/84 05/07/85 5y8m UNIT2 03/15/86 4y4m Dresden UNIT 1 10/15/59 07/01/60 10/31/78 19y0m UNIT2 01/07/70 06/09/70 19y Um UNIT3 01/31/71 11/16/71 18y Um I Duane Arnold UNIT 1 03/23/74 02/01/75 15y9m Farley UNITl 08/09/77 12/01/77 12y4m UNIT2 05/08/81 07/30/81 8y7m Fermi UNITl 08/15/66 . 11/15/72 6y3m+ UNIT2 06/15/85 01/15/88 4y6m Fitzpatrick UNIT 1 11/17/74 07/28/75 15y lm Fort Calhoun UNITl 08/06/73 09/15/73 16y4m Ft. St. Vrain UNITl 01/31/74 07/01/79 08/15/89 15y7m Ginna* UNITl 11/08/69 07/01/70 20y lm Grand Gulf UNIT 1 08/18/82 07/01/85 7y4m Haddam Neck UNITl 07/24/67 01/01/68 22y5m Harris UNIT 1 01/15/87 05/15/87 2y llm A-2

  • Table A.1 (Continued)

List of U.S. Nuclear Power Plants and Pertinent Dates Plant Date of Date of Date of Exposure time Initial Commercial Decom- (years, Criticality Operation missioning months) Hatch UNIT1 09/12/74 12/31/75 15y3m UNIT2 07/04/78 09/05/79 lly5m Hope Creek UNIT1 06/16/86 12/15/86 3y6m Humboldt Bay UNIT3 02/16/63 08/01/63 07/02/76 13y5m Indian Point UNIT1 08/02/62 01/15/63 10/31/74 12y2m UNIT2 05/22/73 08/01/74 16y7m UNIT3 04/06/76 08/30/76 13y8m Kewaunee UNIT1 03/07/74 06/16/74 15y9m Crosse UNIT1 07/11/67 11/01/69 04/15/87 19y9m La Salle UNIT1 06/21/82 01/01/84 7y6m UNIT2 03/10/84 10/19/84 5y9m Limerick UNIT1 12/22/84 02/15/86 5y0m UNIT2 08/15/89 01/15/90 Oy4m Maine Yankee UNIT1 10/23/72 12/28/72 17y2m McGuire UNIT1 08/08/81 12/01/81 8y4m UNIT2 05/08/83 03/01/84 6y7m Millstone UNIT1 10/26/70 03/01/71 19y2m UNIT2 10/17/75 12/26/75 14y2m UNIT3 01/15/86 04/15/86 3y llm Monticello UNIT1 12/10/70 06/30/71 19y0m Nine Mile Point UNIT1 09/05/69 12/01/69 20y3m UNIT2 05/15/87 04/15/88 2y7m A3-

Plant Table A.1 (Continued) List of U.S. Nuclear Power Plants and Pertinent Dates Date of Date of Date of Exposure time Initial Commercial Decom- (years, Criticality Operation missioning months) North Anna UNITl 04/05/78 06/06/78 11y8m UNIT2 06/12/80 12/14/80 9y6m Oconee UNITl 04/19/73 07/15/73 16y8m UNIT2 11/11/73 09/09/74 16y lm UNIT3 09/05/74 12/16/74 15y3m Oyster Creek UNITl 05/03/69 12/01/69 20y7m Palisades UNITl 05/24/71 12/31/71 18y7m Palo Verde UNITl 05/25/85 01/15/86 4y7m UNIT2 04/15/86 09/15/86 3y8m UNIT3 10/15/87 01/15/88 2y2m Peach Bottom UNITl 06/15/67 01/27/67 11/74 7y5m UNIT2 09/16/73 07/05/74 16y3m UNIT3 08/07/74 12/23/74 15y4m Perry UNITl 06/15/86 11/15/87 3y6m Pilgrim UNIT 1 06/16/72 12/01/72 17y6m Point Beach UNITl 11/02/70 12/21/70 19y lm UNIT2 05/30/72 10/01/72 17y7m Prairie Island UNIT 1 12/01/73 12/16/73 16y0m UNIT2 12/17/74 12/21/74 15y0m Quad Cities UNITl 10/18/71 02/18/73 18y2m UNIT2 04/26/72 03/10/73 17y8m Rancho Seco UNITl 09/16/74 04/17/75 6/89 14y9m A-4

  • Plant Table A.1 (Continued)

List of U.S. Nuclear Power Plants and Pertin~nt Dates I Date of Date of Date of Exposure time Initial Commercial Decom- (years, Criticality Operation missioning months) River Bend UNITl 10/15/85 06/15/86 4y2m Robinson UNIT2 09/20/70 03/07/71 19y3m Salem UNIT 1 12/11/76 06/30/77 13y0m UNIT2 08/08/80 10/13/81 9y4m San Onofre UNITl 06/14/67 01/01/68 22y6m UNIT2 07/26/82 08/08/83 7y5m UNIT3 08/29/83 04/01/84 6y4m Seabrook UNIT 1 06/15/89 07/15/90 Oy6m Sequoyah UNITl 07/05/80 07/01/81 9y5m UNIT2 11/05/81 06/01/82 Sy lm Shippingport UNIT 1 12/02/57 12/23/57 10/01/82 24y 10m Shoreham UNITl 02/15/85 10/15/85 05/15/89 4y3m South Texas Project UNIT 1 03/15/88 08/15/88 ly9m UNIT2 03/15/89 06/15/89 Oy6m St. Lucie ---- --- UNIT 1 04/22/76 12/21/76 13y Sm UNIT2 06/02/83 08/08/83 6y6m Summer UNITl 10/22/82 01/01/84 7y2m Surry UNIT 1 07/01/72 12/22/72 17y5m UNIT2 03/07/73 05/01/73 16y9m Susquehanna UNIT 1 09/10/82 06/08/83 7y3m UNIT2 05/08/84 02/12/85 5y7m

  • A-5

Table A.1 (Continued) List of U.S. Nuclear Power Plants and Pertinent Dates 

               .                                         Date of Plant                     Date of                                  Date of          Exposure time Initial          Commercial            Decom-                (years, Criticality         Operation           missioning            months)

Three Mile Island UNIT 1 06/05/74 09/02/74 15y6m UNIT2 03/27/78 12/15/78 03/28/79 lyOm Trojan UNITl 12/15/75 05/20/76 14y0m Turkey Point UNIT3 10/20/72 12/14/72 17y2m UNIT4 06/11/73 09/07/73 16y 6m Vermont Yankee UNIT 1 03/24/72 11/30/72 17y9m Vogtle UNIT 1 03/15/87 06/15/87 2y9m UNIT2 03/15/89 05/15/89 Oy9m WNP UNIT2 01/19/84 12/13/84 Sy Um Waterford UNIT3 03/04/85 09/15/85 4y9m Wolf Creek UNITl 05/22/85 05/15/85 4y7m Yankee Rowe UNIT 1 08/19/60 07/01/61 9/91 29y4m Zion UNIT 1 06/19/73 12/31/73 16y 6m UNIT2 12/24/73 09/17/74 16y Om 

  + As the date of initial criticality is not available for Fermi 1, the date of commercial operation was used instead to compute the exposure time.

A-6

APPENDIX B Pertinent Events From the Fire Data Base in Select Categories

APPENDIX Bl Generic Events

  • Page No.

PLANT NAME PRINCIPAL OWNER UTILITY: FIRE DATA* BUS FIRES CAPACITY INC 186 09/24/92 PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Cooling Tower DATE OF FIRE: 05/03/78 TIME OF FIRE: FIRE DURATION: HME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Control Room Observation EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-CO2 SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Bus INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Bus POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI PLANT NAME CAPACITY INC 235 PRINCIPAL O\INER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Switchgear Roan DATE OF FIRE: 11/07/79 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE qF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Bus INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Bus POIJER DEGRADATION CX): . FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI

  • B-1

Page No. 2 09/24/92 FIRE DATA - BUS FIRES PLANT NAME CAPACITY !NO 246 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Switchgear Room DATE OF FIRE: 04/15/80 TIME OF FIRE: FIRE DURATION: TIME THAT° FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF *FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT: SUPPRES~ION AGENT(S): Gas-CO2 SUPPRESSION TIME: SUP_FLAG: 0 INITIATING CQf,IPONENT: Bus INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Bus POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI PLANT NAME PRINCIPAL OWNER UTILITY: PLANT LOCAT 1'oN: NSSS VENDOR: CAPACITY REACTOR TYPE: 

                                                                           !NO PWR 256 OPERATING LICENSE ISSUED:

INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Switchgear Room DATE OF FIRE: 09/08/80 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class C DETECTED BY: Construction Workers EXTINGUISHED BY: Construction Workers SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-CO2 SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Bus INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Bus POWER DEGRADATION (X): I FORCED OUTAGE: $LOSS:

REFERENCES:

EPRI B-2

  • Page No.

PLANT NAME 3 FIRE DATA* BUS FIRES CAPACITY IND 344 09/24/92 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: OPERATING LICENSE ISSUED: INITIAL' CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Other Building DATE OF FIRE: 09/05/84 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: Of.fsite Fire Department SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Cable, Building POWER DEGRADATION (X): SOX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

AN! PLANT NAME Hurboldt Bay CAPACITY 65 MWe IND 324 PRINCIPAL OWNER UTILITY: Pacific Gas and Electric COff"8ny PLANT LOCATION: CA, Eureka NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 08/26/62 INITIAL CRITICALITY: 02/16/63 DATE OF COMMERCIAL OPERATION: 08/01/63 FIRE LOCATION: Other Building DATE OF FIRE: 03/16/83 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: C<Xll)Onent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Circuit Breaker POWER DEGRADATION CX): OX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

LER

  • B-3

Page No. 4 09/24/92 FIRE DATA* BUS FIRES PLANT NAME Kewaunee CAPACITY 503 MWe INO 401 PRINCIPAL OWNER UTILITY: Wisconsin Public Service Corporation PLANT LOCATION: WI, Carlton NSSS VENDOR_: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 03/15/74 DATE OF COM~ERCIAL OPERATION: 06/15/74 FIRE LOCATION: Turbine Building DATE OF FIRE: 07/10/87 TIME OF FIRE: 1143 FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Deenergized SUPPRESSION EQUIPMENT: None SUPPRESSION AGENT(S): None SUPPRESSION TIME: 3 Minutes SUP_FLAG: 0 INITIATING COMPONENT: Bus INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): SCRAM FORCED OUTAGE: SLOSS:

REFERENCES:

LER PLANT NAME Oconee 1 CAPACITY 846 MWe INO 437 PRINCIPAL OWNER UTILITY: Duke Power Con.,any PLANT LOCATION: SC, Seneca NSSS VENDOR: Babcock end Wilcox REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 04/15/73 DATE OF COMMERCIAL OPERATION: 07/15/73 FIRE LOCATION: Switchgear Room I DATE OF FIRE: 01/03/89 TIME OF FIRE: 1916 FIRE DURATION: TIHE THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY:

  • Plant Personnel EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT:

SUPPRESSION AGENT(S): Water, CO2, Dry Chemical SUPPRESSION TIME: 59 minutes SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-4

Page No. 5 09/24/92 FIRE OATA

  • BUS FIRES PLANT NAME Pelo Verde 1 CAPACITY 1221 MWe INO 429 PRINCIPAL OWNER UTILITY: Arizona Public Service C~ny PLANT LOCATION: AZ, *w1ntersburg NSSS VENDOR: Contiustion Engineering REACTOR TYPE: PWR OPERATING LICENSE ISSUED:

INITIAL CRITICALITY: 05/15/85 DATE OF COMMERCIAL OPERATION: 01/15/86 FIRE LOCATION: DATE OF FIRE: 03/05/89 TIME OF FIRE: 1001 FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 6 minutes SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): SCRAM FORCED OUTAGE: SLOSS:

REFERENCES:

LER PLANT NAME. Yankee CAPACITY 167 MWe INO 385 PRINCIPAL OWNER UTILITY: Yankee Atomic Electric C~ny PLANT LOCATION: MA, Rowe NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 08/15/60 DATE OF COMMERCIAL OPERATION: 7/15/61 FIRE LOCATION: Switchgear Room DATE OF FIRE: 08/02/84 TIME OF FIRE: 1015 FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Security Guards EXTINGUISHED BY: Autanatic System SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): Gas-Halon SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Electrical Equipment POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-5

Page No. 6 09/24/92 FIRE DATA* BUS FIRES PLANT NAME Yankee Rowe CAPACITY 175 MWe INO 342 PRINCIPAL OWNER UTILITY: Yankee Atanic Electric C~ny PLANT LOCATION: MA, Rowe NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 07/19/60 INITIAL CRITICALITY: 08/19/60 DATE OF COMMERCIAL OPERATION: 07/01/61 FIRE LOCATION: Switchgear Roan DATE OF FIRE: 08/02/84 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation (100X) PROBABLE CAUSE OF FIRE: Electrical Failure, C~nent Failure TYPE OF FIRE: Class C DETECTED BY: Security Guard EXTINGUISHED BY: Autanatic System SUPPRESSION EQUIPMENT: Autanatic Gas System SUPPRESSION AGENT(S): Gas-Halon SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Circuit Breaker, Bus, Cable POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER, PRE B-6

Page No. 09/24/92 DESCRIPTIONS OF FIRE DATA - BUS FIRES IND DESCRIPTION 186 Fire in a bus duct located in the cooling tower fan control house. Moisture entering the bus duct caused a phase to phase short. 235 Fire involved a 480V bus located in the switch gear room. Short circuit caused by a rodent bridging two energized phases. 246 Fire involved a supply bus located in a switchgear room. 256 Construction electrician shorted-out bus. Extinguished by construction workers. 324 A fire occurred in a 480-V circuit breaker supplying the radwaste pu1p. Investigation revealed the secondary side fuses on the breaker's control power transformer to have been rated at 1000% of the transformer rating. The fire was initiated by a fault to ground. The condition was exacerbated by the over-capacity of the fuse. 342 During normal operation in mode 1 a fault occurred in the 480 volt supply ACB to bus 4-1 that resulted in 4-1 Bus isolation, fire detection initiation and halon discharge. The fire brigade responded as required. The cause of the fault has been attributed to high resistance in the main disconnecting contacts of the center phase of the ACB which caused an arc to propagate to the outside phases. 344 Electrical fire in the breaker/control house serving cooling tower 'A'. Control house is a metal panel 16' x 20 1 structure. Substantial damage to wiring and structure reported. Smoke billowing from structure delayed gaining control of the fire. 385 Mechanical failures in a 480V supply bus breaker resulted in high main contact resistance and breaker failure leading to a fire. The fire was initially reported by personnel in the area, and the fire detection system then actuated initiating discharge of the Halon FPS. The Halon successfully supressed the fire. The initial energy release from the faulting breaker caused damage to the bus tie breaker below from falling debris, and ignition of the control cables. The fire eventually resulted in damage to wires in three breaker cubicles in this section of the switch* B-7

Page No. 2 09/24/92 DESCRIPTIONS OF FIRE DATA* BUS FIRES INC DESCRIPTION 385 gear, meter end relay covers outside the switchgear, and damage to the jackets of 11 e few" control cables in overhead cable treys. 401 Insulation on a 4160 V bus bar failed. This failure was coq,oin:led by accl.ll'Lllated "dust and metallic powder debris collected on the outside of the bus bar Insulation." This condition resulted in e phase to ground fault which caused extensive damage to the bus bar and a fire. The loss of the 4160 V bus resulted In an automatic reactor trip. 429 Failure of e control circuit processor board initiated e reactor trip. During the process of shifting electrical loads from the Unit Auxiliary Transformer (UAT) to the startup transformer, a breaker on the 13.8 ICV bus NAN-502 failed to trip. Approximately 9 minutes later, en Auxiliary Operator (AO) reported a fire in the effected bus to the CR. The RO attempted to trip the bus but was unsuccessful. The AO then attempted to trip the bus manually but was also unsuccessful. A second AO was able to trip the bus using the manual trip lever. The AO's then suppressed a fire In the failed breaker using a CO2 hose reel. The fire was reported out approximately 15 minutes after the initial fault occured. 437 On 1/3/89 at 1916 hours with Unit 1 at 26X power during power escalation after startup following a trip a Fire occurred in the Unit 1 6900 V switchgear. The fire occurred while swapping the the power supply for the 6900V switchgear from the startup trans-former (LT-1) to the main transformer (1T). At 1933 hours the Fire Brigade attempted to extinguish the Fire using CO2 extinguishers but were unsuccessful. A second attempt was made using dry chemical extinguishers. This attempt was also un-successful due to the high heat content of the cabinet causing reflesh. It was then decided to use water fog. The reactor was tripped end remianing 6900 KV switchgear was deenergized. At 2015 hours the fire was reported to be extinguished. B-8

Page No. 09/24/92 FIRE DATA* CABLE FIRES PLANT NAME CAPACITY INO 264 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Turbine Building DATE OF FIRE: 11/28/80 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Cables PO\IER DEGRADATION CX): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI PLANT NAME Browns Ferry 1 CAPACITY 1065 HWe INO 100 PRINCIPAL OIINER UTILITY: Tennessee Valley Authority PLANT LOCATION: AL, Decatur NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 12/20/73 INITIAL CRITICALITY: 08/17/73 DATE OF COMMERCIAL OPERATION: 08/01/74 FIRE LOCATION: Cable Spreading Room DATE OF, FIRE: 03/22/75 TIME OF FIRE: FIRE DURATION: 07:30 TIME THAT FIRE BURNED: 6 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Defective Procedure TYPE OF FIRE: Class A DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel, Offsite Fire Department SUPPRESSION EQUIPMENT: Inside Hose Streams, Portable Extinguishers SUPPRESSION AGENT(S): Water SUPPRESSION TIME: 07:00 SUP_FLAG: 6 INITIATING COMPONENT: Torch INITIATING COMBUSTIBLE: Sealant COMPONENTS EFFECTED BY FIRE: Cable POIIER DEGRADATION(%): SCRAM FORCED OUTAGE: 550 Days $LOSS: $100H

REFERENCES:

EPRI, NPE, LER

  • B-9

Page No. 2 PLANT NAME Browns Ferry 1 FIRE DATA* CABLE FIRES CAPACITY 1065 MWe INO 240 09/24/92

  • PRINCIPAL OWNER UTILITY: Tennessee Valley Authority PLANT LOCATION: AL, Decatur NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 12/20/73 INITIAL CRITICALITY: 08/17/73 DATE OF COMMERCIAL OPERATION: 08/01/74 FIRE LOCATION: Turbine Building DATE OF FIRE: 01/21/80 TIME OF FIRE:

FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant PersolYlel SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Cable POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

MEMO PLANT NAME' Oconee 3 CAPACITY 860 MWe INO 126 PRINCIPAL OWNER UTILITY: Duke Power COO"f)any PLANT LOCATION: SC, Seneca NSSS VENDOR: Babcock and Wilcox REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 07/19/74 INITIAL CRITICALITY: 09/05/74 DATE OF COMMERCIAL OPERATION: 12/16/74 FIRE LOCATION: Other Building 

  .DATE OF FIRE: 05/25/83                    TIME OF FIRE:

FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF ~LANT OPERATION: Power Operation (100%) PROBABLE CAUSE OF FIRE: Welding and Cutting TYPE OF FIRE: Class B DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Cable POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

NPE, LER B-10

  • Page No. 3 PLANT NAME Quad*Cities 2 FIRE DATA* CABLE FIRES CAPACITY 789 MWe INO 51 09/24/92 PRINCIPAL OWNER UTILITY: Conmonwealth Edison Con-.:,any PLANT LOCATION: IL, Cordova NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 04/D6/72 INITIAL CRITICALITY: 04/26/72 DATE OF COMMERCIAL OPERATION: 08/??/72 FIRE LOCATION: TIP Room DATE OF FIRE: 07/16/72 TIME OF FIRE:

FIRE DURATION: 02:00 TIME THAT FIRE BURNED: 6 MODE OF PLANT OPERATION: Pre*operational Testing PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Control Room Observation, Plant Personnel EXTINGUISHED BY: Self Extinguishing SUPPRESSION EQUIPMENT: None SUPPRESSION AGENT(S) :* None SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Cable POWER DEGRADATION (X): SCRAM FORCED OUTAGE: 8 Days $LOSS: less than SSk

REFERENCES:

ANI, LER PLANT NAME San Onofre 1 CAPACITY 430 MWe INO 7 PRINCIPAL OWNER UTILITY: Southern California Edison C~any PLANT LOCATION:. CA, San Clemente NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 03/27/67 INITIAL CRITICALITY: 06/24/67 DATE OF COMMERCIAL OPERATION: 01/01/68 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 02/07/68 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 00:30 SUP_FLAG: 5 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Cable POWER DEGRADATION (X): SCRAM FORCED OUTAGE: SLOSS:

REFERENCES:

NPE, LER

  • B-11

Page No. 4 09/24/92 FIRE DATA* CABLE FIRES PLANT NAME San Onofre 1 CAPACITY 430 MWe INO 8 PRINCIPAL OWNER UTILITY: Southern California Edison C~ny PLANT LOCATION: CA, San Clemente NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 03/27/67 INITIAL CRITICALITY: 06/24/67 DATE OF COMMERCIAL OPERATION: 01/01/68 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 03/12/68 TIME OF FIRE: 0008 FIRE DURATION: 01:45 TIME THAT FIRE BURNED: 6 Ma>E OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure, Design/Fabrication Error TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Offslte Fire Department SUPPRESSION EQUIPMENT: Portable Extinguishers, outside Hose Streams SUPPRESSION AGENT(S): Gas-CO2, Dry Chemical, Water SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: . Insulation COMPONENTS EFFECTED BY FIRE: Cable, Circuit Breaker POWER DEGRADATION (X): SCRAM FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI, LER B-12

  • Page No.

INO DESCRIPTIONS OF FIRE DATA* CABLE FIRES DESCRIPTION 09/24/92 7 On Feb 7, 1968, a fire broke out in the electrical cables leading to a contafnnent sphere electrical penetration canister. The reactor was safely shut down and the fire was prOll'f)tly extinguished. The outer bulkhead of the penetration had been forced from the canister shell and the electrical cables, including 45 pressurizer heater cables leading to this penetration outside the contairment and 11 cables in the cable tray serving an adjacent penetration, had been damaged by the fire. The cable failure was due primarily to thermally overloaded 480V cables in an area of restricted ventilation. Heating due to power losses In the conductors caused the insulation on the conductors to be subjected to elevated t~ratures, causing the Insulation to age. 8 On March 12, 1968 an operator noticed erratic readings on control indicators. At the same time another operator noticed smoke coming from the switchgear room cable trays. He called the fire department end plant ~loyees to fight the fire. The fire department laid hose end extinguished the fire with water fog hose lines laid from inside see water suction. The probable cause of this fire was long term overheating of the insulation. 51 A fire occurred from a bad splice in one phase of the power feed for a drywell cooler. Although there was little visble evidence of arcing, they believe that the initial arc from this cable contributed to the spread of the fire. The fire did not spread out of the main zone by radiation or conduction. All power cable protective devices functioned properly end were instrumental in containing the spread of the fire. 100 A fire occurred in Units 1 end 2 cable spreading room. Conteirment penetration sealant was ignited by a candle flame being used to check the penetration for leakage. Because of the pressure differential kept between the CSR and the RB, the fire quickly spread to the RB. 240 Smell smoldering fire in a cable trey beneath the turbine building operating floor. 264 Fire in cable treys in turbine building *

  • B-13

Page No. INC 2 DESCRIPTIONS OF FIRE DATA* CABLE FIRES DESCRIPTION 09/24/92 326 lo'hile welding on a hanger, a fire started in a nearby cable. The fire burned through the cable before it could be extinguished. The vital cable was inrnediately replaced. B-14

  • Page No.

PLANT NAME FIRE DATA* MCC FIRES CAPACITY IND 14 09/24/92 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE Of COMMERCIAL OPERATION: FIRE LOCATION: Auxiliary Building DATE OF FIRE: 12/30/69 TIME OF FIRE: FIRE DURATION: 02:00 TIME THAT FIRE BURNED: 6 MODE OF PLANT OPERATION: Pre-operational Testing PROBABLE CAUSE OF FIRE: Corrponent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel, Offsite Fire Department SUPPRESSION EQUIPMENT: Portable Extinguishers, Inside Hose Streams SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor Control Center POWER DEGRADATION (X): 0% FORCED OUTAGE: 0 Days SLOSS: S5k to S50k

REFERENCES:

EPRI PLANT NAME CAPACITY IND 185 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Other Building DATE OF FIRE: 04/13/78 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: D MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: C~nent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor Control Center POWER DEGRADATION CX): FORCED OUTAGE: $LOSS:

REFERENCES:

EPRI

  • B-15

Page No. 2 09/24/92 FIRE DATA* MCC FIRES PLANT NAME CAPACITY INC 254 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF ta4MERCIAL OPERATION: FIRE LOCATION: Switchgear Room DATE OF FIRE: 07/06/80 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Conponent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Control Room Observation EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-Halon SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Circuit Breaker POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI PLANT NAME Fermi 2 PRINCIPAL OWNER UTILITY: Detroit Edison C~ny PLANT LOCATION: Ml, Newport NSSS VENDOR: General Electric CAPACITY 1075 Mije REACTOR TYPE: INO BIIR 415 OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 06/15/85 DATE OF COMMERCIAL OPERATION: 06/15/88 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 08/06/86 TIME OF FIRE: 1711 FIRE DURATION: TIME THAT FIRE BURNED: 0 MCX>E OF PLANT OPERATION: PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class C DETECTED BY: Control Room Observation EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-CO2 SUPPRESSION TIME: 9 minutes SUP_FLAG: 0 INITIATING COMPONENT: Motor Control Center INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-16

  • Page No. 3 PLANT NAME Millstone 2 FIRE DATA* MCC FIRES CAPACITY 870 MWe INO 138 09/24/92 PRINCIPAL OWNER UTILITY: Notheast Utilities PLANT LOCATION: CT, Waterford NSSS VENDOR: Conb.lstion En11ineerln11 REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 08/01/75 INITIAL CRITICALITY: 10/17/75 DATE OF COll4ERCIAL OPERATION: 12/??/75 FIRE LOCATION: Other Building DATE OF FIRE: 11/15/76 TIME OF FIRE:

FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Hot Shutdown PROBABLE CAUSE OF FIRE: TYPE OF FIRE: DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 00:06 SUP_FLAG: 3 INITIATING COMPONENT: Relay INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor Control Center POWER DEGRADATION CX): FORCED ClJTAGE: SLOSS:

REFERENCES:

LPRA PLANT NAME Quad Cities 2 CAPACITY 769 MWe INO 404 PRINCIPAL OWNER UTILITY: Conmonwealth Edison COl!pllny PLANT LOCATION: IL, Cordova NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 04/15/72 DATE OF COMMERCIAL OPERATION: 03/15/73 FIRE LOCATION: Turbine Building DATE OF FIRE: 12/30/87 TIME OF FIRE: 0025 FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Persol'Wlel EXTINGUISHED BY: Deenergize SUPPRESSION EQUIPMENT: None SUPPRESSION AGENT(S): None SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED ClJTAGE: SLOSS:

REFERENCES:

LER

  • B-17

Page No. 4 09/24/92 FIRE DATA - MCC FIRES PLANT NAME Trojan CAPACITY 1130 MWe !NO 121 PRINCIPAL OWNER UTILITY: Portland General Electric Con.,any PLANT LOCATION: OR, Prescott NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 11/21/75 INITIAL CRITICALITY: 12/15/75 DATE OF C<>>4MERCIAL OPERATION: 05/20/76 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 03/04/76 TIME OF FIRE: 1649 FIRE DURATION: 00:25 TIME THAT FIRE BURNED: 4 MODE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Electrical Failure, C~nent Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENTCS): Gas-Unspeci~ied SUPPRESSION TIME: 00:05 SUP_FLAG: 3 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Circuit Breaker POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: SSk to SSOk

REFERENCES:

EPRI, AN!, LPRA PLANT NAME Trojan CAPACITY 1130 MWe !NO 268 PRINCIPAL OWNER UTILITY: Portland General Electric Con.,any PLANT LOCATION: OR, Prescott NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 11/21/75 INITIAL CRITICALITY: 12/15/75 DATE OF COMMERCIAL OPERATION: 05/20/76 FIRE LOCATION:' Auxiliary Building DATE OF FIRE: 12/31/80 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: D MODE OF PLANT OPERATION: Power Operation (100%) PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor Control Center INITIATING COMBUSTIBLE: 

   *cOMPONENTS EFFECTED BY FIRE: Motor Control Center POWER DEGRADATION (X):                  FORCED OUTAGE:                 SLOSS:

REFERENCES:

NPE B-18

  • Page No.

INO DESCRIPTIONS OF FIRE DATA - MCC FIRES DESCRIPTION 09/24/92 14 During a start up test, a fire occurred resulting in the destruction of a MCC. Loose termination on-line conductors et contacts end breakers caused the fire. 121 At approximately 16:49 a fire resulted from a short caused by the slabs ~n the ITE breakers not properly engaging the bus bars in a switch cabinet. As a result of a short, insulation on some wires ignited, resulting in a fire. The fire was discovered inmedietely by ~loyees who extinguished the blaze with portable fire extinguishers. Damage was confined to the cabinet where the fire occurred, located in the motor control center. 138 Fire occurred in the MCC serving ESF equipment due to the wrong connector. 185 Fire involved a controller and circuit breaker assentily located in an MCC. 254 Fire involving breaker in switch gear room. Out of adjustment control cicuit c~leted. 268 Fire in 480V M.C.C casing. Minor damage to the associated bus work. This M.C.C normally supplied certain emergency safety features including several containment isolation valves, air coolers; end containment spray valves. The M.C.C. was inoperable for 5.5 hours. 404 A motor Control Center indicating light socket shorted causing en overload on the control transformer resulting in a fire. The fire destroyed the contents of the entire motor control center bay. This resulted in the loss of remote manual control end remote position indication of a standby coolant supply valve. The system remained operable based on the ability to manipulate the valve locally. The fire was detected and reported to the control room due to smoke buildup in the turbine building. 415 At 1711 hours on 8/6/86; Fermi was in operational condition 2 (startup), operating et 140 psig, 360 degress Fahrerheit and 1X reactor power when an electrical fire was discovered in a safety related Motor control Center (MCC). The involved MCC positions supplied power to three High Pressure Coolant Injector (HPCI)

  • B-19

Page No. 2 09/24/92 DESCRIPTIONS OF FIRE DATA* MCC FIRES INC DESCRIPTION 415 valves. As a result, avalllablllty of the HPCI system could have been lost, and the contalnnent peretratlor associated with the HPCI minl111111 flow line could have been caused to be Inoperable. The cause of this event was a personnel error which resulted in an incorrect field wiring installation. B~

  • Page No.

PLANT NAME Palisades FIRE DATA* PUMP FIRES CAPACITY 768 MWe !NO 269 09/24/92 PRINCIPAL OWNER UTILITY: Consuners Power Carpany PLANT LOCATION: MI, South Haven NSSS VENDOR: conmuatlon Engineering REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 10/15/72 INITIAL CRITICALITY: 05/24/71 DATE OF COMMERCIAL OPERATION: 12/15/71 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 01/24/81 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE:. C~nt Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor, p~ POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER, EPRI PLANT NAME Palisades CAPACITY 768 MWe IND 358 PRINCIPAL O\INER UTILITY: Consuners Power C~ny PLANT LOCATION: Ml, South Haven NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 05/15/71 DATE OF COMMERCIAL OPERATION: 12/15/71 FIRE LOCATION: Turbine Building DATE OF FIRE: 01/24/81 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Overheated Material TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER

  • B-21

Page No. 2 PLANT NAME Peach Bottom 3 FIRE DATA* PUMP FIRES CAPACITY 1100 MWe !NO .392 09/24/92 PRINCIPAL OWNER UTILITY: Philadelphia Electric Carpany PLANT LOCATION: PA, Delta NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 08/15/74 DATE OF COMMERCIAL OPERATION: 12/15/74 . FIRE LOCATION: Reactor Building DATE OF FIRE: 11/20/85 TIME OF FIRE: 0527 FIRE DURATION: 23 Minutes TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Refueling outage PROBABLE CAUSE OF FIRE: .COIJ1Xlnent Failure TYPE OF FIRE: Class C DETECTED BY: Smoke Detectors EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): SUPPRESSION TIME: 20 Minutes SUP_FLAG: 0 INITIATING COMPONENT: Motor INITIATING COMBUSTIBLE: Oil COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (t): FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-22

Page No. 09/24/92 DESCRIPTIONS OF FIRE DATA - PUMP FIRES INO DESCRIPTION 269 The motor for cOIIJ)Onent cooling water~ P*52C caught on fire. The motor was stopped, the fire extinguished, and a reflash watch posted. The fire was caused by motor bearing failure from apparent loss of lubricating oil. Cause of oil loss could not be determined. Entire motor was replaced to restore l)U1'> operability. 35B During normal plant operation the motor for one coq,onent cooling water purp caught fire due to loss of lubricating oil to and failure of a motor bearings. The motor was deenergized and the fire extinguished. The motor was subsequently replaced. 392 Failure of wear rings on the Unit 3 "C" RHR purp caused an elect-cal fault and fire in the~ motor. A RHR l)U1'> trip alarm was received at 0527 in the main control room. At 0530, a smoke detector alarm occurred. The plant fire brigade responded and extinguished a fire in the "C" RHR ~ using portable extin- . guishers. The fire was reportedly extinguished by approximately 0550. Inspection of the other plant RHR purps revealed the potential for similar faults, and all pumps were inspected and repaired. B-23

Page No. PLANT NAME Brunswick 1 FIRE DATA* RELAY FIRES CAPACI.TY 790 MWe INO 388 09/24/92 PRINCIPAL OWNER UTILITY: Carolina Power and Light Con.,any PLANT LOCATION: NC, Southport NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 10/15/76 DATE OF COfl4ERCIAL OPERATION.: 03/15/77 FIRE LOCATION: Reactor Building DATE OF FIRE: 07/30/85 TIME OF FIRE: 2236 FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Refuting outage PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 7 minutes SUP_FLAG: 0 INITIATING COMPONENT: Relays INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OOTAGE: SLOSS:

REFERENCES:

LER PLANT NAME Duane Arnold CAPACITY 538 MWe INO 159 PRINCIPAL OWNER UTILITY: Iowa Electric Light and Power C~ny PLANT LOCATION: IA, Palo NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 02/22/74 INITIAL CRITICALITY: 03/23/74 DATE OF COfl4ERCIAL OPERATION: 02/01/75 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 05/07/77 TIME OF FIRE: FIRE DURATION: <00:05 TIME THAT FIRE BURNED: 2 MODE OF PLANT OPERATION: Refueling Outage PROBABLE CAUSE OF FIRE: C~nent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-Unspecified SUPPRESSION TIME: 00:03 SUP_FLAG: 2 INITIATING COMPONENT: Cf rcui t Breaker INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Circuit Breaker POWER DEGRADATION (X): OX FORCED OOTAGE: 0 Days SLOSS: less than S5k

REFERENCES:

NPE, LER, EPRI B-24

. a g e No. 2 09/24/92 FIRE DATA* RELAY FIRES PLANT NAME Peach Bottom 2 CAPACITY 1065 MWe INO 166 PRINCIPAL OWNER UTILITY: Philadelphia Electric C~ny PLANT LOCATION: PA, Peach Bottom NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 08/08/73 INITIAL CRITICALITY: 09/16/73 DATE OF COMMERCIAL OPERATION: 07/??/74 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 07/29/77 TIME OF FIRE: FIRE DURATION: 00:12 TIME THAT FIRE BURNED: 3 MCX>E OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class A DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENTCS): SUPPRESSION TIME: 00:12 SUP_FLAG: 3 INITIATING COMPONENT: Relay INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Relay, Cable POWER DEGRADATION CX): ox FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

NPE ~Pl.ANT""' ....,, ...... 3 CAPACITY 1065 MWe INO 156 PRINCIPAL OWNER UTILITY: Philadelphia Electric C~ny PLANT LOCATION: NJ, Peach Bottom NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 07/02/74 INITIAL CRITICALITY: 08/06/74 DATE OF COMMERCIAL OPERATION: 12/??/74 FIRE LOCATION: Cable Spreading Room DATE OF FIRE: 04/18/77 TIME OF FIRE: FIRE DURATION: 00:45 TIME THAT FIRE BURNED: 5 MODE OF PLANT OPERATION: Power Operation (25X) PROBABLE CAUSE OF FIRE: C~ent Failure, Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-CO2 SUPPRESSION TIME: 00:06 SUP_FLAG: 3 INITIATING COMPONENT: Circuit Breaker INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Circuit Breaker, Valve POWER DEGRADATION CX): SCRAM FORCED OUTAGE: 0 Days SLOSS: S5k to S50k

REFERENCES:

EPRI, AN!, LER B-25

Page No. 3 09/24/92 FIRE DATA* RELAY FIRES PLANT NAME Peach Bottom 3 CAPACITY 1065 MWe !NO 169 PRINCIPAL OWNER UTILITY: Philadelphia Electric COll1)8ny PLANT LOCATION: PA, Peach Bottom NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 07/02/74 INITIAL CRITICALITY: 08/06/74 DATE OF COMMERCIAL OPERATION: _12/??/74 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 09/15/77 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Power Operation (100X) PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class A DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Relay INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Relay, Cable POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

NPE PLANT NAME Three Mile Island CAPACITY 808 MWe !NO 419 PRINCIPAL OWNER UTILITY: GPU Nuclear Corporation PlANT LOCATION: PA, Londonderry Twp. NSSS VENDOR: Babcock &Wilcox REACTOR TYPE: PWR OPERATING LICENSE ISSUED: . INITIAL CRITICALITY: 06/15/74 DATE OF COMMERCIAL OPERATION: 09/15/74 FIRE LOCATION: Control Room Building DATE OF FIRE: 09/07/85 TIME OF FIRE: 1558 FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Hot Shutdown PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Smoke Detector EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 7 Minutes SUP_FLAG: 0 INITIATING COMPONENT:* lnstrunentation INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER D~GRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-26

4 09/24/92 FIRE DATA* RELAY FIRES PLANT NAME Three Mile Island 1 CAPACITY 808 MWe IND 368 PRINCIPAL OWNER UTILITY: GPU Nuclear Corporation PLANT LOCATION: PA, Londonderry Twp. NSSS VENDOR: Babcock and Wilcox REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 06/15/74 DATE OF COMMERCIAL OPERATION: 09/15/74 FIRE LOCATION: Control Building DATE OF FIRE: 09/27/82 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: . 0 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Relay INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OOTAGE: SLOSS: ~EFERENCES, B-27

Page No. 09/24/92 DESCRIPTIONS OF FIRE DATA - RELAY FIRES INO DESCRIPTION 156 An odor of overheated electrical insulation was detected by persomel in the CSR. Damage to portion of PCIS logic resulted from a partial short circuit in K*31 relay for RHR shutdown cooling isolation valve M0-10*18 caused the relay to overheat. The plastic contact arm retainer ignited and a minor fire c011111Jnicated to adjoining relays. It was extinguished and the unit was shutdown. GE CR120A industrial control relay coil failed. Effected relays and equipment were replaced and tested. 159 Cause - auxiliary relay failure. While shutdown for refueling, a fire occurred in breaker 52-3401 and the 1834A tie breaker. The breaker was opened and the fire extinguished. The breaker Y auxiliary relay failed, burning open and starting the phase barrier material just above it on fire. The breaker is an Allis Chalmers type LA-600. A new breaker with non-combustible phase barrier material was installed. Phase barrier material in the only similar breaker was replaced with a non-combustible type. 166 Fire in SRM detector drive relay cabinet. Improper installation of relay contact arm retainers. 169 A fire occurred in a rely cabinet. Improper installation of flanmable relay contact arm retainers was the cause of the fire. 368 Coil failure led to burning of relay 63Z2E/RB1B. This event was not initially reported until the 4th such occurrence in approxi* mately one year was experienced. This incident is the first of four events. All four events are attributed to either end*of-life or other undefined mechnical failure. 388 During maintenance activitiey, one leg of a reactor water level indicator line was improperly vented initiating a LOCA signal and actuating the 1A core spray (CS) system. The reactor was shutdown, defueled, and had the the reactor cavity open at the time. As a result, 25000 gallons of water flooded the reactor building before the system was secured. During the event, two CS logic relays overheated and caught fire. The fires were extin-guished within 7 minutes. The failure resulted from the use of AC relays in a DC system. No further damage from the fire was reported, althrough significant water damage was reported. B-28

Page No. 2 09/24/92 DESCRIPTIONS OF FIRE DATA - RELAY FIRES !NO DESCRIPTION 419 At 1558 on 9/7/85, while performing Surveillance SP 1303-7.1 (to verify High Start-up Rate Rod Sbp Interlock), Group 5 Control Rods were tranferred from Normal Power Supply to Axiliary Power Supply. At the completion of the transfer, the Control Room Operator (CRO) observed that both Group 5 and Group 6 "Control 011 lights were lit on the position indictor panel behind the console The CRO decided to remove Group 5 from the Auxiliary Power Supply At this imte the Relay Room Fire alarm arnuci11tor was received. The reactor was manually tripped using the push button on the console. The fire was relatively small and localized to several CRD cabinets. The fire resulted from the transfer of power sup-plies without clanping and synchronization. B-29

Page No. PLANT NAME Cook 1 FIRE DATA* TRANSFORMER FIRES CAPACITY 1020 MWe INO 396 ' 09/24/92 PRINCIPAL OWNER UTILITY: Indiana/Michigan Power COO'f)llny PLANT LOCATION: Ml, Bridgman NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 01/15/75 DATE OF COMMERCIAL OPERATION: 08/15/75 FIRE LOCATION: Trubine Building DATE OF FIRE: 02/01/86 TIME OF FIRE: 0811 FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT; OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Smoke Detectors EXTINGUISHED BY: Plant Fire Brigade SUPPRESSION EQUIPMENT: Inside Hose Streams SUPPRESSION AGENT(S): Water SUPPRESSION TIME: 16 Minutes SUP_FLAG: 0 INITIATING COMPONENT: Transformer INITIATING COMBUSTIBLE: Carbon Buildup COMPONENTS EFFECTED BY FIRE: Building POIIER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER PLANT NAME Fort St. Vrain CAPACITY 330 MWe INO 193 PRINCIPAL OWNER UTILITY: Public Service C~ny of Colorado PLANT LOCATION: CO, Platteville NSSS VENDOR: General Atomic Coq>any REACTOR TYPE: HTGR OPERATING LICENSE ISSUED: 12/21/73 INITIAL CRITICALITY: 01/31/74 DATE OF COMMERCIAL OPERATION: 07/01/79 FIRE LOCATION: Switchgear Room DATE OF FIRE: 07/31/78 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Pre-operational Testing PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Control Room Observation EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Transformer INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Transformer POWER DEGRADATION (X): SCRAM FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI, LER B-30

Page No. 2 09/24/92 FIRE DATA* TRANSFORMER FIRES PLANT NAME LaSalle County 2 CAPACITY 1036 MWe INO 444 PRINCIPAL OWNER VTILITY: Conmonwealth Edison Con-pany PLANT LOCATION: IL, Seneca NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 03/15/84 DATE OF COMMERCIAL OPERATION: 10/15/84 FIRE LOCATION: Switchgear Room DATE OF FIRE: 06/25/85 TIME OF FIRE: 1506 FIRE DURATION: f1ME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Shutdown PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING Ca4PONENT: Transformer INITIATING COMBUSTIBLE: Ca4PONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

LER PLANT NAME Turkey Point 3 CAPACITY 728 MWe INC 59 PRINCIPAL OWNER UTILITY: Florida Power and light Con-pany PLANT LOCATION: Fl, Florida City NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 07/19/72 INITIAL CRITICALITY: 10/20/72 DATE OF COMMERCIAL OPERATION: 12/14/72 FIRE LOCATION: Auxiliary Building DATE OF FIRE: 12/16/72 TIME OF FIRE: FIRE DURATION: 00:25 TIME THAT FIRE BURNED: 4 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Corrponent Failure TYPE OF FIRE: Class B DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-Unspecified SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Transformer INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Transformer POWER DEGRADATION (X): ox FORCED OUTAGE: 0 Days SLOSS: less than SSk

REFERENCES:

EPRI, LER B-31 

                                                    /'

Page No. 3 09/24/92 FIRE DATA

  • TRANSFORMER FIRl;S.

PLANT NAME Vermont Yankee CAPACITY 514 MWe INO 56 . PRINCIPAL OWNER UTILITY: Vermont Yankee Ntliclear Power Corporation PLANT LOCATION: VT, Vernon NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 02/28/73 INITIAL CRITICALITY: 03/24/72 DATE OF COMMERCIAL OPERATION: 11/30/72 FIRE LOCATION: Turbine Building DATE OF. FIRE: 11/08/72 TIME OF FIRE: FIRE DURATION: 02:30 TIME THAT FIRE BURNED: 6 MCl>E OF PLANT OPERATION: Pre-operational Testing PROBABLE CAUSE OF FIRE: Electrical Failure, Carponent Failure TYPE OF FIRE: Class C DETECTED BY: Plant Personnel EXTINGUISHED BY: Automatic System, Plant Personnel SUPPRESSION EQUIPMENT: Outside Hose Stream, Automatic Deluge System SUPPRESSION AGENT(S): Dry Chemical, Water SUPPRESSION TIME: 00:30 SUP_FLAG: 5 INITIATING COMPONENT: Transformer INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Tran~fonner, Valve, Circuit Breaker POWER DEGRADATION CX): Scram FORCED WTAGE: 30 Days SLOSS: S100k to S500k

REFERENCES:

NPE, LER B-32

Page No. 09/24/92 DESCRIPTIONS OF FIRE DATA* TRANSFORMER FIRES INO DESCRIPTION 56 A fire in the un.it auxiliary transformer was extensively damaged. The fire was caused by the momentary application of system frequency to the unit auxiliary transformer. Apparently, this momentary frequency mismatch, while the transformer was under the stress of overexcitation, caused the failure of the transformer. The fire was extinguished with dry powder prior to the arrival of 7 local fire 161its. 59 A.battery charger overheated and a small fire occurred in the transformer winding insulation. 193 Cause* turn to turn short in one phase. During normal operation, the 4160/480 volt, dry type, transformer feeding 480 volt essential bus 1A, failed and caught fire. lnterruptable instrunent power bus 1C lost power and the main turbine generator tripped. The reactor was manually scranrned. The dry type ITE 4160/480 volt shorted turn*to*turn in one phase of the low voltage windings. The resulting fire was extinguished by plant personnel using portable fire extinguishers. *!2Q' 396 Faulting on the 4kv side of the 'CD' 26/4 kv transformer induced a fire and a reactor trip. Fire alarms sounded in the area of the main generator, and the fire brigade responded to the generator area. Heavy smoke was observed coming from the "belly* of the generator and from 633 1 elevation of the generator. Fire hoses in this area were charged with water and a search for the fire was initiated. It was discovered that smoke was being con* veyed from the transformer to the area of the generator via the bus duct ventilation/cooling system. The focus of activity was shifted to the transformer. No was actually sprayed in the generator area. The fire was extinguished by the fire brigade 444 At 1506 hours on June 25, 1985, a large overcurrent or a 4200/480 volt transformer at switchgear 237x occurred, causing a low voltage transient on the 4200 bus. The unit was shutdown, there* fore all 4200 volt busses were being supplied from the system auxiliary transformer, and all 4200 volt busses were affected. An overcurrent protective relay at switchgear 241X tripped the supply breaker for switchgear 237c. The high current caused a small electrical fire at the 237X switchgear. Station personnel quickly extinguished the fire. B-33

Page No. 09/24/92 FIRE DATA* TRANSIENT FUELED FIRES PLANT NAME CAPACITY INO 87 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Turbine Building DATE OF FIRE: 09/20/74 TIME OF FIRE: FIRE DURATION: 00:15 TIME THAT FIRE BURNED: 4 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class A DETECTED BY: Plant Personnel, Smoke Detectors, Heat Detectors EXTINGUISHED BY: Automatic System SUPPRESSION EQUIPMENT: Automatic Deluge System SUPPRESSION AGENT(S): Water SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Waste COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): OX FORCED.OUTAGE: 0 Days SLOSS: less than SSk

REFERENCES:

EPRI, ANI PLANT NAME CAPACITY INO 105 PRINCIPAL OWNER UTILITY: PLANT LOCATION: NSSS VENDOR: REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: DATE OF COMMERCIAL OPERATION: FIRE LOCATION: Other Building DATE OF FIRE: 06/08/75 TIME OF FIRE: 1800 FIRE DURATION: 00:20 TIME THAT FIRE BURNED: 4 MODE OF PLANT OPERATION: Pre-operational Testing PROBABLE CAUSE OF FIRE: Welding and Cutting, Personnel Error TYPE OF FIRE: Class A DETECTED BY: Construction Workers EXTINGUISHED BY: Construction Workers SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Water SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENT~ EFFECTED BY FIRE: POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: less than SSk

REFERENCES:

EPRI B-34

Page No. 2 09/24/92 FIRE DATA* TRANSIENT FUELED FIRES PLANT NAME Browns Ferry 1 CAPACITY 1065 MWe IND 128 PRINCIPAL OWNER UTILITY: Tennessee Valley Authority PLANT LOCATION: AL, Decatur NSSS VENDOR: General Electric* REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 12/20/73 INITIAL CRITICALITY: 08/17/73 DATE OF COMMERCIAL OPERATION: 08/01/74 FIRE LOCATION: Containnent DATE OF FIRE: 05/04/76 TIME OF FIRE: 1200 FIRE DURATION: 00:15 TIME THAT FIRE BURNED: 4* MOOE OF PLANT OPERATION: Power Operation 

   . PROBABLE CAUSE OF FIRE: Welding and Cutting TYPE OF FIRE: Class A DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Dry Chemical, Water SUPPRESSION TIME:                              SUP_FLAG: 0 INITIATING COMPONENT:

INITIATING COMBUSTIBLE: Construction Materials COMPONENTS EFFECTED BY FIRE: Hose, Extension Cord POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: less than S5k

REFERENCES:

  • PLANT NAME Browns Ferry 1 CAPACITY 1065 MWe PRINCIPAL OWNER UTILITY: Tennessee Valley Authority PLANT LOCATION: AL, Decatur NSSS VENDOR: General Electric IND REACTOR TYPE: BWR 288 OPERATING LICENSE ISSUED: 12/20/73 INITIAL CRITICALITY: 08/17/73 DATE OF COMMERCIAL OPERATION: 08/01/74 FIRE LOCATION: Other Building DATE OF FIRE: 08/22/81 TIME OF FIRE:

FIRE DURATION: TIME THAT FIRE BURNED: 0 MCX>E OF PbANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Welding and Cutting, Personnel Error TYPE OF FIRE: DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION CX): FORCED OUTAGE: SLOSS:

REFERENCES:

L6R B-35

Page No. 3 09/24/92 FIRE DATA* TRANSIENT FUELED FIRES PLANT NAME Brunswick 1 CAPACITY 790 MWe !NO 158 PRINCIPAL OWNER UTILITY: Carolina Power end Light C~ny PLANT LOCATION: NC, Southport NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 09/08/76 INITIAL CRITICALITY: 10/08/76 DATE OF COMMERCIAL OPERATION: 03/??/77 FIRE LOCATION: Turbine Building DATE OF FIRE: 05/15/77 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Welding end Cutting TYPE OF FIRE: Class A DETECTED BY: Construction Workers EXTINGUISHED BY: Construction Workers SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Construction Materials COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION CX): OX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

LER, NPE* PLANT NAME Dresden-3 CAPACITY 773 MWe INO 438 PRINCIPAL OWNER UTILITY: Comnonweelth Edison C~ny PLANT LOCATION: IL, Morris NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 01/15/71 DATE OF COMMERCIAL OPERATION: 11/15/71 FIRE LOCATION: Containment DATE OF FIRE: 01/20/86 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Persomel Error TYPE OF FIRE: DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: SUPPRESSION AGENTCS): Water SUPPRESSION TIME: 12.5 hrs SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): . FORCED OUTAGE: SLOSS:

REFERENCES:

LER B-36

  • Page No.

PLANT NAME 4 Fort Calhoun 1 FIRE DATA* TRANSIENT FUELED FIRES CAPACITY 492 MWe IND 137 09/24/92 PRINCIPAL OWNER UTILITY: Dmaha Public Power District PLANT LOCATION: NE, Fort Calhoun NSSS VENDOR: Conmustion Engineering REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 05/24/73 INITIAL CRITICALITY: 08/05/73 DATE OF COMMERCIAL OPERATION: 09/??/73 FIRE LOCATION: Contairment DATE OF FIRE: 10/24/76 TIME OF FIRE: 0915 FIRE DURATION: 00:01 TIME THAT FIRE BURNED: 2 MODE OF PLANT OPERATION: Refueling Outage PROBABLE CAUSE OF FIRE: Defective Procedure, Personnel Error, Explosion TYPE OF FIRE: Class B DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Dry Chemical SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor INITIATING COMBUSTIBLE: Solvents COMPONENTS EFFECTED BY FIRE: Glove Box POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: less than*S5k

REFERENCES:

EPRI, LPRA, NPE PLANT NAME Gil'Ylll CAPACITY 470 MWe IND 275 PRINCIPAL OWNER UTILITY: Rochester Gas and Electric Corporation PLANT LOCATION: NY, Rochester NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 09/19/69 INITIAL CRITICALITY: 11/09/69 DATE OF CCIIMERCIAL OPERATION: 07/??/70 FIRE LOCATION: Reactor Building DATE OF FIRE: 05/01/81 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Welding and Cutting TYPE OF FIRE: Class A DETECTED BY: Fire Watch EXTINGUISHED BY: Plant Persorv,el SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(_S): Gas*C02, Dry Chemical 

    *suPPRESSION TIME:                              SUP_FLAG: 0 INITIATING COMPONENT:

INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI, LER B-37

Page No. 5 09/24/92 FIRE DATA* TRANSIENT FUELED FIRES PLANT NAME Pilgrim CAPACITY 670 MWe INO 270 PRINCIPAL OWNER UTILITY: Boston Edison C~ny PLANT LOCATION: MA, Plymouth NSSS VENDOR: ~eneral Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 06/08/72 INITIAL CRITICALITY: 06/16/72 DATE OF COMMERCIAL OPERATION: 12/??/72 FIRE LOCATION: Reactor Building DATE OF FIRE: 02/24/81 TIME OF FIRE: 1140 FIRE DURATION: 00:02 TIME THAT FIRE BURNED: 2 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class A DETECTED BY: Plant Personnel EXTINGUISHED BY: Construction Workers SUPPRESSION E!IUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Dry Chemical SUPPRESSION TIME: 00:02 SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

EPRI, LER PLANT NAME Point Beach 1 CAPACITY 497 MWe INO 57 PRINCIPAL OWNER UTILITY: Wisconsin Electric Power C~ny PLANT LOCATION: WI, Two Creeks NSSS VENDOR: Westinghouse REACTOR TYPE: P\IR OPERATING LICENSE ISSUED: 10/05/70 INITIAL CRITICALITY: 11/02/70 DATE OF COMMERCIAL OPERATION: 12/21/70 FIRE LOCATION: Turbine Building DATE OF FIRE: 12/15/72 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Welding and Cutting TYPE OF FIRE: Class A DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-Unspecified SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Turbine, Heat Exchanger POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

NPE B-38

Page No. 6 09/24/92 FIRE DATA* TRANSIENT FUELED FIRES PLANT NAME Robinson 2 CAPACITY 665 MWe INO 80 PRINCIPAL OWNER UTILITY: Carolina Power and Light CCXl'f)Bny PLANT LOCATION: SC, Hartsville NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 07/31/70 INITIAL CRITICALITY: 09/20/70 DATE OF COMMERCIAL OPERATION: 03/??/71 FIRE LOCATION: Contair,nent DATE OF FIRE: 04/19/74 TIME OF FIRE: FIRE DURATION: 00:05 TIME THAT FIRE BURNED: 3 MOOE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Welding and Cutting, Personnel Error TYPE OF FIRE: Class A DETECTED BY: Plant Personnel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Inside Hose Streams, Portable Extinguishers SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Sealant COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: less than S5k

REFERENCES:

EPRI, LER PLANT NAME San Onofre 1 CAPACITY 430 MWe IND 309 PRINCIPAL OWNER UTILITY: Southern California Edison CCXl'f)Bny PLANT LOCATION: CA, San Clemente NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 03/27/67 INITIAL CRITICALITY: 06/24/67 DATE OF COMMERCIAL OPERATION: 01/01/68 FIRE LOCATION: Switchgear Room DATE OF FIRE: 09/09/82 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATION: Cold Shutdown PROBABLE CAUSE OF FIRE: Welding and Cutting TYPE OF FIRE: Class A DETECTED BY: Construction Workers EXTINGUISHED BY: Construction Workers SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: INITIATING COMBUSTIBLE: Waste,IConstruction Materials COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OUTAGE: SLOSS:

REFERENCES:

NPE B-39

Page No. 7 09/24/92 FIRE DATA - TRANSIENT FUELED FIRES PLANT NAME Wolf Creek CAPACITY 1135 MWe INO 431 PRINCIPAL OWNER-UTILITY: Wolf Creek Nuclear Operating Corporation PLANT LOCATION: KS, Burlington NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: INITIAL CRITICALITY: 05/15/85 DATE OF COMMERCIAL OPERATION: 09/15/85 FIRE LOCATION: Control Building DATE OF FIRE: 10/14/87 TIME OF FIRE: 2037 FIRE DURATION: TIME THAT FIRE BURNED: 0 MOOE OF PLANT OPERATI~: Refueling outage PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class A DETECTED BY: Plant persorviel EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguisher SUPPRESSION AGENT(S): Gas-Halon SUPPRESSION TIME: SUP_FLAG: 0 INITIATING CCl4PONENT: INITIATING COMBUSTIBLE: Clothing COMPONENTS EFFECTED BY FIRE: POWER DEGRADATION (X): FORCED OOTAGE: SLOSS:

REFERENCES:

LER B-40

  • Page No.

IND DESCRIPTIONS OF FIRE DATA* TRANSIENT FUELED FIRES DESCRIPTION 09/24/92 57 During a main turbine overhaul effort, a fire occurred in the crossover piping to the A & B moisture seperator reheaters. It was started by welding slag on a wooden plug. It was extinguished using an Ansul extinguisher. The moisture seperator reheaters had to be flushed to remove the residual Ansul fran the system. 80 A small fire occurred in the joint between the containnent vessel pad and the floor of the containnent purge inlet cubicle. 87 A fire was discovered in a box of ping-pong balls, which are used to check the two banks in the heat exchanger for leaks. The cause is believed to be careless smoking. 105 Between 18:00 ar,d 19:00 a fire broke out in the area of the #2 unit. The fire was caused by welding sparks. No other information is available. 128 During modification of existing grating in the drywell, slag fell and ignited 4 lengths of breathing air hose in a plastic wrapper and a length of electrical extension cord. 137 I During refueling, an explosion and fire occurred in a glove box. Two machinists were cleaning reactor vessel stud plugs using alcohol and a wire brush driven by an electric motor. Effluent alcohol vaporized and was ignited by sparks from the motor. No injuries. 158 A mechanic was welding on the interior suface of one of the basket strainers from a main steam stop valve. During the work, the mechanic, who was standing inside the strainer, discovered that a blue flamed fire was burning just above the suface of the fire blanket on which the strainer was sitting. Fire resulted when a sheet of plastic, utilized to catch filings, was heated to the flashpoint. The plastic began to evolve ignitable vapors which pass through the porous fire blanket. The mechanic put out the fire. 270 A fire occurred in the reactor building. The fire was ignited by welding sparks falling on foam rubber that a contractor had B-41

Page No. 2 DESCRIPTIONS OF FIRE DATA* TRANSIENT FUELED FIRES 09/24/92 INO DESCRIPTION 270 placed to prevent pipes from contacting t~rary thermal shielding installed for the welding operation. The fire burned for approximately two minutes before it was identified and extinguished. Contractor personnel att~ted to notify the control room, however they did not mention a fire and gave up. after three att~ts because the fire was out. 275 A grinding spark. ignited webbing and II wooden box. Smoke had been observed coming from a storage box for the reactor vessel head O*rings located below and adjacent to the modification work. area. The box was opened and the fire put out by use of portable extinguishers. It appears that a grinding spark. from the work. on the seismic support entered the storage box through an opening in the side and ignited some four inch webbing that holds O*rings in place in the box. The inside of the box was then ignited. 288 While modific~tion of torus was in progress, fire watch was not posted in the inmecliate vicinity of welding operations. A fire occurred and was not extinguished as rapidly as it would have been had the fire watch been posted in the inmecliate vicinity. 309 Small welding fire. 431 Confused camunications between maintenance workers and operation _personnel resulted in a maintenance work.er being electrocuted while cleaning potential transformer cabinets. As a result, a part of the workers clothing started on fire. A Halon system

  • protecting the effected ESF area actuated and extinguished the fire. The work.er died of his injuries.

438 See IE 86*35 small fire ignited during cutting operation. Initial fire extinguished by personnel in the area. Later a deep seated smoldering fire detected by heating of drywell inner surface. Fire department determined presense of a urethane foam a fiberglass insulation in annulus region. Water poured into annulus temperature of surface returns to normal 12.5 hours after initial.detection. B-42

Page No. 09/24/92 FIRE DATA* UPS FIRE PLANT NAME Oyster Creek CAPACITY 620 MWe IND 157 PRINCIPAL ~ER UTILITY: Jersey Central Power and Light Comapany PLANT LOCATION: NJ, Forked River NSSS VENDOR: General Electric REACTOR TYPE: BWR OPERATING LICENSE ISSUED: 04/09/69 INITIAL CRITICALITY: 05/03/69 DATE OF COMMERCIAL OPERATION: 12/??/691 FIRE LOCATION: Cable Riser Area DATE OF FIRE: 05/15/77 TIME OF FIRE: FIRE DURATION: 00:03 TIME THAT FIRE BURNED: 2 MOOE OF PLANT OPERATION: Refueling Outage PROBABLE CAUSE OF FIRE: Personnel Error TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: 00:03 SUP_FLAG: 2 INITIATING COMPONENT: Cable INITIATING COMBUSTIBLE: Insulation COMPONENTS EFFECTED BY FIRE: Cable POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS:

REFERENCES:

NPE

  • B-43

Page INO No. I DESCRIPTIONS OF FIRE DATA

  • UPS FIRE DESCRIPTION 09/24/92 157 Smoke was found eminatine from US 1A2, where the cable bus between US 1A2 and US 1B2 connect with tie breaker US2T. At the time, startup transformer SA was tagged out for maintenance, 4160 V busses 1A and 1C were tagged out for replacement of the cable between Bus 1C and DG #1, and US 1A2 was being fed by US 1B2 through the tie breaker US 2T. The fire was extinguished within 3 min. The cause was attributed to loose connections found between the terminal connectors and the aluminun conductors of the cable bus which joins the copper busses in US 1A2 and 192. Investigation revealed that the terminal connectors used were not what was specified for installation.

B-44

APPENDIX B2 Surry Events

  • B-45

Page No. PLANT NAME Surry 1 FIRE DATA* PERTINENT SURRY FIRE EVENTS CAPACITY 775 MWe INO 73 09/24/92 PRINCIPAL OWNER UTILITY: Virginie Electric and Power C~eny PLANT LOCATION: VA, Gravel Neck NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 05/25/72 INITIAL CRITICALITY: 07/01/72 DATE OF COMMERCIAL OPERATION: 12/22/72 FIRE LOCATION: Reactor Building DATE OF FIRE: 01/23/74 TIME OF FIRE: FIRE DURATION: 00:40 TIME THAT FIRE BURNED: 5 MODE OF PLANT OPERATION: Power Operation PRaBABLE CAUSE OF FIRE: Overheated Materiel, Design/Fabrication Error TYPE OF FIRE: Class B DETECTED BY: Smoke Detectors, Heat Detectors EXTINGUISHED BY: Plant Personnel SUPPRESSION EQUIPMENT: Portable Extinguishers SUPPRESSION AGENT(S): Gas-Unspecified SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Motor* INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Motor, P~ POWER DEGRADATION (X): OX FORCED OUTAGE: 0 Days SLOSS: S5k to S50k

REFERENCES:

EPRI, NPE PLANT_NAME Surry 2 CAPACITY 775 MWe IND 238 PRINCIPAL OWNER UTILITY: Virginie Electric end Power C~ny PLANT LOCATION: VA, Gravel Neck NSSS VENDOR: Westinghouse REACTOR TYPE: PWR OPERATING LICENSE ISSUED: 01/29/73 INITIAL CRITICALITY: 03/07/73 DATE OF COMMERCIAL OPERATION: 05/01/73 FIRE LOCATION: Conteirwnent DATE OF FIRE: 12/27/79 TIME OF FIRE: FIRE DURATION: TIME THAT FIRE BURNED: 0 MODE OF PLANT OPERATION: Power Operation PROBABLE CAUSE OF FIRE: Electrical Failure TYPE OF FIRE: Class C DETECTED BY: EXTINGUISHED BY: SUPPRESSION EQUIPMENT: SUPPRESSION AGENT(S): SUPPRESSION TIME: SUP_FLAG: 0 INITIATING COMPONENT: Heeter INITIATING COMBUSTIBLE: COMPONENTS EFFECTED BY FIRE: Heater POWER DEGRADATION CX): FORCED OUTAGE: SLOSS:

REFERENCES:

MEMO B-46

  • Page IND No.

DESCRIPTIONS OF FIRE DATA* PERTINENT SURRY FIRE EVENTS DESCRIPTION 09/24/92 73 The motor on residual heat removal JlU1'> 1-RH*P*1A burst into flames. Redundant~ operated. Fire resulted from insufficient lubrication to lower bearing on motor. New motor with i~roved lubrication system was purchased. Poorly designed lubrication system on motor. 238 Small portable electrical heater caught fire in the containnent of Unit 2. B-47

APPENDIX C Appendix C was taken from a Memorandum to T.L. Chu and Z. Musicki from N. Siu titled "Cable and Transient Fire Frequencies" and dated July 31, 1992.

  • Fraction of transient fires involving Class B materials Evidence:

1 out of 11 fires involved Class B materials. Appendix A of a letter report from SNL [1] provides a t?reakdown of transient fuels reported in a list of tech spec violations (covering 1979 through the first part of 1984). This breakdown is summarized in the attached table. Results: Conservatively, the (sparse) direct evidence from actual fire events is not used; location-specific estimates for phi are developed using the attached table (and a uniform prior distribution). Auxiliary Building Mean= 0.16 5th percentile = 0.36 50th percentile = 0.36 95th percentile = 0.57 Battery Room Mean= 0.17 5th percentile = 0.010 50th percentile = 0.13 95th percentile = 0.45 Cable Room, Electrical Panel Room, Switchgear Room Mean= 0.29 5th percentile = 0.063 50th percentile = 0.27 95th percentile = 0.58

  • C-1

Control Room Mean= 0.14 5th percentile = 0.0088 50th percentile = 0.11 95th percentile = 0.39 Diesel Generator Building Mean= 0.58 5th percentile = 0.39 50th percentile = 0.58 

            . 95th percentile = 0. 76 Piping/Valves/Heat Exchanger Area Mean= 0.55 5th percentile = 0.30 50th percentile = 0.55 95th percentile = 0. 78 Pump Area, Mechanical Area Mean= 0.53 5th percentile = 0.34 50th percentile = 0.53 95th percentile = 0.71 Reactor Building/Containment Mean= 0.38 5th percentile = 0.19 50th percentile = 0.37 95th percentile = 0.58 Turbine Building Mean= 0.50 5th percentile = .0.33 50th percentile = 0.50 95th percentile = 0. 78 Note: The lamgda-phi product, properly modified to account for the size of the location of interest (e.g., the fraction of Auxiliary Building/Control Building floor area taken up by the cable spreading room), can be conservatively C-2
  • used to represent the frequency of large oil fires at that location. If this is too conservative, the material provided in Appendix B of Ref. 1 (where inspectors are interviewed to determine characteristic amounts of transient combustibles) can be used.

[1] W.T. Wheelis, IITransient Combustible Fuel Sources Found at Nuclear Power Plants (Data)," letter report prepared for USNRC Electrical Engineering Branch and Reactor Risk Branch, Sandia National Laboratories, June 1984.

  • C-3

APPENDIX C Breakdown of I&E -Reports on Tech Spec Violations w/cont.ractors long-term

  • maintenance Total A B A B A B A B A B Auxiliary +----------------------------------

5 4 1 

                                                             --------------------+

0 2 0 Battery 8 4 4 0 Cable 4 0 4 0 0 1 Control 4._ 1 5 0 DG 5 0 6 6 0 3 1 1 Fuel Storage 7 10 1 1 0 1 1 0 Outside 2 2 2 0 1 1 Panel 3 1 1 0 Piping 1 0 4 5 Pump 4 5 6 7 0 1 2 1 n I Reactor 7 3 0 1 8 9 .I>,. 2 1 9 5 switchgear 2 0 0 1 1 0 Turbine 3 1 2 1 1 2 3 3 

                  +-------------------------------------------------------+          61    41 49               0                 8                4          61
                             .27                 7                6              1.

Notes: 41

1) Data are obtained from Appendix A of Ref. 1.
2) "A" refers to Class A combustibles (solid); "B" refers to Class B combustibles (e.g., oil).

APPENDIXD Cable Tray Trace Information 

      *                         ,\

NOTES: I. SCE 0WG 11ue-r[-8:IJ rm RISERS., l'(NIETIIATIONS.

2. ["81..E TMTS C*. NfJ Al** HA\'( TO, Ill()

sonc.t tal[R5 m:TvttN co.. 1 ""'° 'I. J. THC £1:IICT LOC*T IOt MO DETAILS OF" CIIBl.E 1Fll>TS Mt 10 II!: D[10MINED 8T R[FUl:EJCEO R<',C[WAT mAVl"'S. THE [Jf'RESS l'I.AP(,S[ OF THIS OAAwft£ IS RCIJTIIG ...vol [STIMATJNG 1,t[ -.Et<<;TH OF" CllBl.ES WIJHIN THE a<<.£ TRAT STS1Dt.

4. tlLACX SIIIJPE NINTro Ot TAtt.T SIDE RAIL INJICAT[S Ml TRAY COfEH IS R[QJIREO.
                         £!..!*

REFERENCE DRAWINGS: I. tooOJJT Pl.,. REACTOR a.tTAl'*4CNT

2. CCNIUIJ f'L.Nf ***

ROICTOA COtlAl~T J. CCJOJIJ DEU*ILS REllCTOA CCJ,11111..0:NI

4. ["'81,,[ 1[Rl'IINAJIOH5 Al ~TRAT IONS R[lllCJOR [CJ\ITAJ~NJ SIDC
                    -ti I

6* PLRl'l.E Bl.*BL~ T* tnLCN I f . vtill[ R

  • AtO G
  • C".RCEN
                                      * * &ARIIIEA INTIUIT. IJ!iUat.UHIGO SCR'fltcLE\"CL b
  • IJARRl[R IN IRAY. IJSUQU.T L011tR SCR1'1C{ l[W[L
                                      "*"        CABLE TRAY F'ILLED IOMAllll'V'I CN>llCIU
                                      -+t+
  • CA,BL[ TIUoT VITIOJT COYER crD
  • FJR[SllP
                                         *
  • 81..IIICKl'N(UIRAI.

llffUiIMP. HON ONi Y SAFETY RELATED

  • VIRGINIA POWER NORTH CAROLINA POWER POwEA CNGll[AIJG SCRYIC(S R~O.Yll'IGIHI*

CABLE TRAY SCHEMATIC REACTOR CONTAINMENT EL 18' -4" SURRY POWER STAT ION 0

    • CK! 1~19'*lo&

1e,,,,1)Ul,119Jl)O,,!V,,1

NOTES: 1: 5(( OVG. 11oe-r[-8l0 Fat IIISE"5. "' P[~fllAfltNS. Z. f'1([1ACfLOCAflO'tMIOO[lalLSCICASL[Tf!AfARETO l3E OET[RMINIEO o, RCr£11(J<[O IIAC(WAY QIUlwl ...S. lo [n'RESS P't.flPOSE. OF" n1;s OIIAVIICl IS IIOuflJCl ,lf,(),CJIII [Sfl""'fllC, T,£ l[..:i;TH or c*Bl.[S YIJNIN h£ CIISL[ TRAY SfSftH.

J. Bl.AO: STRl,C PAINTED ON fltAY SIDE PAIL 11,()ICATES NO TIUIY CoYER IS R£WIRtO.
g. ~-

REFERENCE DRAWINGS: I. CCIOJIT f'l.#1 REACTOA C°"fAIHHENf

2. tc,oJIJ Pl.Ml l'ICACTOA CONfo\JN-IENT
3. COIOJIT DETAILS REACtOIICO<tfAJ..-i[Nt
4. C"'8U: TCRMINATIONS at P(N[lAAflONS REIICTOA CONTAIHH[IIT 510(

CRW

  • a.!
  • LEGEND:
                                              .0.ol'LRPt.[

BL*!I.UE Y*T(lL(;\I Y

  • VHIIC II* R(O G*CREEH
                                              *
  • 81.AOC"nlEUlRAl.

o * !IMRl[A IN TRAT 0 USU"l.LY HICHEII S[R'tlC( L(V[l b

  • BARAl(II IN TRAY. 1/SUAt.LY LOVER S(RVIC[ L(V(L
                                          -+E-
  • CABLE tRa, rlt.l(O TO MAIIMl>'I CAPIICITY
                                          ~
  • CABl[ TRllYVITIOJl COVER
                                        .l:l:Jl'     FIR(ST~

SAFETY RElATED

  • VIRGINIA 'POWER NORTH CAROLINA POWER POvER (kOIIICERIJ<; S(IIVICCS
                                        >-------*-*~**~"~**----------;

CABLE TRAY SCHEMATIC REACTOR CONTAINMENT EL 18' *4" SURRY POWER STAT ION OStM!ll"I ,.ff COQNO.QSAO,lJ601lBJ636.DG!i 11448-FE-838 0

    • otl*l'"I If*~

,,.,,1 ... 1.ru1*.CllO<l1

1. 

       *  ,----------....L..----------"---------------'----------....L-----------'------ ' J I, SC[ OwG. 11118*F[*830 FO<I RISERS AI PENETRAJICHS, I                                                                                                    2. TH[ [1u1Cf LOC,i,Jl(:,i AA() OEIAILS Of C'l8LE TRA't' ARt 10 BE Cl[l[RMINI.D e, REfEREr<fO RIIC[Vllor c,IAWINC,S. TH[

E*AAESS PURPOSE: Of THIS DRAWING IS RWflNG e.,,()JOR ESTIHATINC IH[ LENGIK Of Cll&ES VIHlll<I TH[ CA81.E TRAY SYST[H. J. Bt.llCIC STRIPE PAINTED ON TRAY SIDE: RA:t lr<llti.T[S 

                                                                                                             *"'.' IPAY COVER IS REOUIRfO.

REFERENCE DRAWINGS: 1.COtOJIIPL"" R£11CIOA CONTAIN1EN1

2. C<NJUII P\.IIN Rt,,CTOA CON1AIN1El<IT J. COtOJIT DETAILS REACTOR COilAIHHENI
1. Cll8LE l[RMINATICWS AT PElTRATIOl<S Rfl'ICTOA CONIA!IHNT SIDE
                                                                              ~*

LEGEND: 

                                                                                                           .6*PL'l'IPLE BL*BLUE Y*l[LLOW W
  • WHIT[

G*rll(EN 

                                                                                                            **8LAC.IC/NEUTRAl
                                                                                                            *
  • BARftlER IN TRAr, USUAU.r Hllil<A SERVICE LEVEL b
  • BARRIER IN TRAY, USUl'ol.U LOVER SEAYICE L[\'EL
                                                                                                        -+f-
  • CA8l.E TRAY Fl~LED 10 MUIHUM CN'ACIT't'
                                                                                                        ~*CA8lEJRA't'Wlltt:lUICOYER

[D:]*FIR[STOI' lNfORMtHION ONLY SAFETY RELATED VIRGINIA POWER

  • NORTH CAROLINA POWER POV£R ENGM:EAtt(G SERVICES IIICMOO.VIAGINIA CABLE TRAY SCHEMATIC REACTOR CONTAINMENT EL H" -**

SURRY POWER STATION CllO III.OS,H,l368128l&X.DGH N*O:ll'"lle,., Z~**ll'.l,l?IJtK.oc.,,,1

I I 

                                                                                                                                                                                                                                                .I I. 01.U.C.Ct"'81.["QN>Pf.DWIIHSILl[""f~S(Pt.11:.t:t--.ra,::;..
                                                                                                                                                                          ~EC.c.&.[S.
2. ~ [ CIIIBU: VRAPP[O 111TH SiLl[MP fOR S(PAltAll°" FPO,,,

f[LLO'IICt.81.[S. I* J. ~ [ C"'lll.[ wRAl'P[O "lltt SILT[,... r(lA S(PAPAll~I fR(IP< ORAN(,(CMl.ES. 

                                                                                                                                                                      *. Ml CO'rtR fOA 2 Ff. IISO'rt flR( 51CJP L[rl 51('( 00" TRAY.

S.lf'JCOVCRFOR2rt.\11R(1AAYPASSCSt~rL(lCJl~.[L.*1****

6. II<( UACI LOC:ATl~At.c, DETAILS OF CA6LE TRATS AA! 10 BC D[1[Rt1IN(0 Bf R(r[REl££0 RA([WAf P'!A.. 1,ces. h OP!l(SS"'JIIPOSCOI' TltlS(lROWINCi l'iFIOOlll<IG""'°l(lll
.1 *..-.. "*"£ L[NGTtt 0¥ CABl,,[S VltHIN I><( Cf.Sl[

I I TRAY s,s1,....

7. 8 rJ. S[Cfll>f OF COv[R ln51AI..L[0 8(1w[[ .. cc.-:r*,r BI.OCll ,...:;

RA(O:Ol<t[L.C7"*4"

8. PCt<Ch'IIBL[ IRAf
  • IS ICII R[QIJIAtD ro BC l'<Sf'C[T[D Sl'IC[

IRA1' WILL NOT 8[ ltt Pl.ACE DUU'4C. I I~ OF 1*.!SPCCI 10,1. 

                                                                                                                                                                      "I. lll.M:11: SUUP( PAl*ll(O OH IAAY SID( AAIL 1-0l(Al(S ICI TRAY COY[R rs R(OUIR(O.

REMOVABLE TRAY * '"°" " I A5R[L61'*6" I A381..EL65"*6" REFERENCE DRAWINGS, I. [[>OJIJ Pl.AN I: REACTOR C~IAJ~*H t,;zT[l64'*6" 2.Cl>OJITPlolU\I II C6.0.EL63'*6" REACTCA C~TAIM-l!Nf J. CO<Q.111 O(JAILS 01 

                                                                                                        ,,                           ',                  ,,                   RCACHl'I CCJ,IIAINM{NI nu*-4*
                                        "                                                                                                   "                      *. CA8l[ f[RMINAflCN'S AT P[f<IRAflON'i RCACTCl'I CONfAINH[NT SIO£ rNOl[ S                                                     , . COJOJIT ()(JAILS I
                                               ' jj .t~~l m                                                                                   R!AClOACo,iU,l~NT i

i

  • s
                                                                  ' : *~t' i e           ~ :t ;                            ~
                                                             ~

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C,()S 

                                                                                          '    '      "          l     "    "
                                                                                                                                 ,.                  )7 CJO £L 31'*8 c2e [L 311'*8"
                                                                                                                 !                                                            A* P\.IRPLE
                                                                                                                                                                              * * ()RANI;[

Cle El 1'1'*B" s* EL 2e*-9* Bl.* BUJE y

  • T£LLOV 11*WNITE c* EL 27'*8"  ; G*CREEl<I 11e [L 26"*8" *
  • 81.ACJ:nl[UIRAI...
                                                                                                                                                                              *
  • BM!'ll[R IN TRAY. USUo\i.Ll "1Ct£R 5tRTIC[ l[Y[L Al. £L 25'*8"
                                                                                                                 !                                                            b
  • OARftl[R IN IRAT, USUIW..LT LOVCR SEA'rlC( l[Y[L
                                                                                                                                                                          -+f-
  • EL24'*q*-

e 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 CII&[ JRAT FILLED 10 ..,..;ltUi C"'<CITT 

                                                                                                                                                                          +t+
  • CABLE JRAT VITMlUt COVER CID* FIRESTCF .
                                                                                                                         ~-
                                                                                                                                                              -N:'IT[

nze*.q*_J e .. o,~ 0 e~~ oi'* o" 

                                                          ~  ~

0 "o 0 

                                                                   .,o -~o ,.o ~~ 0 ~~o .* 0 ~e 0
                                                                   ~~ ~~o i'~o                   ****
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                                                                                                                     !        ~~
                                                                                                                     "o ""o *;Jo 5* 0 coo ""o Oi
                                                                                                                                                               ~

SAFETY RELATED N0l£1-ELIB'*q*-fe 0 0 0 0 OJ 0 0 0 0 0 0 0 0 0 0 0 0 VIRGINIA PbWER NOTE;'../ *.* NORTH CAROLINA POWER POll[AENCllERu<<istRYICCS [l\6'-q*--e 0 0 0 0  ! 0 0 0 0 0 0 0 0 0 0 0 0 0. RDl'O,C.TIRCIP,IIA CONOU IT PLAN - REACTOR FLOOR [L IS_***:..*_---...;:,,__ _ _ _ *_ _ _ _ __ CONTAINMENT EL ~7' -4" SURRY POWER STATION 

                                                                *- ---*-*-*-*-*-*-* *0
                                                                                      -0 n1e*.4*
                                                                                                                                           ~'-'==;,;,<;--*- - -*- -* .
                                                                                                                                                           --*-*- -*-*-*- ;_ *0
                                                                                                                                                                                *-0                                         *- ----*-*-*-*-*--*-,_ -0
                                                                                                                                                                                                                                    ---*-*-*-*-- ;_ *0
  • I
                                                                                                                                        ;                     J  C0CJ INTO   ~
                                                                                                                                        ;                     A2C"81...ES*
                                                                                                                                        ;                     1111112 IIHl14
                                                                                                                                                          *- IITll7S ________ _
                                                                                                                                                                                 -0                                                                      *-0    NOTES:
                                                                                                         !- ------ *-. - *----- *- *---1-------*-*-* -
                                                                                                                                                              -*- -________ _: -0     Jt~---~~?~;r;\_--1---------------               ---------------~ --0       ,. rQII P£N[1RAIIOJ,IS NCI SLEEwtS '>([ R(r ' *
2. U"[[iA[TL0CATIOlf~OE1AIL50F[lll!L[Tl!&o,ARCl0
                                                                                                         !                               i                                                                        j   r~_i:;;11c                                      8[ O[f[Rl-41NCO Bl A(r[A[,C[O RA([VAY (Jll\vl!<;S. 1>
                                                                                                                                         ;                                                                        !                                  .                [Jf"tCSS PURPO'i( f1F 1Hl5 [lRAVll,i[; IS RClJ11'4. U,0/QA A1S[RA2*I ii'~======~==:.                                                f                [STIHAUNG IH[ L[t4.Ht OJ' CASI.ES V11ttl1'1 TM[ ["81.E TR4J SlSTEH.
3. Bl.JOP: STRIP£ PAINTED Olf IR4l SIDE RAIL INOICAT[S CQtffllllN Al CI\BI..ES j A]VHIT[u.BL.[0'1'*19" NO TRAY CoYEJ:I IS AtOUIR(ll.

RJSfq A2 COHtA;t.1 Cl>!?l.[S FROM c2.A2.Aoo:is 

                                                                                                                                                              ---*-*-*-*-- G           i            E"'1 HERE     !       *-* -*-*- -*-*-*-*---*-*-*     *0 RJS[RA2*11"'2                                                            i                                       r"l JOINT T()(;(IH[R OH II{(                                                 ;

(.IP 10 NORl'IAL SW~  ; C"'8l[ SPREAOl"i n... 

                                                                                                                                                                                      \! ~it?-;;~z;~:

C~JAJNP0wERCA8L[S 1 REFERENCE DRAW f NGS: . 

                                                                                                                                                                                    --~*-*-*-*-*-*-*-*-*-*-*-,       *-*-                                        1.COOOJITIIPCJUiel.[lRAYP\.IW---11us*F[**S,O.
                                                                                                                                                                                    -!-*-*-                       .                                             2. CIIBI..E JRA, SC>""'11C - - - -

A*IIP"""1-; ' Clll'L[ l~LM,Ol'IIU,.f 

                                                                                                                                                                                                                                                                ]. ["81..[       JRAJ S(;-""11[ - - - - IIOS*F[*SlP CABlE flalNEL M(I 'l'AU..1
                         !                                                                                                                                                                                                                                      ,. CIIBI.E JR4l SCtMl1C - - - - 1 1 u a - r E - t l l Q CABl.E 11H1. M(I 1'111.A. t 8                           0
                                                                                                                                                                                *0                            __ _l _- -*-*-*-* .. -    -*-*-*-*-*J       i
                                  -*-. -----------.'-----*-*-*-                       *-0                                                                  *- -*-*-*-*-*-*-*-* *-0     !                          \                *- -*-*-*-*-*-*-*-* *0 6*~[

i 

                          !-*-*-*-------*-*-*-----,-*-*-*-*-*-*- --*- --____ _: -0
                                                                                                                                                              ---*----- -0                                        i
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                           !                         i                                                                                                                                                                                                            l
  • T[LLOV
                                                     ;                                                                                                                                                                                                            V
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  • I.RCEN
                                                                                                                                                                                                                                                                  *
  • lll..lllC1Cffl(U1tl"'t.
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  • BARRIER IN 1RAY. IJSOAI..U HICiMEJ:I SERl"ICE L[¥[L b
  • BARRIER IN lRAT. USUALLY L0V£R SERYICC LU[L
                                                                                                                                                              --*-*--*--- G                                                    *-*-*- -*-*-*-*-*-*-*-* *G    9*- *      [118L[ TRA, FILL[D TD MAXIHUH [APIIC!tl
                                                                                                                                                                                                                                                             ........
  • CAfll..[ TRAY VI IHOUI [(tr[R C::::C
  • Fllt[SToP CONTAIN P0"1::R_j -s_:::--*f-t---t CA!?!.rS j Bl.l'(I( Al TRAT JOIN A4H[LLOW'lj  !
                                                                                                                                                                                                                                                     ~
                                                                                                                                                                                                                                                   '       0
                                                                                                                                                                                     -!-*-*-                       .            ---               ~--r*-0 .-.-,7,- - - - -SAFETY
                                                                                                                                                                                                                                   ~~ ::::;:::. 'J:                                             ----------4-1 RELATED
                                                                                                                                                                                             ~ - - - - , - - - - - - - ~ " '*
  • VIRUINl4 POWER 1  :.. NORTH CAROLINA POWER "llo"R!SfRFRQH TRl\l"A"IOIAAT.\'.,  :. ,J ** POWER> [t.<<;N([flll<IG SEIMCES RIC~-YIRCINIA 8 8* 8 0 0 CABLE TRAY SC11EMAT IC CABLE TUNNEL & VAULT SURRY POWER STAT ION 0

NOC**I"""'" "**llU,IZ91e)"O,O,:,,,,,t 

                                                       -0                                                              -0                               I       *-*-*-*-*---*-*-*-*-*-* :.. *-0
                                                       -0                                                              -0                      *- *---:---*-*-*-*-* *- -*-*-*-----*-* i..
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B36  ; 

                                                       -0                -*-   -*-*-*-*-*-,' -*-*-*-*-*
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                                                       -0     iJ!. -*-* -* -.-.-*-*-. -.-i---*-*-*-*-*-   ----*-*- __: j-----*-*---*-*-*-*-*---!-*-*-*-*-*-*-*- -*-*-*-*- _____: *-0         \,FOl'IPENtlRAIIC,,,SA..:,St£EfESSC£f!tF'4
2. l>t( [Ul(f LOCATl°'4AA00ETlill;.S0F C~E IRIIY IIR[ TO r 4' -0" R[QU\Fics IRlllYCOV[R  ;

8£ O(f(RMINCD BY R(F(R(N((Q RIIC(WAY Of!PI\II ... GS, Tl<( (llPRESS f'\Jlf'OSE OF THIS DRAWING IS RruflNG At.()1Cll'I 

                                                                                                                                                       ;                                              £Sf!HAT1N(; IH( Ut<;TH OI' CASl..£5 VIIHI,.. TH( CA&.£ TRAY SYST(H.

J.BlACic:S1RIP(PAJt,jJ[00...TRIIYSl0E:RAILIP<<l1(Ql[S NO TR... , covtR IS R[OUIRCO. 

                                                        -0                                                --------* -0                                                                      *-0 e,6 l   Jn j                                                                                                                       ;'

L J12  ; 

                                                       .0     I       B2.0.EL2Z'*4" 10L J                                                  ;

REFERENCE DRAWINGS: 

                                                           - -i-. -* ----- *- *- *-* --                                    **!'""*-*-*-*-*-*-*-*-*-----:---*-*-*                                   l,COtlOUITtl.NDCA&.ETRMPL..... -IIU8*FE**5ti
                                                           -i- -- -i===:t:::~::::::;;~~!;;;                                                                                                        2.Cllo6L£1RtiYSCH£>14f1C CABL£t!P,1£L!V()\'111..LT---11ue-rt-'3l'1 J.CIISl.[lflAYS(H(HAII(

CASL[llH<<LN.(JV1>U,.f---llU8-F(*B)P 

                                                                                                                                     £L2S"*I\"                                                     ,, C"'6L[1RQYSCH£-f1C n*-e*                                                          ("'81.[lt.,#IELANOVI\U,.T---11ue-F[-8)0 0                   0          0                         0                           0 0I                         ;'
                                                        -0
                                                       *-0 0\

tc 4* Pl.ru't.[ 8L*BLI.C Y* Y!LLOW V*VHIT[ R*R[O C*CREE,.. e*BlA(l(l'N(UIRAj_ G*SARR:tRINIRAY,USu<llLYlfl~RS[RVJC[L(V[L b*8AAHJ[RINT/IAT,U5UALLYL0wt:RS[RVIC[L[V(L 

                               *-*-*- -*-*-*-*-*-*-*- *-0                                                                                                                                       ~*(AIIJ.[TRAYF'ILLEOIOl'IAlllJUi(""'ACITY
                                                                                                                                                                                                -+++-*("'81.[IRIIYlfllJ-OJT(O'l'[ll aIJ* F'IRCSTOP
                                                '      .0
                                        ----F---10 SAFETY RELATED VIRGINIA POWER I

NORTf-1 CAROLINA POWER 

                     )2"*0"                                                                                                                                                                                            POVEA Etfl:i!NEERl!Cl SERVICES Rrt,,t,ICM).VIRG1"lA 0                                                                                                                                                                                                  CABLE TRAY SCHEMATIC CABLE TUNNEL & VAULT A

h~~~~~~~~~+-'-"-=..:...,=='--"'--1 

                                                                                                                                                                                                                 ~;;:~~'POW~,;:;::.:"""'W* ~*- I ll448-FE*83N              0   ,1 lK.l:SSOIM(11Wll(IIJICD tM Jo, 1 N*OCl*l.,.11****

lCA*IM,ll'llllJI *I 

     *                                                         -0
                                                               --0                                           ----------- -0
                                                                                                                                -0
             '"'                                                0                                            ----------------- -0
                                                             - -0                                              --------- -0                                                  1,r()AP[NETRATIONS""<<JSL[[Y[l!(r.owc;,s[[A[r[l!(NC[S.
                                                                                                                                                                             ]. Tl<( Ot>CT LDCATIQ<[ (*PRESS Pl.RPQS[r, JI.IISORAIIINC 1SA0Uf!Nt."'t-010ll[STIHATI~

It L[NC.IH OF (681.[S WITHIN 11-1( C"'8l[ TRAY 'itST[M. 4, IOP(A\ILARG[RI CAl[L2l"*4" 60TTOH CA4 ISKtl,I.LI CR4[L22'*4" 5. CABLE TRAY CAI. l1i1S M(A, HO CO*EA AEQ\JIR[O, 6, Bl.llClt STRIPE Plllt.11[0 ON TRAY SIOE RAIL lt.tll(ATES t.:> TRAY COYER IS REQUllltO, L J12 L Jn j 

                                                                .8                                        j 8                                           REFERENCE DRAWINGS:
                                                                                                                          ,--10                                              2. C"81.[ 1R"'1 SC>IEHATI(

C"'8L[ Tt.NNCL & w~t-----11448*F'[*9l-'1 USER Clt:i.--'==----'-.,:;....---',\--=~--"

~[S C&.0..A51Piu,u,ct6 t=:::=;"'~"~";";:;t:::;;;::::::y;:====:1, J. CIIBLE Tfllll SCHE:MIITIC Cllal.E l'-""CL & rt1U...T-----IIU8*F'E*83N
46,826.BI* ~. CIIBL[ TRIIY SCH(,..IITIC 32'*0" i C"'8LE 11.H<L & V I I U l . t - - - - - l l H B
  • F ' [
  • 9 l 0 0 0 0 CAI. CR2, CR3 !.

CR4 0 t:1 I 

 -.J                                                            -0                      --- ------- ------------------------ . --0        -----------------------,. --0
                                                                --0                        *-*-:-----*-*-*-* *- -*-*-*-*-*----~ *-0              -- ----- ________ j._ --0 i
                                                                          -*-*- _________ i ___________ _

0 --0 6* PlftP\.E 

                                                                                                                                                                               *
  • OAIINCE
                                                                                                                                 -0                                     -0 NO COYER INSTALLED 131..*BLUE T*tELLOII W
  • WHITE R*REO G*c.REEH
                                                                                                                                                                               **BLIIC*tNEUTRIII.
                                                                                                                                                                               *
  • l)ARRl[R 1H TRAr, us;J"'LLY ii!GH(R SERVICE LEVEL
                                                                                                                                                                       *-0 *"'

b*Bll.Rr,JERINTRAY,USUA1.LlL011[1!S[RV!CELEVEL 

                                                    ---------- -0                                                                                                                     C"""'-.E 1Rlilr F'ILLEO 10 MAllt11J11 CA:>f.C!TY
                                                                                                                                                                           ...++* CIIBt.E IRAl VltliOIJl COVER a:o*       rlR[SToP L J12
                                                                ,.8                                                                                                    ,8 SAF.ETY RELATED VIRGINIA PowER ct)____ l:?_.:_!1:_

1C4AI NORTH CAROLINA POWER 0 CABLE TRAY SCHEMATIC CABLE TUNNEL & VAULT SURRY POWER ST AT I ON ostM-*."fl' 

                                                                                                                                                                                                                                                  ~*-

0 2

  • n (.(1 1.01 1~,r.,

1,:;*,1>U!,11t:n*.cr.,.,1

I I I I I j IA*51 

                                                                         " = , = -*-*-*-*-*-*-* *-0    C
                                                             *-*- -*-*-*-*- -* *- --*-*- -* --" *-0 R[ll(l()II BUILOING                                                                                                                                                                                                                    NOTES:
                                                                                                                                                                                                                                                                                                                                            ~,

I. FOOSt£CYES JO SMIClJN!OSU!£tr, S[£ ~ , ,

2. rm sutYES JO ,omt SIOC OF R.i:lAY f!O>ISU:RUOVGJ J. FOR Sl.U:1'(5 lO sourn SIDE II" frEI.Af l'IOCM SU: IIU OWC l
                                                                                                                                                                                                                                                          *-     rm St.EEwtS JO [t'£RCOC:f 5VI IOUM ROOl"ISD;R(Fovi;J
       ,_                                                                                                                                                                                                                                                 5. FOR SLCCYES 10 lll.llllLIIIRTBUIG
                                                                                                                                                                                                                                                          ,;. ~;: .;'{:~?=~:                        OF OF
7. f"OA P[/r,L;r'.t.fl SE[ ll[F DWG 4 B. : : ~V'S B£TV£0I 1,J,llf I I 2 SEE
                                                                                                                                                                                                                                                          'I. ~:-E(l'(SlliBO'r£Cl>81.[¥111..t.lSCE ID. FOR CO<tfl-lll)N OF RISERS SEE REF DVG 6
11. 114( [Kt.CT UlCATIO<t "1Cl DETAILS OF (ASL[ IAArs 10 8£ D[T(RHIM[O Bf fl(fERtN([O RJ>C[vAJ l)IAWINC.

El!Pfl£SS~OfCTHIS~wlNGISAOUTINGolWCl.fOI' [SJIKAIJNGll'(L(l<<;THOF~[SwlfHINTl'IIE("8l[ IP011' THIE E !I 

                                                                            *-* *-*-*- -*-*-*-*-*-*-*-* *B                                                                                                                                                      S1SIEH.
12. Ol_,O: STRIP( Po\lNl(O (>>,I fAAf 510£ RAIL IHlll(Al[S JCl TRAY COTlR 15 JIEOUIRCO.
                                                                                                       ~

RELAY 

                                                 """                                       NCITE5 1      ,-0                                                                                                                                               REFERENCE DRAWINGS:                                                                  I
                                   -~---*- -*~,[ l-... *-*-*-, *-*-*-*

i *----L1~-;r0 *. cc,o.nr. Cr&.[ TRAY "-#II - - -

2. C~[ TERM I co,o.m Sl.[(v£--- I u*!J*FE-*!lr ll*UII-FE-*5'11
                                                                                                                                                                                                                                                                                                                                             .I
                                      \                t,0l[IB LQ,l,Ofl\C; f"8US AU'.IILTART SUILOI..C.

l NOT( 4 _1 [M[RC(PC'I' ~IIITCtC,EAR R()Ol>I J. CAB!.[ f'(!ETRATIO.. J ~ S - - - 1 1 u e - F E *

  • 2 H c ~ , sw:tCHCt"" RClO't n q*-&*
                                       !          32*-e*
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(;. CAl!l[ IRAl SO<HQllC C"6t.[ 1RAT ll(Dt 114*B*r[*8ll

1. Cea.£ h'Uil'I' 50-flCS C"'lllE---11ue-t[-8)H TlH\.&t't>U...1
                                                                                                                                                                                                                                                           ** Ol8l.E TRA'I' SC>MATICS CA8l.E---11ue-rt-8Jtt T\.N£L & ...._,
                                                                                                                                                                                                                                                           "I. C"8l.£ tRAT SO<HIIT(CS CA8LE--- 11448*FE-8JP
                                                                                                                                                                                                       ~-~-

4*-e* fl.NEL & YIIU..f 

                                                                                                       ~

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6 . Plllft.[ 

                                      --+-+--t--+--+-1--1r-t-1--f---t--j--t--j----t---+-1--1r-r-t-1--f---f---f--f--t--j--t--t---+----1r-t-t-1-1--f---Al*\I E1. 27"*1C,-
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BL* BLUE 1'*1'EUOII A5 PIIH & INST --t--t-t-t-1--1--1r-t-1--f---f---f--t--t----t--t-1--1r-r-t-1--f---f---f--f--t--t--t--t--t----1r-r-t-1-1--f---A6 £L 26" *2" "AH & INST \I* VHlt[ C7* * --t--+-+-t-1--lr-r-t-1--f---f--f--t-,-t----t-t-< o-t=+-+.::+-t::t--t:::+-+=+----1,:::-,r-r.::,t-t=+--C6*625"*4" R * "'° G

  • r.R(EII 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 >--*" ,,._.. ** ~t~
                                                                                                                                                                                                                                                                   *
  • D,,IIRl[II IN Tillll'I'. U'SUftl.LY HIQR SERl'lct L[Y[L
                                          .o ~i 0 ;; 0 i~o ~~o 0                              .* 0.

[L2"1**&" CR2 0 0 91--e n 22*-<1* *"

  • b
  • eNIRIER IN 11t11Y. USUAi.LY LOIIER SERl'ICC L[YEL CAllU lRAT F'lu.Etl TO l'IA111'Ut CAPACITY
                                                                                                                                                                                                                                                             ~*Ct<<.[TfUl1VlllQJ1COl'ER
                                                                                                                                                                             ~   ;~   ;~      ~

io **o ** 0 ggo ;io f~ 0 CCJ

  • FIIIEStoP
                                                                                              ~~      ~
                                                                                              ** 0~                                                                          *o**o* e~,

J J! J~ 0 0 0 0 0 0 0 0 0 01 0 0 0 0 0 0 0 el--O[LIB"*"I" 

                                                                                                                                                                                               -DELJB**"I" SAFETY RELATED 0        0        0          0         0     0        0             0     0      0    0    0              0        0  0           0    0    e-[Ll7"*"1"
                                                                                                                                                                                            ,..,.,,.-ru1oncL I!!                                                          VIRGINIA PQ'aER NORTH CARot.lNA PO'iiER
~
 'f- A
                                                                                                               ~ELEVATION A-A <F-71 SEAS AT PENETRATIONS Paw[R ENG!tVIH. SERl'ICES RI09COtCJ.VIRl.lttl*

CABLE TRAY SCHEMAT JC (NTSJ CABLE TUNNEL & VAULT SURRY POWER STATION ',' I I I I I II I I I .I I I I I I I I I I I I I I I 1! lr*-'*l--*rl_....,.._-r-_r_-r_,+r-,.l_...,.._....,.._-t_=-c"~'-'-l"7c=---, 0 ORIGI~ ISSUE PER [1111 8"1* 132 1h.,,' 1c_=-,~,~.....,~+-,"-=-'-,_--',C,,,~-EC-'=o====--,~.. (nwro _., .*:, (CflO re,. (3ro1zt1J,Ua.oc;... ll"48-FE-83Q c-l. 0* I I T I I 2 I ... ,x,,1 .. 111*** l~HJY.Jl911JO.i,o,,,I 

     *                  ....,~---+----   . .-,-,./~-t-1---*-----'                                   * ..., ~ - + - - - - - - - + - - - - - - - - +
                                                     !lliY....!lO.!l
                        @--1--+-=========
                                              . ...I                                                ©--

VERIICIIL RISE:RS I l 'F' ICIBO I. J'(JR CAl!U:S [alfllG J::J ~TROL R(Dt SU: RUEl!EJC[ * & '5. 2.FOIICJla..[S[*1TllrGTOT£CHIIIIClll.~fC81fERSC£ a,ro,ou ,. J. TMi: [ll,CT LOCATION #G DETAILS CJ" CABU: TRAYS ARE TO BE ll(T£RMll0 Bl' RUEROClO RAC[VAT CIRAWIJ£S. ti< E~SS CABLE TUNNEL PmPOSE OF IHIS OIUt,VIIC. IS ROJJIIC. lllfrCl/GI ESflHATIIG Tl< LUC.TH DI' CAa.6 VITHIN lt, Clllll.E JRAT SYSIEM. REF2 

                                                                                                                   '---+-----Jf                                                      4. lll.llOC ST1111'£ l'IIINl'[O ON rRAf SID[ RlllL IICIICATES .

tC) IRAT (0,£11 IS REOOIAEO. O>--+-+-------t--------t-REFERENCE DRAW 1NGS, I. ~ l ' f f'LMi & DEIAILS 

                                -REil    ooo,c, ["'"""" **                                                                                                                            2
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6. ~-~ SVITOUM I 11ue-n;-21C VERTICAL RJSfRS 7-P~W'~&RE\.AT~

a.-~~.. s~Pf'511El..,, ROCMS 

                         ...,-,--+-------+---~----+                                                                                                                                   "* 'i!t~t' s~'Jt&,                 RCOtS LEGEND:

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  • tl.1£ T*T£LLOII V
  • W>UI[

II* AL, l--1--+---------,t----------- G

  • CRC1."'4 T¥-l.ll'
                                                                                                                                                                                           *
  • fll.11Qtnu1Rllll..

60 *

  • BARRIER 1111 YRAY. usu,:11,.LI' Hll,tA SEl'nllct l(V'Cl.

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  • BN!Rl[R IN IRAT. lJSUlll.U LOVF;A S£R1'ICE L['r!L C!95*56*16
                                                                                                                                                                                        ~

CM!..( rllAr FIUCO 10 NAXIK.PI C"""IICltT

  • CA8Lf IRAT "lltGIT ccrrE:R RISER 10 Sl.[,!Y[S AB0Vt e-56* 16 CDJ
  • F'IR[Sl[I>

00VN 10 1RAJ c1e~ ER TO SL([Y(S ASOVC WN 10 TRAY (196 Q\--1---l--------e------=.,'"-'~"='----l-mrn~M.~*nm-1 ONLY i SAfETY RELATED 

                         ©             *----,-----

I I I 

                                                                !:..l.i..o.
  • VIRGINIA POWER NORTH CAROLINA POWER CABLE TRAY SCHEMATIC EMERGENCY SWITCHGEAR ROOM &

RELAY ROOM EL. s* -6" SURRY POWER STAT ION DSOI- CISOl9" .;;. blDIG.OSA41(J60120lBlA.DGl,I r.-,-_T_~_~_T_~_~_,_~-~-~-+::'-'-'-5'-:.'-""°=+c'-~-=*cc"c_-lDMllltGlH4e-FE-83R 7-llA ac D11111: ~-u-1 tlC"I.I 1**1r-*- 11'1*0:1*1'"1 "*"' ,e.,1:.a.1l'e)t)lt.DQo1\

Al2*80A*1Bl. VRISCR AIZ*BIA*I w RISER~ 1'*8' SECTlc,t,1 I, fOA Cllo8!.[S Olt!NG [!"l[RGCNCY SWITCHCEAR ROOM SEE 

                                                                                                                                                                         .I
                                                                                            ~114(8*FE*e:Jl,
                                      ~~r]-~"'""                                      2, TtlC [PCT LCX:.tllll(Jl,I N,C DETAILS fY" C"81..E IAATS M( 10 BE O[l[RttlN(O Bl Rtf"EREt<CO RACEWAY ORAWING!i, TH[ [lpQ(SS 76A  78A  JqA7'1A       8\ABIA P\.IAPOS£ ~ THIS OflllVING 15 ROJTING N<<lJOA ESTIM4TING
                                                                                            ,..,_LENGTHO'C~ESWIJHlt.1IHEC"8l£1R"'Y5T51E"1, EL zz*-11*--

I '"' IEL 22'*11' J. ~,;,.: ,_... f HAO( IRAT CORNER IRAT COY[R, cur VHICH DOES l<<)J Ill.LOW FOIi J J 78 }q Jqee l h J LJI 8081 J 4, BLACK Sll'IIP[ PttilNl[O ON TRAY SIDE RAIL INOICAT(S Ml TRAY COVER IS REC.UIRED, 

                              --1                             I""'

REFERENCE DRAW? NGS: I, i~~t Jw; :i-~LAT ROCffi l, i~~~,S~T~~LAT FIOOHS 3 11448-f[-SJl*l

  • f~~~,s~':"Wi.\, Roo,,t<;
   ....0 0

I IJ.*P\.Rf'\.E 

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T*THLOW W*V111T[ A*RED G*GR[(H e I BLIICIC/N(UIR&IL e*BARRIERl"ITRAT,\JSUAl.l'HICil<RS[RVICELEVEL b*IWIRl[RINTAA1,USUilt.LTL01t(RS[RVIC[L[V(L 

                                                                                        ~ * (1161..[lllATflLL[O IOKAllP'!I.M(APACIIT
                                                                                        ~ ' (1181..[ IAAYWIIHOUI COY(A CID*FIA(STO!'

SAFETY RELATED I1' 

                                                                                   .--.-=--v,-Ro-,N-,-.-P-Ow-,-R---------+-
  • NORTH CAROLINA POWER POvE~~'::~:i:1!f:vrcts I

t-----C-A_B_L_E_T~R~AY~S-CH_a_M_A_T_iC------jA* EMER SWGR &. RELAY RM EL 9' -s- I SURRY POWER STAT JON . 

                                                                                                         ~SU'l' ltOO I -
                                                                                                                    ,.{.

c..a,-;,.as,.*,c361:'1~1sJ$.~._ 11448-FE-835 

                                                                                                                                                                    ~

0 LJ.l.[S$0T>o(**IS1:..:IT(0 $Ml D"l 1 r,oc:11 .... 11:,*1 ,~ .. 1:iu,1nios.oc.,,,1

gtl 

                                                                                                      ~

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2. THE [l!"'(I UlCATICJt NC> DETAILS OF Cl$!.[ TRAYS MC TO BE OEttRt11,,C081'AUEAEHCEOIUIC[VA1'0RAWl'fGS,Tt<EE1Pl'ICSS
                                                                                                                     -.~!rf OF THIS DRAWING IS ROUTING IINOIOR ESTIHIITI~

ltC LC~THOF CIIBI..ESVITHIN THE CIIOLE TRAY SYST[M. 3.AISEACoYERt0()1ilACIC'3fOE. 4, 8lllCICS1RIP£PAINT[D~IAAYSIDERAIL INOICATES IClTRAYCOY(AISR[OtJIR(O, REFERENCE DRAWINGS: I. COIOJIT & TRAY Plt.N H_£~~r!:vr.A& R(l,.AYRO()J,!S

z. ~~:'s~'l~ur ROOMS
                                                               ..aJ.Z.*                                          4*  fc'irifclR:JilJ~ SJr.1 lr~;TfLAT ION           I 1H8-F[*S1o; 5
                                                                                                                   " t~t~lr1~1lr:io.R)Lt11                   RM,    IIS*H£*8Ju tiI LEGEND:

b* l'tl'IPL[ 

                                                                                                                **ORIINU Bl.* BUI£ f
  • T[LLOW EL16'*7" V
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                                                                                                                **Dl/lCICt,,CUTRlll.

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  • 0Al'!AJER Iii !RAT, USU/IL.LT LOWUI '5[RYIC[ L[Y[L (MJ.l.E TAAT FILLED TO ttA*IMUH (APA(ITI
                                                                                                             -t++-* CA81..[ TRAY VITI-OJI COVER a l ]
  • F'IR[STOP I

SAFETY RELATED i\.(ON>l(CTS 10(10 VIRGINIA POWER Ul<II} l<ll 5 NORTH CAROL [NA POWER 

                               \.[L I

p*,7* * ,..... 10 lRAI CII PO*[R tkGINE[RING S(RVIC[S CL \6*7'-' I'-10 UNIT 2 

                                                                                                                                      '    AICM<Oldl,VIRCN!A CABlE TRAY SCHEMATIC                          A I Ai71-+                                                                                               EMER SWGA & RELAY RM EL q* -6~
                                                                                                                                - - ~s..u.R~.~~
                                                                                                                                ..,_._. r~r POW~~    ** -~~A-T ION
~~113601:0IOlT.C:,;,. 1*

... ar,, .. 1:1-11 l'IGO*l'lN,!~lll'*°"'"',

I. F~ CJIOU:S £1111 ... O'CRC£tCY SvlTO<illA RCOt SE£ DvG uue-rt-l!IJA.

2. fl,£ DACf I.CCAf ION AfCI OEfAILS Cl' CMl..t TRAYS Ill'!( lO et Dt1a.4JNE0 8T RU'CRtl<£D RACCvAY OIIAVIJC'i. fH[ [tJ>A{SS PIAPOS( Cl' lllJS D'!A,l,llte; IS AOUfl~ N<<J,(11:1 [SflHAllr~
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Appendix E Derivation of the Hot Short Induced Spurious Operation conditional Probability

This analysis is based on discussions described in Reference 1. Figure E.l and E.2 show the arrangement of control circuitry for an AFW valve and a pressurizer block valve, respectively. The arrangements are similar and it is assumed that other valves and pumps' control circuits are similar. Suppose the AFW valve is closed and the possibility of its spuriously opening is investigated. The valve will open if certain contacts are established in the "open" circuitry on the left hand side. Wire contacts that have to touch would be any of the unordered pairs (41A, 42A), (41B, 42B), (41A, 42B) and (42A, 41B). There are 9 control wires in this cable (4 for the open action, 2 for the close action and 3 for the red and green indicator lights in the control room) . The number of ways that 2 out of 9 wires can come in contact after a fire is equal to the number of combinations of two elements from a group of 9, i.e.: N~t = 9!/(7!

  • 2!) = 36 As 4 of these combinations will cause a hot short induced spurious opening, the conditional probability of spurious operation is:

P5 ~r = 4/36 = 0~11 similarly for the PORV block valve, the total number of combinations is: Ntot = 6 ! / ( 4 ! *2 ! ) = 15 Since there is only one unordered pair causing the undesirable action, the conditional probability is: P 5 ~r = 1/15 = 0. 067 Therefore, a representative value of 0.1 will be used for conditional probability of spurious operation in all components whose control cables are damaged. This derivation doesn't include other factors which will make this probability lower (e.g. the likelihood of good contact between the two wires).

References:

1. BNL memorandum from R.G. Fitzpatrick to T-L. Chu, dated September 18, 1992.

E-1

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                    ~ONTACT O!AG      ESI<.
                         "AE"          30 E-3

Appendix F (Taken from: Pickard, Lowe and Garrick, Inc. (PLG, Inc.), "Beznau Risk Analysis, Plant with NANO", prepared for Nordostschweizerische Kraftwerke AG, PLG-0511, December 1989.)

  • APl:"ENDIX F I. Fire Supression Analysis For a. given fire scenario, the fraction of fires causing damage to a critical componeLt is given by [1.1):

(1.1) The growth time, t 0 , is the time required for the fire to damage the component in the absence of suppression efforts. The hazard time, ta is the time required to detect and control the fire (i.e., prevent it from causing further damage). Since, for a given scenario, the uncertainties in the distribution of t 0 are believed to be much greater than the random variability of t 0 itself, t 0 may be replaced by its mean value r 0 . Equation (1.1) then becomes fns = Fr{ To < ta} (1.2) 

                     = 1-Ft      (r )                                                  (1.3) a 0
  • where Ft ( *) is th~ cumulative distribution function for tH.

H Ft ( *) quantifies the random variability of tH. Because of the relatively H small amount of data. available regarding the detection and suppression times of fires in nuclear plants, the parameters of Ft ( * ) are uncertain and therefore are a themselves distributed. Note that this parameter uncertainty, along with the uncertainty in rO, leads to uncertainties in fns* In this section, the methodology used to develop both the form of Ft ( * ) and H the distribution of the parameters of Ft ( *) function will be discussed. Further H details can be found in References 1.1-1.4.

  • F-1

1.1 Fire Suppression Model Overview The hazard time for a given fire scenario is the sum of the time to detect the fire, t 0 , and the time to control/suppress (but not necessarily extinguish) the fire, ts* For simplicity, ts is called the suppression time. Both t 0 and ts are random variables whose distributions depend on the type of fire protection equipment installed in the room (if any). A simple model used to model the sequence of events followed in suppressing a fire is shown in Figure 1.1. A fire scenario progresses from state to state in the diagram. The time spent in transition between states a.long a given arc is treated as an exponentially distributed random variable with rate ~ij' The diamonds indicate which arc should be followed, depending on the success or failure of various fire protection activities; the likelihood of following a given arc is quantified by the frequency q, or by its complement 1/J =1 - q,. The model shown in Figure 1.1 separates the fire scenario into two phases. In the first phase, fire detection is treated as a competition of three processes: automatic detection (if detectors are installed and available), local detection by plant personnel in the area of the fire, or remote detection by observation of abnormal control or instrumentation behavior. Detection occurs when one of the three processes succeeds: t0 = min(t 0 A'tnvtnR) (1.4) Thus, the three arcs from State Oto State 1 are traversed simultaneously. In the second ph~e, fire suppression is treated as a sequence of events following detection. As in an event tree, only a single path is followed to the end state (State 4); the likelihood of following a given path is determined by the transition fractions <Pk* F-2

  • -- The presence of special fire protection equipment in the room of interest determines which paths may be followed in Figure 1.1. For example, if no fixed suppression systems (e.g., water sprinkler, CO 2, or Halon systems) are installed, the only possible paths following detection are 1-+4 and 1-+3-+4. The former represents a relatively quick ~tinguishment of the fire by local personnel, while the latter treats scenarios in which the fire brigade and/or the offsite fire department must respond.

The various possible detection and suppression scenarios are listed in Table 1.1. In summary, the fire hazard time is a random variable modeled as the sum of a set of random transition times: (1.5) Excluding the detection time, each transition time ti-+j is exponentially distributed with rate '\j' The detection time can be determined from Equation (1.4); it also is exponential, but with rate ,\ 01 = ,\DA + ,\DL + ,\DR (if detectors are present and available). The particular set of transition times to be used in Equation (1.5) is also random, being a function of the transition fractions ef>ic* Given the ,\ij and the <Pk, the distribution for tH can be generated. This is done in Section 1.3. The following section describes the procedure used to develop the ,\ij and <Pk* 1.2 Suppression Model Parameter Quantification 1.2.1 General Methodology In principle, the distributions of the ,\ij and the ¢>k can be developed directly using standard Bayesian methods. If transition time data for n independent events, tfj (l=l,2, ... ,n), are available, then the posterior distribution for \j is given by

  • F-3

L(t .. I..\ *. ),r0 (..\ .. ) 

                                                  -JJ IJ               IJ 11'.1 (..\ **IJ It,J.. ) =

r 0 L(t .. I..\ .. ),r0 (..\ .. )d,\ .. 

                                                  -IJ IJ               IJ      IJ (1.6) where n             ,\ l L( ,t.j-I..\ .. IJ
                                 )     T-T   ,\ ..
                                     = f=l IJ ibj  e-Similarly, if the evidence for transition fraction                             ~ is rk successes in nk trials, the posterior distribution for              ~     is given by L(rk,nkl IPJc),ro(~)
            ,rl ( 'Pk Irk,nk)           =      1 (1.7)

J L(rk,nk I'Pie) ,r0( IPk)dipk 0 where L(rk,nkl 'Pk). = Ck] rk rk 'Pie (1 - IPJc) nk-rk However, examination of the nuclear power plant-specific information presented in References 1.4-1.8 shows that the available data for transition rates and fractions are often sparse. In many cases, they are also uncertain. In the case of detection time data, since plant personnel are usually not aware that a fire has occurred until it is detected, available estimates are highly uncertain. To deal with this uncertainty, which is very important since there are very few events with estimated detection times in the data base, we use the general approach described in Reference 1.2. Denote the detection time for the lth event as t/y The "uncertain data" for that event is then the distribution p/tt), where the notation Pt indicates that the distribution for each event may be different. The posterior distribution for a F-4

  • detection rate ,\Di (i=A,L,R) is then found by averaging the posterior distribution over all possible values for the tt.

{1.8) Using some simplifying assumptions, Reference 1.2 transforms Equation (1.8) into a triple integral to allow~ simple quantitative analysis of r (,\om IE). In this 1 work, Equation (1.8) is evaluated directly. The sparsity of data for the transition fractions ~ is dealt with by incorporating evidence from non-nuclear sources [1.9-1.16). In some cases, the evidence consists of test data, which do not include all failure modes which can be

  • observed in an operating plant; these data need correction for bias when used in a fire risk analysis. A useful approach is to treat the central estimates (e.g.,

maximum likelihood estimates) for ¢,k based on non-nuclear data as expert opinions; the bias in the estimates can then be treated using the models described in I Reference 1.17 and outlined in Section 1.2.2. Data for suppression times are often insufficiently detailed to allow partitioning into the transitions modeled in Figure 1.1. This is handled by dealing with the joint distributions for the ,\ij [1.1], as described in the following section. Uncertainties in the suppression time estimates are handled analogously to the uncertainties in the detection time estimates, as shown in Equation (1.8) .

  • F-5

1.2.2** Model Parameter Ouantification The steps followed to develop the posterior distributions for the \j and the ¢k are:

1) Gather relevant data.
2) Quantify uncertainties and biases in data.
3) Develop posterior distributions for model parameters.

The relevant detection rate data for a given .event consist of the mode of detection, the time of detection, the fire severity, and whether or not competing detection modes are possible (e.g., if automatic detectors are installed). The suppression rate data includes the suppression scenario (e.g., 1-+2-+4), the suppression time, the fire severity, and evidence for individual transitions, if available. For example, the arrival time for the offsite fire department (OFD) may be used as an estimate for t 13.. The data for the transition fractions includes the number of successes (or failures) and the number of trials for each branching point in Figure 1.1. In the case of the transition rates, data are gathered from the PLG fire data base; which is drawn from References 1.5-1.8. A master list of all 226 events included in this analysis is given in Table 1.2; the remaining events, including offsite fires, fires in outside trailers, very early construction fires, and fires in off~as systems, are judged to be irrelevant. Virtually all of the occurrence times listed in Table 1.2 are estimates. Therefore, their relationship to the actual occurrence time is uncertain. Further, the suppression time estimate for a given event refers to the time needed to extinguish the fire, as opposed to the time needed to control the fire; the latter

  • quantity, which is needed in the evaluation of the hazard time, tH, is less than the F-6
  • former. The suppression time estimates are therefore biased estimators of the control/suppression time t 8 .

To account for the uncertainties, in the transition time estimates, it is judged that the estimate for each event i can be reasonably represented by a normal di,stribution with standard deviation ui. The value of ui is determined by multiplying the central estimate by the percent deviation given in Table l.2. The deviations are based on a nominal =20% for most events; 30% is used if the estimate is judged to be especially uncertain, while 0% is used if the value given in Table 1.2 is actually a data point. A deviation of 0% is also used for suppression time estimates when the central estimate is small ( < 10 minutes), since the uncertainties are not very important in this case. To account for the bias associated with the suppression time estimates, a

  • nominal factor of 0.80 is used to obtain the central estimates listed in Table 1.2.

Note that since this factor is associated with the time to control (rather than extinguish) the fire, it is only applied to transitions ending in state 4 of Figure 1.1. _ This can be seen for Incident Number 1 in Table 1.2, for which the reduction factor is applied to t 34 , but not to t 13 . In the case of the transition fractions, data are gathered from a large number of sources. -Table 1.3 lists the data used for each transition fraction, as well as the source of the data. This table also lists the central estimate (denoted by a-), bias (B), and range parameter ( u) for _each source. The use of these parameters is described in Appendix A and in Reference 1.17. Note that u is not to be confused with the deviation parameter for occurrence time estimates described above. The values of the parameters are assigned using the following guidelines .

  • F-7
    ** If the information-source provides a range of values, the central estimate generally used is the geometric mean of the bounds for the range. If, for example, a data source states that     1Pt ~ '1/J ~ 'I/Ju, the c~ntral estimate used for that source is:

VJ = ./?ft .iliu The lognormal distribution range parameter, (1 (not to be confused with the transition time deviation parameter discussed above), associated with the estimate is the greater of 0.978 (which corresponds to a range factor of 5) and the value calculated assuming '1/JL and 'I/Ju correspond to the 5th and 95th percentiles, respectively, of a lognormal distribution: ln('I/Ju/?JIL) ] (1 = max [0.978, ( 2) ( 1 . 645 ) The bias parameter (B) is assigned on a case-by-case basis. Values less than 1 are used for failure rate estimates which exclude certain failure modes; values greater than 1 are assigned for estimat<2s not including certain success paths. Values greater than 1 are also assigned to account for the conditional nature of the transition fractions. For example, in the case of ?J,88 , the conditional frequency that an automatic system fails to extinguish a fire, given that it has actuated successfully, data are available for the failure of automatic systems to put out a fire. These data include the possibility that ~he system does not actuate; the bias factor . is then used to account for the fraction of events in which successful actuation does occur. Using the data listed, the distributions for the transition rates and fractions are obtained by applying Bayes' Theorem. A single prior distribution is used for all of the transition rates; this is a broad lognormal distribution with 5th and 95th percentiles of F-8

  • >. 05 = 0.0052 min-l
              ,X     - 0.12 min-1 95 (recall that 1/ >. is the mean transition time). The likelihood functions used for each type of transition rate evidence are given in Appendix A.

The prior distribution for the transition fractions is the non-informative distribution: (1.9) With this distribution, the posterior distribution is only dependent on the data. The likelihood function used for the transition fraction data is discussed in Appendix A and in Reference 1.17. Note that in the case of the transition rates, the analysis is not entirely straightforward due to the large number of integrations required when treating uncertain data. A Monte-Carlo integration scheme, described jn Appendix B, is used to overcome this difficulty. The results of this analysis are given in Tables 1.4 and 1.5. Earlier results from Reference 1.1 which were obtained using a more limited set of data are presented for comparison in Tables 1.6 and 1.7. It can be seen that for fires involving manual suppression (scenarios 1-+4 and 1-+3-+4), there is not too great of a difference between the new and old transition rate results. On the other hand; there are some fairly large changes for scenarios involving automatic suppression. This is due to the relatively small number of fires involving automatic suppression (and the even smaller number of transition time estimates); the results can change relatively easily as more data points are added. For example, the Browns Ferry fire provides one of two data points for the 2-+3 transition for fires of low initial severity. Because of the excessively long time

  • F-9

spent in deciding to use water on the fire (t'23 = 405 minutes), this has an extremely large impact on the estimate for ..\ 23 . Removal of this data point leads to a mean value for ..\ of 0.025 min-l rather than 0.007 min-l Note also that in the 23 earlier results documented in Table 1.6, the Browns Ferry Fire was classified as a high severity fire; the fire was actually of rather low initial severity, but was fairly inaccessible and therefore difficult to extinguish. The differences between the transition fraction results shown in Tables 1.5 and

1. 7 are due to the larger amount of data used and the treatment of potential biases in the later estimates {Table 1.5). The dramatic change in the_ estimate for tt,RM for high severity fires is due to the reliance on a single, probably conservative expert estimate.

By matching moments and comparing percentiles, it can be shown that all of the parameter distributions can be reasonably approximated using lognormal distributions. This is a useful result when generating the joint distribution for the hazard time mean and variance, described below. 1.3 Simplified Suppression Model The hazard time distribution is a function of the .,\ij' the <Pk, and the type of fire protection equipment installed in the room. Possible groupings of the latter are listed in Table 1.8. The distribution for tH is then: Fr{tH < t} = FtH(t l!,j,C) (1.10) where C denotes the fire protection equipment class. The form of this distribution can be derived fairly simply since tH is a sum of exponential variates (1.1]. Equation (1.10) can then be used directly to solve for fns in Equation (1.3). F-10

  • Because of the large number of parameters involved, it is useful, although not necessary, to simplify Equation (1.10). Numerical calculations indicate that a reasonable approximation is to assume that the distribution of tH is Weibull (1.4]:
                                         -         ,c FtH(t  hc~ec)     =  1 - exp [- [  !c] ]                              (1.11) where the parameters (    ,c,ec) can be determined from the mean and variance of tH using the following implicit equations:

r(1+;) = [1+ Var[tHIC)2][r(1+t-)J2 (1.12) C ( E[tH I C] ) C E[tHIC) ec -- - --- r(1+-1) (1.13) 

                               ,c where (see [1.18])

r(x) = f tx-le-tdt 0 and where the dependence of the mean and variance of tH on the class of fire protection equipment in the room is noted explicitly. Note that the mean and variance, E[tH ICJ and Var[tH ICJ, respectively, can be determined using the scenarios depicted in Figure 1.1. For example, in a room with no detectors or *special suppression equipment, the fire may be detected immediately and extinguished manually, or it may be detected after some delay and extinguished manually. Manual suppression may be performed by initial small-scale efforts (e.g., portable extinguishers), or may require larger-scale efforts by the plant fire brigade and offsite fire departments. Mathematically, these possible scenarios are reflected in the mean hazard time by

  • F-11

(1.14) where 

          *,\..lJ = transition rate between states i and j X 01      = detection rate, assuming no automatic detectors
           ,\{

4 

                     = manual suppression rate, given immediate detection
           ,\f   4   = manual suppression rate, given delayed detection Equation (1.14) takes advantage of the fact that 1

E[t ..J = r,: lJ ij for exponentially distributed tij' An analogous equation for the variance can. be developed using E[tii = 2[xtJ2 and 2 2 Var[tH] = E[tHJ - (E[tH]) The fult set of equations is given in Appendix C. Because the parameters ,\ij and </>k are uncertain, the mean and variance of tH are uncertain as well. Thus, before Equations (1.11)-(1.13) are used to develop fns' the joint distribution for E[tH ICJ and Var[tH IC] is needed. This is done by Monte-Carlo sampling, using the distributions for the ,\ij and *</>k described in Section 1.2, and the equations for E(tH ICJ and Var(tH ICJ given in Appendix C. The results of thelse calculations show that the joint distribution of oc =E[tH ICJ and /36 =Var[tH ICJ can be reasonably approximated by a bivariate lognormal distribution: F-12

  • (1.15) where OC - µa zo = (1 a
                       *2 Pc - µ/3 Z13 =         "/3 The parameters     µ0 , µfJ'   <1 , <1 0

fJ' and p, which characterize the distribution for (oc,/36), are developed by moment matching. The resulting values for each class of . fire protection equipment is shown in Table 1.9. Thus, in this simplified suppression model, the distribution for tH can be determined by using only the data given in Table 1.9. The analysis procedure is: a) Determine the appropriate room class . b) Find the appropriate values of µ 0 , µ/J' <1 , 0 "fJ' and p, according to the initial fire severity (Table 1.9). c) Develop the distribution of tH (for a given t) by Monte-Carlo sampling. For each trial, Generate a sample for oc =E[tH ICJ and /36 =Var[tH IC] given that their distribution is bivariate lognormal with parameters µ , I .. . . a 

                     µ/J' <1 , <1 0

fJ' and p. Compute the Weibull parameters 'Ye and {c using Equations (1.12) and (1.13). Compute Ft (t I1c,{c) using Equation (1.11). H With this distribution, the non-suppression fraction can be computed, as shown in Equation (1.3). F-13

1.4 --References 1.1 N. Siu and G. Apostolakis, "A Methodology for Analyzing the Detection and Suppression of Fires in Nuclear Power Plants, 11 Nuclear Science and Engineering, 94, 213-226, November 1986. 1.2 N. Siu and G. Apostolakis, "Modeling the Detection Rates of Fires in Nuclear Plants: Development and Application of a Methodology for Treating Imprecise Evidence, 11 Risk Analysis, 6, 43-59, March 1986. 1.3 N. Siu and G: Apostolakis, "Modeling the Detection and Suppression of Fires in Nuclear Power Plants, 11 Proceedings of the_International ANS/ENS Topical Meeting on Probabilistic Safety Methods and Applications, San Francisco, California, February 24-March 1, 1985, pp. 56-1 through 56-8. 1.4 N. Siu, "Models for the Detection and Suppression of Fires in Nuclear Power Plants and Some Related Statistical Problems," Ph.D. Thesis, University of California at Los Angeles, December 198~. -1.5 W.T. Wheelis, "User's Guide for a Personal-Computer-Based Nuclear Power Plant Fire Data Base, 11 Sandia National Laboratories, NUREG/CR-4586, August 1986. 1.6 Nuclear Power Experience, Nuclear Power Experience, a Division of Petroleum Information, Inc., 1981. 1.7 K.W. Dungan, and M.S. Lorenz, Nuclear Power Plant Fire Loss Data, EPRI NP-3179. Electric Power Research Institute, 1983. 1.8' K.N. Fleming, W.T. Houghton, and F.P. Scaletta, 11 A Methodology for Risk Assessment of Major Fires and its Application to an HTGR Plant, GA-Al5402, General Atomic Co., 1979. 1.9 Millstone Unit 3 Probabilistic Safety Study, Northeast Nuclear Power Energy Co., 1983. - , 1.10 T.E. Waterman, J.G. Degenkolb, and C.W. Stickney, 11 A Study - Early Warning Fire Detection Performance in the Hospital Patient Room, Fire Techno(ogy, 10, No. 4, 1974. 1.11 D. Berry and E. Minor, Nuclear Power Plant Fire Protection- Fire Hazard Analysis, NUREG/CR--0654, SAND 79--0324, Sandia National Laboratories, September 1979. 1.12 R.H.V. Gallucci, A Methodology for Evaluating the Probability for Fire Loss of Nuclear Power Plant Safety Functions, Ph.D. dissertation, Rensselaer Polytechnic Institute, 1980. - F-14

  • 1.13 National Fire Protection Association, Fire Protection Handbook, 14th Edition, Boston, MA, 1976.

1.14 S.H. Levinson a.nd M.L. Yeater, "Methodology to Evaluate the Effectiveness of Fire Protection Systems in Nuclear Power Plants," Nuclear Engineering and Design, 76, 161-182, 1983. 1.15 J.P. Barris a.nd D.L. Conte-Russian, "Sprinkler Trade-Offs: Are They Justified, 11 Fire Journal, 74, 63-70, May 1980. 1.16 M.J. Miller, "Reliability of Fire Protection Systems," Chemical Engineering Progress, 70, 62-67, 1974.

  • 1.17 N. Siu a.nd G. Apostola.kis, "Uncertain Data a.nd Expert Opinions in the Assessment of the Unavailability of Suppression Systems, 11 Fire Technology, May 1988.

1.18 M. Abramowitz and I.A. Stegun, Handbook of Mathematical Functions, Dover Publications, N.Y., 1972. I 1.1~ Y.A. Shreider, The MonterCarlo Method, Pergamon Press, 1966. F-15

Appendix A - Hazard Time Model Parameter Estimation In this appendix, the equations used to develop the distributions for the transition rates >.ij and the transition fractions ~ are given. A.l

  • Fire Supression Rate Equations For many fire events in the data base, the evidence for suppression transition rates (i.e., >.ij' where i ~ 1 and j > i) consists of a scenario description and a suppression time (or an estimate of the suppression time). Looking at Figure 1.1, it can be seen that this evidence often affects a group of transition rates, rather than a single \r For example, Table 1.2 shows that the suppression time estimate for Incident Number (INO) 14 is 120 minutes and that the scenario followed is 1-+3-+4 (initial manual attempts to suppress the fire are unsuccessful; the fire is eventually extinguished with the aid of the local fire department). Thus, it is known that t 1... 3... 4 = 120 minut~

where tl-+3-+4 = tl-+3 + t3...4 and where the individual transition times, t .. , are exponentially distributed with 1-+J rates >.ij' However, the allocation o~ the 120 minutes between the two transition times is not known, and the familiar likelihood function for exponential variates, L(ti>.) = >.e->.t cannot be used directly. For other events, a breakdown of the total suppression time into components for the individual transitio9-s can be made. In both cases, the suppression time estimate may be uncertain. This section describes the estimation model used to develop the suppression rate distributions, given these different forms of evidence. F-16

  • .. As seen in Figure I1.1, a single suppression time can. provide
                                                                    . *evidence for up to three transition rates. The following three-transition model therefore applies to all possible suppression scenarios (scenarios involving fewer transitions are analyzed using a subset of the equations below).

Consider four states: 

                          ,\1        ,\2        ,\3 0---~&0
                     +- Sa-ti+- Sb-ti+- Sc-I
                    - - d a_ _

1 - - d b_ _ 

                     ---- t               ----+

wheres, d, and t represent single, double, and triple transition times, respectively. There are six different classes of transition times (sa,sh,sc,da,db,t) that may used in estimating the >.;s. We first consider the case where the transition time data are certain. Certain Data The likelihood functions for given si' dj, tk are: 

                                  -).1 Si L(si I>. 1)  = >. 1e
                                            -,\1 d.    -,\2d.

L(dJ.1_>.l'>.2) = ->.1,\2[\ _/ + e.X _/] 1 2 2 1 

                                                     -,\ltk             -,\2tk L(tkl>.1,>.2,>.a)    = ,\>.2>.3[(,\-X2HXcX 3J + (X 2-X 1)(X 3-X 1J
                                                       ->.3tk
                                               + (X3-X 1) (X3-X2J]
  • F-17

For a data set {sl' a ... ,sa ,sl' b b c c da a b db } 1a ... ,s 1b ,sl' ... ,s 1c, 1... ,dJ a,d 1,... , J b ,tl' ... ,tK , therefore, the likelihood function is or 1a+Ja+K 1b+Ja+Jb+K 1c+Jb+K L(E I"'1) = (,\1) (,\2) (,\3) * 

                       -[\ r.sf + ,\2r.s? + ,\3Fsf]

e

  • In this case, the posterior distribution for "'1 is then given by 11"t("'1IE) = L(El!)1ro(!)

fofofoL(E I!) ,ro(!)d,\1d,\2d,\3 The marginal distributions and the joint moments are given by 11'1 (\IE) = fofo ""1 (!i E)d,\l,\k E[,\f ,\J] = fofofo,\1r,\j1 ""1(!IE)d,\1d,\2d,\3 F-18

Uncertain Data Because most of the suppression time "data" used in this analysis actually consists of estimates for suppression times, the data are uncertain. To treat this uncertainty, the likelihood function given above is still used; however, the resulting posterior distribution must be averaged over all possible values of the suppression time [1.2]. For example, consider the 120 minute estimate for INO 14. It is judged that the time to control the fire is normally distributed with mean value 96 minutes and stan.dard deviation 19 minutes. Then where More generally, J 1r1(!IE) = 1r1(!1E')p(E')dE' where p(E') is the joint distribution for the uncertain evidence. The marginal distributions and the moments are then given by 1riC\IE) = fofo u 1r1(!1E')p(E')dE']d,\l,\ E(,\f ,\j1] = fofofo,\f,\j u 1r1(!1E')p(E')dE']d,\ 1d,\ 2d,\ 3 F-19 

    ** It can be seen that the treatment of uncertain data can require a very high order of integration (one order for each uncertain data point). The Monte-Carlo method used to treat this problem is described in Appendix B.

A.2 Detection Rate Equations For the suppression rate analysis, the evidence is for sums of transition times. In the case of the detection rate analysis, the evidence is for the minimum of individual transition times, since the different modes of detection are in competition. As given by Equation 1.4, It can be easily shown that, given no additional evidence (e.g., an automatic detection time for a scenario where a fire is discovered first by a roving operator), where detection is by mode i. To develop the general likelihood function for the detection rates, we first define three classes of data: a: Automatic detectors function, local and remote detection modes irrelevant (e.g., fire detected instantaneously by workers, detectors activate later). b: Detection by local or remote modes, automatic detectors not installed or installed but unavailable. c: Detection by automatic, local, or remote modes. Let n. (j=a,b,c) represent the number of data points in each class, and let t, k J J, represent the kth data point for the jth class. The likelihood function is then given F-20

by (1-.2) where N.1 = number of fires detected by mode i (i=A,L,R) nj T. = \' t. k (j=a,b,c) J I.. J, k=l Uncertain data points (i.e., uncertain tj,k) are treated in the same way as uncertain suppression time data points. Note that in the detection rate analysis, these uncertainties lead to uncertainties in the Tj' Reference 1.2 presents a numerical approach which is useful if the Tj follow a gamma distribution; in this work, the more general Monte-Carlo scheme outlined in Appendix B is used

  • instead.

A.3 Transition Fraction Equations The approach used to analyze the tr.ansition fractions t/>k is the same as that described in Reference 1.17. The evidence consists of nuclear plant data, expert opinions, data from non-nuclear fires, and test data; the last ;two categories are treated as expert opinions (with potential biases). The likelihood function for the nuclear plant data is the simple binomial distribution: L(r,nlt/>k) = [~]t1>k(l-4>ic)n-r The likelihood function for an ~xpert's opinion is lognormal: _ 1 [ln~ - ln(B¢'k)J 2 1 2 (1 L(~k I <Pk) = --e 

                            ./5<1~

where ~ is the estimate and B and " are parameters assessed by the analyst to F-21

measure his confidence in the expert. B measures the analyst's belief concerning the bias of the expert (a value greater/lesser than 1 implies that the expert is likely to overestimate/underestimate the true value of 'Pici a value equal to 1 implies that the expert is unbiased). The parameter u measures the analyst's confidence in the accuracy of the expert, once consistent biases-are accounted for. Reference 1.17 presents an approach for treating uncertainties in B. It also shows that a simpler, approximate approach using point values for B works quite well. As a result, point values are used in this analysis. F-22

  • Appendix B - Monte-Carlo Integration Appendix A shows that the treatment of uncertain data can require a very high order of integration (one order for each uncertain data point). Ordinary quadrature methods therefore cannot be used. This section briefly describes an alternate approach for numerically evaluating an integral; more details can be found in Reference 1.19.

For simplicity, we first consider a one dimensional integral. Let I - J b a f(x)dx Then I = J b (b - a) a f(x)p(x)dx where p(x) --{6-01 a otherwise Thus, I = (~ - a)* E[f(X)] The key to the Monte-Carlo approach is that E[f(X)] can be estimated very simply using Monte-Carlo sampling N E[f(X)] ~ ~ l f(xi) i=l where the xi are sampled using p(x). Note that the f(xi) are independent, identically distributed random variables. The above result then follows from the central limit theorem, which states that the distribution of the sample mean (the RHS) approaches a normal distribution with mean E[f{X)] and variance Var[f(X)]/N as N increases. For large N, the variance of the sample mean goes to zero and the sample mean converges to the true mean. F-23

The resulting approximation for I is then N I *~y l f(x) i=l The multi-dimensional result follows directly from the above discussion. Let Splitting f(x) into a multivariate pdf p(x) and a remainder g(x), I = J:g(x)p(x)dx 

               = E[g(X)]

Then N I ~ &l g(~) i=l where the xi are sampled from th~ distribution p(x). As an example, consid~r the evaluation of the expected value of a transition rate ,\l' given uncertain evidence that affects ,\l' .\2, and .\3: . Let F-24 . 

                                                                                     -~
  • . While this equation can be used to evaluate E[,\], it may be difficult to sonslruct an appropriate sampling routine for ari arbitrary i (.~}. We therefore 0

multiply and divide the integrand by an approximate prior distribution,,rA(.!) from which we can easily obtain random samples (e.g., a multivariate lognormal

  • distribution). We then have Thus, F-25

Appendix STOCHASTIC DISTRIBUTION EXACT EXPRESSIO~ In this appendix, we present the exact expr Equipment Group-dependent stochastic distributions of TH. We ._ __ list the equations for their me8.11S and variances. The stochastic distributions ake: C 

                                                                  <;A-1) where 1 - ¢j manual suppression rate (instantaneous detection) manual suppression ra~e (delayed detection)

F-26

C. (~.2) 

      + *sAC*ssf1c<tll12* 124l + *ssf10Ctl 112* 12Jl 134>l>

d . 

 + *01*A<*sAC*sMfDA(tllo1, 1 14) + *sMfDB(tl 101* 1 13* 134ll C

()..4) 

     + *sAC*ssfoc<tllo1* 1 12* 124) + ~ssfnn<tllo1* 1 12* 123* 134)J}
                       -     d                -
 + ~DI~A<~sAC*sMfDA(tllo1* 1 14) + ~SMfDB(tllo1* 113* 134ll
  • F-27

C, . (ft.5) The expected values of TH for each equipment group, denoted by are given by c... (A'. 6) (. ()(. 7) C. F-28 

 *av. =    "'or 9A~5}./).D1 +*+DI~A "'s~':101 + "'or"'A11 ~1 + ~DI~SM'"i4 d
       + "'nr*sttC*A*sA+ *A>/>..14 + *sttC*or+ *or*A*sA+ *or*A)/>..13

(.. 

                                                                                 ~K.10)
       + *or~A~sA*ss' 124 + *or*A~sA"'ss' 123
       + l*or"'sM + *orC*A9sA"'ss+ *A*sM"'sA+ "'A"'sM>Jll34 The variances of the hazard times for each equipment group, denoted
                                                                                        /

by a~ = Var[Til!,!] are given by 2 -2 i2 d2 2 ar = 2£*or/Clo1> + *or*sM/Cl14> + *or*sM1 C1 i4) + "'sM11 13 2 - d - G 

             + "'sM/ 134 + *or 9s~r' 101 1 14 + "'or"'sM/ 1 01 1 13            S.J(.11)
                           -                              2
             + "'or"'sM/ 101 134 + "'s~i' 1 13 1341 -   aI 2                     2                - 2                 i 2*         d 2 aII =     2l"'or1Al 101     + "'or*A/Clo1> + *or*sM/Cl14> + "'or*sMC>..14>
      + "'sMl 1i3 + "'sM/).;4 + "'or 9A9sMl 101 1~4 + "'or 9A"'sMf).01 113 C
                                                                                ~.12)
                                               -  d                 -
      + "'or 9A"'sMf).01 134 + "'or"'A~SM/ 101 114 + *or"'A"'sMf).01 113 2
      + *or"'A"'sM/ 1~1 134 + *s~r'\3 1341        - aII
  • F-29
2. _ . . -. 2 . i 2 * * .* d 2 . . 2 *
 ~III -      2C+nI/Clo1>      + *nI*sM"'sA/Cl14> + "'nI*sM"'sAC 114> + "'sM"'sAl 11J 2                2 .              2                      / 2
     + *sA/ 112    +   *sA*ssl 124 + *sA+ssl 123 + C+sM"'sA+ *sA"'ss) 134.
                 -              d
     + C+nr1 101>l*sM"'sAl 114 + "'sM"'sA/ 113 + *sA/ 112 + *sA*ssl 1z4 c:.
                                                                               ~.13)
                        + *sA"'ssl 123 +(+sM"'sA + *sA+s}~341                             -~~
     + "'sM"'sA/ 113 134 + <*sAl 112>r*ssl 124 + "'ssl 123 + "'ssl 134l 2
     + fsA"'ss/l.23 134}      -   aIII 2                    2                -2
  • i2 d2
  • ~Iv = 2C+nr*i 101 + "'nr+A1c 101> + *nr*sM"'sA/Cl14> + "'nr*sM"'sA1C"14>
     +

2 

        "'sM"'sA/ 113 + *sA/ 112 2
                                      +

2 f 2* 

                                        *sA*ssl 124 + *s~ssl 12J                      -.t 2                            d
     + C+sM"'sA+ *sA+ss>ll34 + C+nr*Al 101>l*sM"'sAl 114 + "'sM"'sA/ 113 L
     + *sA/ 112 + *sA*ssl 124 + *sA"'ssl 123 + <+sM"'sA+ *sA"'ss>ll34l ~,K- 14 >
                     -                d
      +   C+nr+Al 101H*sM"'sAl 114 + "'sM"'sAl 11J + *sA/ 112 + *sA*ssl 124
      + *sA"'ssl 123. + <+s~1"'sA+ *sA"'ss>ll34l
                                             .        + "'sM"'si 113l34 2
      + CfsAl 112>l*ssl 124 + "'ssl 12J + "'ssl 134l + *sA"'ss/ 123 134} - aIV F-30

c... C/f-15)

  • F-31

Table 1.1 - Possible Fire Detection and Suppression Scenarios Fire Detection Scenarios D: Instantaneous detection; immediate detection by plant personnel who caused 1 the fire (e.g., by welding) DA: Automatic detection; delayed detection by automatic detectors D : Local detection; delayed detection by plant personnel arriving in the room by 1 chance DR: Remote detection; delayed detection by plant personnel upon faulty control or instrumentation indications Fire Suppression Scenarios SA: Path 1 -+ 4 The fire is extinguished manually by plant personnel, possibly including the plant fire brigade. SB: Path 1-+ 3-+ 4 Manual suppression efforts using only on-site personnel are unsuccessful; the fire is eventually extinguished with the aid of the off-site fire department. Automatic or manually actuated fixed suppression systems are either not installed or are installed but unavailable. Sc: Path 1 -+ 214 Initial man~al suppression efforts are unsuccessful; the fire is extinguished by manually actuating fixed suppression systems (e.g., CO 2 flooding). S : Path 1 -+ 2 ~ 3 -+ 4 0 Initial manual suppression efforts and subsequent operation of fixed suppression'systems fail; the fire is eventually extinguished manually, possibly with the aid of the off-site fire department .. SE: Path 2 -+ 4 Automatic suppression systems successfully actuate and extinguish the fire. SF: Path 2 -+ 3 -+ 4 I Automatic suppression systems successfully actuate but do not extinguish the fire; the ffre is extinguished manually. . F-32

  • Table 1.2 -- Master Detection and Suppression Data List, Relevant Data Only
 -----1----1----1------1-----1-----1-------1-----1-----1-----1-------------------------~~-----------------------
  . . i1nit1Det *1oet IDet I°          ISU!lP ISU!lP jsupp *, . I '" .             . .      .    ..              . *..*

IX DevlHode !Time !Est IX DevlNotes 

 -----1----1----   ----*- !Est INO 1Sev IModelTi11111    ----- -----1-------1-----1----- _____ , _________________________________ .,. _______________

I I I I I IL IA 11-3-4 I 22S I IConulrment; cables; welding/cutting; OFD I I 11-3 1<60> I 60 20 I I I 13-4 I< 165> 132 20 I 4 IL 11 0 11-2-3-41 105 IRx bldg; pipe; spraying insul; CO2 failed;-hose I I 11-2 Ic10, 10 oI I I 12-3 1<50) 50 20 I I I 13-4 1<50) 40 20 I 7 IL l<L> I<1-4> I 30 30 20 !Penetration; cables; overheating I I I I 30 IGA estimate 8 IL IL/R 11-3-4 I 105 !Switchgear roaa; cables; oveheatlng; OFO I I I I 42 IGA estimate I I 11-3 1<25) 2S 20 I I I 13-4 1<40) 32 20 I 11 IL IL 11-3-4 I ITurb bldg; plastic, wood; space heater; OFO 14 IL IR 11-3-4 I 120 96 20 !Aux bldg; MCC; loose connection; OFO 15 IH IA* (5) 5 30 11-4 I 40 17 30 IT bldg;~; oil line failed (pre-op tst); extgshr I I I I 3 IGA esti1111te 17 IH IL 11-3-4 I 30 24 20 IT bldg; concrete fonn111; propane htr, canvas; OFO 19 IH II 11-4 I 30 19 20 IRx bldg; RCP; liJ::le oil line break; extgshr I I I I 18 IGA eatimte 20 IH IA 11-4 I 35 26 20 IT bldg;~; oil leak; portable extinguishers I I I I* 30 IGA estimate 21 IL IL 11-4 (20) 2S 30 IRA bldg; cable; flood light; port extinguishers I I I 42 IGA estimate 28 IL IL 11-3-4 115 !Corridor; trash; welding; hose line I I 11-3 45 45 20 I I I 13-4 70 56 20 I 29 IL IL 11-3-4 IContainnent; wood fonns; electric heater; OFO 30 IVL IL 11-4 20 16 20 IT bldg; exp joint; welder grOU'lded; sel f-exting 32 IVH IA (5) 5 30 12-4 105 84 ~ IXfar yard; xfar; circuit fault; deluge, hose 36 IL IA 11-4 5 4 O !Aux bldg; paper filter; low moisture; extfngshrs 37 IL

  • IL 11r3-4 IContalnnent; !olOOd fonns; welding; OFO..

38 IH IL 11-3-4 120 !Aux bldg; wood, MCCs, cables; arson; OFO I I 11-3 2S 2S oI I I 13-4 9S 76 20 I 42 IL 11 11-4 35 20 20 IContnmt; glue, wood, tarps; welding; fire brigade_ I I I 15 !Time to control 43 IL IL 1120* 11-3-4 IContl"llnt; scaffolding; gas htr; fire brigade, OFO I I I I IWrkr left htr on at midnight, fire disc at 3:15 AH 47 IL 11 I 11-4 5 4 0 !Aux bldg; wood, tarp cover; welding; hose 48 IL Im I 11-4 20 16 20 !Aux bldg; oil; hot ~ casing; smoldering, extgshrs 49 IL 1m I 11-4 10 8 0 !Auxiliary building; oil; hot FJU1'4l lagging_ 50 IL 11 I 11-4 5 7 0 IT bldg; wood box; cutting torch; _extinguishers I I I I *12 IGA estimate 51 IL IL/R I I 120 ITIP rOOffl; cable; arcing; self-extinguished

  • F-33

52 IL IL 11*4 I 30 I 24 I 20 IT bldg; fw PtJ1"i oll*soeked Ins; extinguishers 53 IL .5" .~N . 55 I IL 11 I: 11*4 

                        .. 11*4 I
                                   ,I 5 I I
                                      . . 10. I I

4 I 0 IOthr bldg; MCC; light bulb short clrc; extgshrs 8 0 IAux .l,ldg;. 1ol.vent*soaked -rags;. torch; ext11shrs 11.rrelevant (welding slag In ste11111* generator) 56 IVN IA!R 3 3 20 11-2-4 I 150 I 72 30 IY.*r-d; large xffllr'; electrical; deluge, hose stream I I I I 3o I IGA estimate I I 11*3 1>150? 72 20 !Local F.D. arrived after extlnguishrnent. 57 IL I 11*4 I 6 5 0 IT bldg; inain turb; welding; portable extinguishers 58 IL IL 11-4 I 30 13 30 IRx bldg; oil-soaked RHRSW PtJ1" Ins; extinguishers I I 11*4 I 3 IGA estimate 59 IL IL (5) 5 30 11-4 I 2S 20 20 !Aux bldg; xfmr; elec fault; extinguishers 60 IA 11-4 I 45 25 20 IRx bldg; RCP; ofl spill; portable extinguishers 62 I I IL II I 11-4 I 18 (10) 8 IGA eatlnate 0 IT bldg; wood, plaatfc; heater; extinguishers 64 IVL IL 120* 11*4 15 11 20 IRx bldg; plastic; resid heat, torches; extgshrs I I 180* *I 12 IGA estl11111te 66 IH 11 11*4 5 4 0 IRecombfner bldg; H2; welding; self-extinguished 67 IH II 11-4 270 216 20 !Reactor building; RCP; oil overflow; hose stre11111S1 68 IL IL 11-4 IXfar yard; teq> xfrnr; elec; extgshr_*, hose 69 IL IR 11*4 90 72 20 IT bldg; HP turbine; oil-soaked insulation; GA 70 IL IL 11-4 60 48 20 !Turbine building; #2 turbine; extinguishers 71 II 11-4 10 16 20 IT bldg; paint thlrw,er; propane torch; extgshrs 

     '"I I ..              11-3         >10      10     20 !Arrival time of O.F.D.

73 IL IA 7 7 20 11*4 40 40 20 !Rx bldg; RHR PtJ1"i lnsuf li.oe; extinguishers I I 11*4 60 IGA ntlNte 76 IL IL 11-4 lcontalnnent; cone forms; welding; hose, extngshrs 71 IVL IL 120* 11*4 <10 9 0 IAux bldg; exp joint; welding; extngshrs, hose I I ,so- I 12 IGA estf11111te 79 IL 11 11*4 I 1 2 0 IS1111r nn; cables; welding; self*ext, extgshrs I I I 2 IGA ntlNte (fraa data) ao IVL IL 11-4 30 19 20 IContelnnent; exp joint; welding; extgshrs, hose I I I 18 IGA estimate 81 IL IL 11-4 5 5 0 IContelnnent; glue, insulation; welding; extghrs I I 3 3 0 11*4 6 IGA estl11111te 84 IL IL I !Annulus; wood scaffolding; welding as IL IL 11-4 105 114 20 IContainnent; platlc insul; weldng; extgshrs, hose 87 IL IA 12*4 15 12 ?O IT bldg; ping-pong bells; cigarette; deluge sa IL II 11-4 IContalnnent; heating peds; welding; extgshra 89 IL IL 11-3-4 120 96 20 IContalrment; wooden fol"III; electrjcal failure; GA 91 IL IA 11-4 15 8 0 IDG bldg; DG exhaust; leaking oil; extinguishers I I I 6 IGA estl11111te 92 IL II 11-4 5 4 0 IOG bldg; DG exhaust; leaking oil; extinguishers I I I 6 IGA estlnate 93 IL IL 11-4 IContelnnent; tarps; welding; ext failed!, self-ext 95 - IH I 11-4 18 14 20 !Reactor building; RCP; oil spill; GA 96 IL II 11-3 >20 20 20 IY*r-d; tarpa; welding; arrival time of OFD 98 11 11*4 45 23 20 IDG building; DG exhaust; explosion; extinguishers 99 I IL I IL 15 15 20 I I 12 IGA estimate IDG building; cable; hot exhaust; self-extinguished 100 IL II 11*2*3*41 450 !Cable spreading roan; cable; candle; OFO I I 11*2 I 40 40 I I I 12*3 I 1,05 405 I F-34

  • I I I I I*

I IJ-4 11 *J 15 90 15 90 10 

 . 10.1 102 IL IH I
              ,~

IA I I I I IHt 12*4 I 15 60 JO t2 36 

                                                       , .20 .IAux bldg:.. blueprint rack: ..arson: extingui.shers.

20 IXfllll" ,yard: xfmr: electrical; deluge*, fire brigade IGA estimate 103 IL IL I 11-4 5 4 0 IContall"ffll!nt: recirc fan; failure; extinguishers 104 IL IL I 11-4 20 16 20 !Cont: feed~ oil resrvr: oil overflow: extgshrs 105 IL fl I 11-4 20 16 20 IYeldlna: extinguishers 101 (H IL I (1-4 JO 24 20 IT bldg; turb oil purifiers; leaking oil; extgshrs 113 IL IL <240* 11-l-4 450 !Reactor building; welding; arrival time of OFD I I 11-J 10 10 0 I I I IJ-4 440 352 20 IFoaa uaE<I to prevent dllmllge to RV 114 IL IA <II> 8 JO 11*4 15 II O fDG bldg; OG exhaust; leaking oil; extinguishers I I I 6 IGA estl1111te 120 IL II 11*4 6 5 0 IDG building; DG exhaust; leaking oil; GA 121 IL IL 11*4 25 3 0 fAux bldg: swg cabinet; electrical; extinguishers I I I 3 IGA estl11111te (frOII data) 122 fl IL 11*4 6 5 0 IDG building; DG exhaust; leaking oil; GA 123 IL IL 11-4 25 12 20 IAuxil lery building; MCC; arcing; open breaker I I I* 6 _IGA esti111111te 1211 IL IL 11-4 15 13 20 IContall"ffll!nt: plastic; welding: extinguishers I I .. 30 30 20 I 111 IGA estllll!llte 129 IL IL,A (30) 30 JO 11*4 20 16 20 IAux building; plastic; electrical; extinguishers 132 IL fR 11-4 25 20 20 IAux building; NCC; breaker overload; de-energized 134 IL fl 11-4 5 7 0 fDG building: DG exhaust; leaking oil I I 11-4 12 IGA estimate 135 IL 11-2-4 711 62 t 0 fDG building; DG; overload; data 136 '" I II 11*4 6 5 0 IDG building; DG exhaust; GA 137 IL II 11*4 10 II 0 !Cont; alcohol vapor; wire brush; extinguishers 138 IL I I 6 5 0 IAuxil lary building; MCC; wrong connector 139 II 11-4 20 10 0 fDG building; DG fuel line; fracture; extinguishers 

         '"I I                     I        6                 fGA es.tilll!llte 140 IL IL                       11-l-4                     fO.F.o*. not allowed on site initially 141 IL IR                       11*4    30    24       20  IAux building; MCC; *lsallgned stab; extinguishers 144 IH IL                       11-4    12    10        0  IContalnnent: RCP; oil-soaked insulation; GA 145*       11,A                 12*4    15    12        0  IOG bldg; llbe oil; heater; deluge, fire brigade 149 150
        ""  II
             .11 11*4 11*4 45 20 36 16 2Q 20
                                                              !Cont; acetone; hot RCP: extgshrs, hose stre1111111 IRx bldg; RCP; oil-soaked Insulation; extinguishers 152 '" IA                       11-2-4    5    4        0  fT bldg; main generetor; H2 leak; CO2 systeni 153  ""

I IL I f1*2*4 11-l-4 45 78 62 0 IT bldg; 11111n generator; H2 leak; CO2 syste11 IGA estlmte (data) I I f1*3 22 22 20 I 154 IVL IR 11-4 10 5 0 IAux bldg; MOY breaker; electrical; de-energized I I I 3 IGA estimate 156 IL,A* 1.L 11-4 45 20 20. !Cable sprdg ~; RHR relay; electrical; extgshrs I I 18 18 0 I 6 IGA estl!Mlte 157 IL fl 11*2*4 J 2 0 !Cable riser area; 4160V bus; bad connection 1511 IL f1 f1*4 IT bldg; construction 1111terh1l; welding; extgshrs 159 IL IR 11-4 5 3 0 fAux bldg; breaker; failed relay; extinguishers-I 162 fl I II I J 10 a IGA estilll!llte 0 ITurblna building; cables; welding; water 164 (H (A 11*4 12 10 0 (DG building; exhaust llllll'lifold; lij)e oil spray; GA

  • F-35

I I I I I 13*4 11*3 1s I 15 90 I 90 10 101 IL io2 . IH: I 

         ,~

IA. I I I I IM 12*4 I 1s I 12 60 30 36 20 !Aux bldg; blueprint rack_; arson; extinguishers

20. IXfmr yard; xfmr; ~lectrlcal; deluge, *ffre brigade IGA estimate 103 IL IL I 11-4 5 4 0 !Containment; recirc fan; failure; elttinguishers 104 IL IL I 11*4 20 16 20 !Cont; feed pu!1J oil resrvr; oil overflow; extgshrs 105 IL IL I 11*4 20 16 20 !Welding; extinguishers 107' IH IL I 11*4 30 24 20 IT bldg; turb oil purifiers; leaking oil; extgshrs 113 IL 11. <240* I1-3-4 450 IReector building; welding; arrival time of OFD I I 11*3 10 10 0 I I I 131-4 440 352 20 IFomi used to prevent dmnage to RV 114 IL IA (8) 8 30 11-4 15 8 0 IOG bldg; OG exhaust; leaking oil; extinguishers I I I 6 IGA estimate 120 IL II 11*4 6 5 0 IOG building; DG exhaust; leaking oil; GA 121 IL IL 11*4 25 3 0 IAwc bldg; swg cabinet; electrical; extinguishers I I I 3 IGA estimate (from date>

122 IL IL 11*4 6 5 0 IOG building; OG exhaust; leaking oil; GA 123 IL IL 11-4 25 12 20 !Auxiliary building; MCC; arcing; open breaker I I I I 6 IGA estimate 128 IL IL I 11*4 15 13 20 IContail"l!lef'lt; plastic; welding; extinguishers I I 30 I 30 20 I 18 IGA estimate 129 IL IL,A. (30) I 30 30 11-4 20 16 20 !Awe building; plastic; electrical; extinguishers 132 IL IR I 11*4 25 20 20 IAwc building; MCC; breaker overload; de-energized 134 IL II 11*4 5 7 0 IOG building; DG exhaust; leaking oil I I I I 11*4 12 IGA estimata 135 IH IL .I 11-2-~ 7B 62 0 IDG bui ldlng; DG; overload; data 136 I 11 11-4 6 5 0 IOG building; DG exhaust; GA 137 IL 11 11*4 10 8 0 !Cont; alcohol vapor; wire brush; extinguishers 138 IL I I 6 5 0 IAwcil lary building; MCC; wrong comector 139 IH 11 11*4 20 10 0 IOG building; DG fuel line; fracture; extinguishers I I I 6 IGA estimue 140 IL IL 11*3*4 IO.F.D. not allowed on site initially 141 IL IJL 11*4 30 24 20 IAux building; MCC; misaligned stab; extinguishers 144 IH IL 11-4 12 10 0 IContain11ent; RCP; oil*soaked insulation; GA 145* IH 11,A 12*4. 15 12 0 IOG bldg; lube oil; heater; deluge, fire brigade 149 IH 11 I 11*4 45 36 2Q !Cont; acetone; hot RCP; extgshrs, hose streenB 150 IH 11 I 11-4 20 16 *. 2a IRll bldg; RCP; ofl*soeked Insulation;* extinguishers 152 IH lA I 11-2*4 5 4 0 IT bldg; main generator; HZ leak; CO2 syste111 153 IH IL 11*2*4 45 IT bldg; 111111n generator; HZ leak; CO2 systeni I I 11*3*4 7! 62 0 IGA estimate (data) I I 11-3 22 22 20 I 154 lvt IR 11*4 10 5 0 IAux bldg; MOY breaker; electrical; de*energized I I I 3 IGA estl11111to 156 IL,A* IL 11-4 45 20 20 !Cable sprdg 1'111; RHR relay; electrical; extgshrs I I 18 18 0 I 6 *tGA estl11111ta 157 IL IL 11-2-4 3 2 0 !Cable riser area; 4160V bus; bad connection 158 IL II 11*4 IT bldg; construction material; welding; extgshrs 159 IL IR 11*4 5 3 0 !Aux bldg; breaker; failed relay; extinguishers I I I 3 IGA estimate 162 IL 11 11 *4 10 8 0 !Turbine building; cables; welding; Jiater 164 IH IA 11*4 12 10 0 IDG building; exhaust manifold; lube oil spray; CA F-36

  • 166 170 171 IL IH IL IL
          - IA (10) 10 I 30 11*4 I

I 11*4 I 12 I I 4o I I . 1_ :* 10 I 0 !Aux bldg; relay cabinet; relay contact a"1" 32 I 20 IT bldg; oll*skd wood; hot stm lines: hose~ brigade 

                                                   *'-- 0. ITIDGB;bldg:.    ,xh 11111nfld; .Cl!r.bon;.. DG shut.~; ~

1n IL IE 11*4 I wood;.,. lines; extgshra (no sprnklr* openc:I> 177 IL IL 11*4 I !Auxiliary building; breaker; breaker tripped 183 IH IA,L 11*4 I 20 16 ZO IDG bldg; turbchrgr; lube oil leak~ hose, brigade 184 IL 11 11*4 I !Cont; burlap beg; wlm,;; extg1hra, OFO_ not called 1S7 IL I 11*4 I (5) 4 0 IFfre ~ houae; ~ ; contact arcing; brigade 188 IVL IL I I !Control building; control panel; diode 190 IL IA (15) 15 30 11*4 1<10) a 0 !Battery r111; blltterlea; poor comection; extgshrs 191 IL IL 11*4 I c10, a 0 !Battery m; batteries; poor comectlon; extgshrs 192 IVH IA 12*4 I IXfllll' yard; xfw; arcing; deluge, fire brigade 193 IL IR 11*4 1<10) a 0 IS111r m; 4180/480V swa; short; extinguishers 196 IL IR (5) 5 30 11*4 I <5> 4 O !Aux bldg; LPSI ~ . bearings; hoses, extgshrs 199 IH l<L> 35 11*2*4 1<20) 16 30 IT bldg; main gen; HZ leak; brigade, CO2 fixed sys 205 IL IL 11*3 I 65 65 20 IWatchllllll'I tried extgshrs (3:05 A.N.), called OFD 207 IL IL 11*4 I IContall'lllent; burlap; heater; extinguishers 2oa IL IL 11*3*4 1<60) 48 30 IRecori:lfner bldg; fonnwood; heater; brigade, OFD 209 IL I 12*4 I <10 a 0 IWarehse; extgshrs fall; 2 sprnlclr heeds ctrl fire I I 11*3 I 10 10 0 !Arrival time of OFD 225 IL IL 11*4 I <5 4 0 ICtrl ni; panel; overheated rnistor; extgshrs 227 IL I 12*4 I <10 a 0 IWareh1e; 3 sprnklr heeds, hose stre!WIII 228 I tr I I IDG buf ldfng; exhlK,\8t 11111ni fold; carbon bui l~ m-1 IR I I IDG building; cabinet 230 IL IL 11*4 I !Reactor building; wood; welding; extinguishers 231 IL l<L> (15) 15 30 11*4 1<30) 24 30 IRx bldg; RCP; oil-soaked Insulation, extgshrs 232 IL I I I !Reactor bufldllng; cold leg pipe; 11.t>e oil leak 233 I 11 I I IDG building; exheust 11111nlfold; fuel rich mixture 234 IH IA 11*4 I IDG building; turbocharger 235 IL IR 11*2*4 I (5) 4 0 1Swar m; 480V bus; short circuit; Halon, brigade 237 IL IA 11*4 I I~ Hae; SW strainer motor; short; self*ext 240 IL IL I I !Turbine building; cables (smoldering) 242 IH IR 11*4 I 30 24 20 IDG bui ldlng; 11.t>e of l; bearing overheated 246 IL IR 11*4 (20) 16 30 IS111r roa1; supply bus; extinguishers, brigade 247 IL 11 11-4 (5) 4 0 !Reactor building; tarp; welding; hose strelllllS 250 IL,A*IL I IDG bul ldfng; cabinet 252 IL 11 11*4 IContainnent; wood forms; welding; hose stremns 254 IL IR 11*4 IS111r nn; brkr; elec; extinguishers~ fire brigade 255 IL 11-3-4 ITurtlne building; oil line; .rupture; O.F.D. 256 IL 11 11*4 !Switchgear rooa; bus; short circuit; extinguishers 25S IH IR 11*4 IDG bldg; exh pipe; turbochgr failed; fire brigade 259 IVL IL 11*4 IAuxi l fary buf lding; valve operator; de-energized 263 IL 11 I !Control rooa; wood; welding Z64 IL 11 I !Turbine building; cable; welding 265 l<L> Im 1<1*4) <<10> I a 0 !Reactor building 268 IL 1m 1<1-4) 1c10, I a 0 !Aux bldg; 480V NCC; elcetrlcal, personnel error 269 IL l<L) 1<1*4) 1<10> I a 0 IAux bldg; CCV~. bearing failure; extgshrs? 270 IL IL 2 2 20 11*4 I <5> I 4 0 IR bdg; n.tlber; wldg; extgshrs, ctrl nn nt notified 273 IL II 1<1*4) I I IDG bldg; exhaust manifold insulation; OG shuc down 274 IH IL 1<1*4) I I IDG building; exhaust manifold: oH leak 275 IL IL (5) 5 30 11*4 I (5) I 4 0 IRx bldg; wood box; grinding;* ext.inguisMrs 276 IVL IR (10) 10 :so I I I -IDG bldg; genrtr; smoke, no f I re; op sent to roa1111 *

  • F-37

278 IH IL I I I IDG bJilding; exhaust header; leaking oil 279 IH IA I 12-3-4 I 90 I 72 20 pct..- yard; xt..-: alee; auto deluge, brigade, OFO 21SO. IH . (I I 11*4 .L a I 6 ..o IDG b.lda:. exh elp; !=1'.Ckd oil lJne: brigade, hose 281 IH It I I I I IDG bJlldlng; exhaust manifold; oil leek 285 IH IL I 11-2-4 1<<10)1 a ,0 IDG bldg; exh IW'lfld; ll.be oil spray; CO2 syste111 286 IL I I 11*4 I<<10> a 0 IC*ble riser area; cable; arcing (purling c ~ > 287 IL IL I 11-4 I <2> 2 0 IAux bJflding; SI ~ ; electrical; de-energized 288 IL IL I 11*4 I !Reactor building; welding; no fire watch 290 IL IL (>1d)* 11-3*4 I 75 IContaimient; wood cirna;e; welding I I 11*3 I 37 37 20 I I f ll-4 I 38 30 20 I 291 IL II 11*4 1<20) 16 30 IRx bldg; RCP; of l soaked Insulation; fire brigade 292 IL IL 11-4 I IRx bid;; N2 analyzer; short circuit; de-energized 295 IL IL 11*4 I !Control r0011; relay; electrical; de-energized 296 IH IA 12*4 I IXf.- yard; xfMIW"; electrical; auto deluge 297 IL IL 11-4 I IRx bldg; RCP; wldng, thin fll* l~ oil; ext;shrs 298 IL IA 12*4 (10) a 20 IS1111r m; cable; Insulation breakdown; auto deluge 299 IN IL 11-4 IT bldg; turbine; H2 leak; extinguishers, brigade 300 IN IL I IRCIC r0011; RCIC turbine; oil leak 301 IL IR 1<1-4) (2) 2 0 IXf..- yard; circuit switcher; elec; de-energized 304 IL I 1<1-4> IRecari)iner; fOIIII packing; welding 307 IN IL 11-2-4 IDG bid;; exh Nnifold; oil spray; auto CO2 systeni 308 IH IL .* 11-4 25 20 20 IDG bldg; DG; fuel l lne brk*; brigade, deluge fail 309 IL 11 11*4 (1) 0 !Switchgear rOOlli waste; welding 310 IL 11 11*4 (1) 0 !Switchgear r0011; weste; welding 311 IL 11 11-4 (1) 1 0 !Switchgear rocn; wHte; welding 312 IL 11 11*4 14 a 0 IESW syatea; bus bar; short circuit; extinguishers I I I 7 J*flre suppression time*? 313 IL II 11-4 (1) 0 !Switchgear rOOIII; waste; welding 315 IL 11 11-4 (1 > 1 0 !Switchgear rOOII; waste; welding 316 IL II 11-4 (1) 0 !Switchgear roan; waste; welding 317 IL IL I !Piping; heating pads 318 IL IL !delay 11-4 !Auxiliary building; panel; electrical 320 IL IL delay 11-4 !Bat rm; battery chgr; elec; extinguishers 322 IH I 11-4 IT building; oil spill on ste11111 line; extinguishers 323 IL I 1<1-4) 1<20) 16 30 !control building; fan, cables; electrical 324 I IR I I IRadwaste building; 480V MCC; electrical 325 IL IL I I !Switchgear r0011; xfmr; electrical 326 IL 11 1<1-4) (,20) 16 30 !Cable; waldlng 327 IL IL 1<1-4) !Switchgear r0011; xflnr; electrical; de-energized - 328 IL IL I !Annulus; scaffolding; quartz light, arson 330 IR 1<1-4) IDG building; exhaust; excess fuel; de-energized 331 '" IL 11 1<1-4) (5) 4 0 !Control building; panel; electrical 332 IH I 1<1-4> 120 96 20 IXflr yard; xfar; electrical; fire brigade 336 IL IA 12-4 (5) 4 0 ICoqiuter r0011; c~ter; Halon syste111 337 IH IA 12-4 14 11 20 !Turbine building; generator: H2 leak; auto CO2 341 IH I 11-4 IT bldg; feed ~ ; oil soaked insul; ext, brigade 342 IL IA 12*4 (5) 4 0 IS1111r rOC11; 480V breaker; electrical; auto Halon 346 IH IA 12*4 IXfllll' yard; Xfllll'; elec; auto deluge, fir'e brigade 349 IH IL 11-2-4 22 111 20 IDG bJildlng; turbocharger; fuel oil leak; auto CO2 355 IH IL (10) 10 30 11*4 (5) 4 0 IT bJflding; feedwater ~ ; bearing; fire. brigade 357 IL IR 11*4 IS1111r rOOII; RCIC ~ inverter; elec; de-energized F-38

  • 362 363 IL IL IR IL I

I (5) 5 11 *4 30 11 *4 I <S I (5) 6 4 0 !Switchgear roan: MG set: overheated: de-energized 0 ISwar nn: 4160/480V xfmr: electrical: extinguishers 20_ IXfmr yard; xfmr; elec;_ auto deluge, _fire brigade 364 IVH_ I.R I .12~4. I 1?0 96 365 IVH IR I1-2*3*41 270 216 20 !Xfnr yrd; 34.5 kV bus: elec; brigade, OFD, deluge? 366 IVH IR 12*4 I 15 12 20 IXfmr yard; xfrnr; elec; auto deluge, fire brigade 367 IVH IR 11*2*3*4 120 96 20 IXfmr yard; xfmr; electrical; auto deluge, OFD 368 IL IA 11*4 5 4 0 !Switchgear room; MCC; electrical; extinguishers 370 IL II 11*4 1Drywell; Insulation; welding; fire brigade 371 IL IR I <2*4> 7 6 0 !Reactor building; relays; electrical; auto deluge? 3n IL  !<A) I <2*4> (2) 2 0 !Containnent; RCP; Sllllllll oil leak; auto deluge? 373 I I(A) (5) 5 30 1<2*4) (5) 4 0 !Turbine building; H2 tank; H2 leak; auto CO2? 374 IH IL (25) 25 30 1<1*4) (5) 4 0 IT building; HP turbine; HZ leak; extinguishers? 375 IH IL I c1-4 > 1 0 IT building; generator; oil leak; extinguishers? 3n IH (R 5 5 20 11*2*4 30 24 20 IT bldg; gen; failure; auto CO2, fire bl'"igade 378 IH IL 11*4 15 12 20 IT building; fw ~ ; oil, insulation; fire brigade 379 IL IL 11*4 7 6 0 ICtrl building; cabinet; electrical; extinguishers 381 IH IL 7 7 20 11 *2*4 22 18 20 IDG bldg; turbocharger; oil; auto CO2, fire brigade I I 11 *Z (5) 5 0 !Fire brigde tried to put out fire before using CO2 382 (L (A 12*4 (5) 5 0 ISwgr r.0011; 480V breaker; electrical; auto Halon 383 (L (A 20 (1*4 (5) 5 0 ISwar rm; 460/2.30V bus; elec; extgshrs, fire brigde 384 IL IL I1*4 !Reactor building; relay; electrical; de-energized 385 IVH II 11 *3*4 1<180 144 20 !Turbine building; oil leak; fire bl'"igade, OFD 386 IH (CA) 1<2*4) I <<5> 4 0 !Turbine building; bearing; auto CO2? 387 (VH I (A) 11 *2*3*4 Icc1ao I 144 30 IT building; oil system; failure; auto CO2? OFD 391 (L IL 1>120* I I I IContoinnent; welding 393 IL IL I I I I IContairment; RCP; smoldering oil fires 394 IL I (A) I (1) 30 (2*4 I 5 I 4 0 ISwar nn; 4kV/460V xfrwr; elec; extgshrs? auto CO2? 395 IL IL I 2 2 20 11*4 I (!) I 6 0 (Rx bldg; Insulation; welding; extinguishers 401 IH (I I 11*4 I 25 I 20 0 IDG bldg; exh man; oil leak; brigade, fix **deluge 402 IH IL I 11*4 I I IContainnent; RCP; oil leak; extinguishers 

 ---**l****l****l******l*****l*****l****---1***--1-****(*-***1---*---*--*--*-**---*--*-*---*--*------**-**-*---*

Notes: 1) Parentheses indicate estimates with greater i.lCertainties

2) Asterisks indicate estimates judged irrelevant to a~lysis (and not used)
3) Notation 'GA' indicates General Atomic report estimate
  • F-39

Table 1.3 - Evidence for Transition Fractions (Page 1 of 9) Fraction Evidence Source Number of fires detected immediately= 50 Table *1.2 Number of fires detected after a delay= 155 a) Number of fires in which detectors didn't activate (but should have)= O Table 1.2 Number of fires in which detectors activated successfully= 38 b) Estimated smoke detection rates for nuclear power plants: Incipient fires, ~0 -s 1 min: 0.20 -- 0.45 Conditional r~te, meaningful fires, 1 S t 0 S 5 min: 0.45 -- 0.99 Note: Use 'A = 0.325 + (1.0 - 0.325)(0.72) = 0.81, (0.325 and 0.72 are geometric means of given ranges) Also, use 8 = 1.00, " = 0 .. 978 c) Smoke detector performance in hospitals: [1.10] to S 1 min 507. to S 5 min 707. to > CX) 25 7. Note: Use 'A = 0.75, B = 1.00, "= 0.978

Table 1.3 - Evidence for Transition Fractions (Page 2 of 9) Fraction Evidence Source. d) Estimated smoke detection rates for nuclear power plants: (1.11] Incipient fire, early warning, thorough coverage: 0.90 Incipient fire, early warning, standard coverage: 0.45 

                    . Meaningful fire, standard installation:             0.99 Note: Use 'A = 0.99, 8 = 1.00, q = 0.978 e)    Estimated detection rates for nuclear power plants:              [1.12]
                      'A = 0.86; use 8 = 1.00, q = 0.978
   ;AF (Sprinklers) a)* Number of events in which sprinklers failed to actuate= 3         Table 1. 2 Number of events in which sprinklers were demanded= 19 b)    Sprinkler test results                                            (1.12]

fA = *o.00705 Note: Use B = 0.0577, q = 0.978 c) Industrial fire experience (non-nuclear) [1.13] 

                      ',A = 0.0171 Note: Use 8 = 1.00, q = 0.978

Table 1.3 - Evidence for Transition Fractions (Page 3 of 9) Fraction Evidence Sourc*e 

 ;AF (Gas systems) a) Number of events in which sprinklers failed to actuate= 1                   Table 1..2 Number of events in which sprinklers were demanded= 20 b)   Test data                                                                   [1.9]
                    'A  = 0.13;_ use O = 1.00, "= 0.978 c)   Test data                                                                  [1.12]
                    'A = 0.002 Note: Use D = 0.315. "= 0.978 d)    Test data                                                                  [1.14]
                    'A = 0.054 Note: Use 8 = 0.315, "= 0.978
;SM (Low severity fires) a) Number of events with successful manual suppression (1~4) = 106              Table 1. 2 Number of events with unsuccessful manual suppression (1~3~4) = 13 b)    Portable extinguisher failure rates:                                        [1.9]

Early fire phase (1-5 min), immediate ~uman response: 0.05 5 f 5 0.23 Middle fire phase (3-8 min), automatic (smoke) detection: 0.10 5 ~ 5 0.60 Hose station failure rate: 0.0034515 0.051 Water supply failure rate: 0.0112 5, 5 0.0125

  • Fraction Evidence Table 1.3 - Evidence for Transition Fractions (Page 4 of 9)

Source Note: Use extinguisher failure rate as basis, correct for hose stations by applying bias factor. Judging that 1.0 ~ 8 ~ 0.17/(0.0185+0.0118), 1sM = 0.17 (geometric mean of 0.05, 0.60) D = 2.37, a= 0.978 c) Portable extinguisher failure rates: [1.12] 0.071 ~, S 0.36 (depending on extinguisher type, fire fuel) Note: Use 'SM = - 0.16 (geometric mean of 0.071, 0.36) D = 2.37, a= 0.978 

   ;SM (High severity fires) a)   Number of *evef!ts with successful manual suppression (1-.4) = 35 ..        Table _1.2 Number of events with unsuccessful manual suppression (1-.3-.4) = 5 b)   Portable extinguisher failure rates:                                            [1.9]

Middle- fire phase (3-8 min), automatic (smoke) detection: 0.10 S, S 0.60 Late fire phase(> 8 min), failure of smoke detectors: 0.30 S, ~ 0.80 Note: Use fsM = 0.28 (geometric mean of 0.10, 0.80) B =.2.37, a= 0.978 c) Portable extinguisher failure rates: [1.12] 0.071 ~ f S 0.36 (depending on extinguisher type, fire fuel) Note: Use 'SM = 0.16 (geometric mean of 0.071, 0.36) B =*2.37, a= 0.978

Table 1.3 - Evidence for Transition Fractions (Page 5 of 9) Fraction Evidence Source 

   ; 88 (Low severity fires, sprinklers) a) Number of events with successful sprinkler suppression (2~4) = 4       Table 1.2 Number of events in which sprinklers are demanded= 4 b)   Sprinkler success rate (general):                                     (1.15]

0.782 S 1 S 1;00, weighted mean= 0.89 Note: Use 1ss = 0.11 B = 1.136 (correction for sprinkler unavailability) 6 = 0.978 c) Sprinkler success rate (general): (1.16] 0.850 S; S 0.998 Note: Use 1s~ = 0.017 8 = 1.136 (correction for sprinkler unavailability) 6 = 1.312 (based on*given range) d) Conditional failure frequency for automatic systems, given actuation (1.9J 0.005 S 1 S 0.394 Note: Use 1ss = 0.044 -*(geometr}c mean of 0.005, 0.394) B = 1.00, 6 = 1.327 (based on given range) e) Failure of water to put out fire (large volume) [1.12] 1 failure in *71 trials (for Class A, B, and C fires) Note: Use 1ss = 0.014 8 = 1.00, 6 = 0.978

  • r
  • Table 1.3 - Evidence for Transition Fractions (Page 6 of 9)

Fraction Evidence Source f) Unsatisfactory sprinkler system performance, industrial fires [1.13] Number of failures (~ther than demand failures) = 1192 Number of fires= 66945 Note: Use 1ss = 0.018 D = 1.00, u = 0.978 

   ; 88 (Low severity fires, CO 2 systems) a) Number of events with successful CO 2 suppression (2~4) = 2            Table 1.2 Number of events in which CO 2 system is demanded= 4 b)   CO 2 system_ su~cess rate (general):                                        [1.16]

0.470 5, 5 0.961 Note: Use fss = 0.14 (geometric mean of 0.039, 0.53) B = 1.075 (correction for gas system unavailability) u = 0.978 (based on given range) c) Conditiona~ failure frequency for automatic systems, given actuation [1.9] 0.005 5, 5 0.394 Note: Use , 88 = 0.044 (geometric mean ~f 0.005, 0.394) B = 1.00, u = 1.327 (based on given range) d) Failure of CO 2 to put out fire (large volume) '[1.12] 5 failures* in 40 trials (for Class A, D, and C fires) Note: Use 1ss = 0.125, D = 1.00, u = 0.978

Table 1.3 - Evidence for Transition Fractions (Page 7 of 9) Fraction Evidence Source 9ss (Low severity fires, Halon systems) a) Number of events with successful automatic suppression (2~4) = 2 Table 1.2 Number of events in which automatic suppression is demanded= 4 b) Conditional failure frequency for automatic systems, given actuation (1.9] 0.005 ~ f ~ 0.394 Note: Use 1ss = 0.044 (geometric mean of 0.005, 0.394) D = 1.00, a= 1.327 (based on given range) 

 'ss  (Uigh severity fires, sprinklers) a) Number of events with successful sprinkler suppression (2~4) = 10      Table 1.2 Number of events in which sprinklers are demanded= 13 b)   Sprinkler success rate (general):                                     [1.15]

0.782 S 9 S 1.00, weighted mean= 0.89 Note: Use 1ss = 0.11 8 = 1.136 (correction for.sprinkler unavailability) a= 0.978 c) Sprinkler success rate (general): [1.16] 0.850 S, S 0.998 Note: Use ~SS = 0.017 D = 1.136 (correction for sprinkler unavaiiability) a = 1.312 (based on given range)

  • Table 1.3 - Evidence for Transition Fractions (Page 8 of 9)

Fraction Evidence Source d) Conditional failure frequency for automatic systems, given actuation [1.g] 0.005 S, S 0.394 Note: Use 'ss = 0.044 (geometric mean of 0.005, 0.394) D = 1.00, "= 1.327 (based on given range) e) Failure of water to put out fire (large volume) [1.12] 1 failure in 71 trials (for Class A, D, and C fires) Note: Use 'ss = 0.014, D = 1.00, "= 0.978 f) Unsatisfactory sprinkler system performance, industrial fires [1.13) Number of ..failures (other than demand failures)= 1192 Number of fire.s = 66945 Note: Use fss = 0.018, B = 1.00, "= 0.978 

   'ss (High severity fires, CO 2 systems) a)   Number of events with successful CO 2 suppression (2~4) = 11         Table 1.2 Number of events in which CO 2 sy~tem is demanded= 12 b)   CO 2 system success rate (general):.                                        (1.16]

0.470 S, S 0.961 Note: Use 'ss = 0.14 (geometric mean of 0.039, 0.53) D = 1.075 (correction for gas.system unavailability) 

                             "= 0.978 (based on given range)

Table 1.3 - Evidence for Transition Fractions (Page 9 of 9) Fraction Evidence Source. c) Conditional failure frequency for automatic ~ystems, given actuation [1.9) 0.005 5 f 5 0.394 Note: Use ~SS = 0.044 (geometric mean of 0.005, 0.394) B = 1.00, 6. = 1.327 (based on given range) d) Failure of CO 2 to put out fire (large volume) [1.12} 5 failures in 40 trials (for Class A, B, and C fires) Note: Use fss = 0.125 B = 1.00, 6 = 0.978 

       ; 88 (High severity fires, Halon systems) 71

,I:>, No specific data.

  • Use Halon data for low severity fires.

00

Table 1.4 - Parameters of 1r1(,\ij) (New Data Set) Trsi:nsition SeveritI Mean Mh 50th 95th 1 .... 2 Low 0.065 0.026 0.060 0.12 1 .... 2 High 0.069 0.027 0.061 0.14' 1 .... 3 Low 0.026 0.015 0.025 0.040 1 .... 3 High 0.027 0.011 0.024 0.052 1 .... 41 Low 0.14 0.097 0.14 0.19 1 .... 42 Low 0.071 0.056 0.071 0.088 1 .... 41 High 0.061 0.033 0.059 0.097 1 .... 42 High 0.048 0.030 0.047 0.070 2 .... 3 Low 0.007 0.002 0.006 0.014 2 .... 3 High 0.030 0.008 0.023 0.081 2 .... 4 Low 0.17 0.097 0.16 0.25 2 .... 4 High 0.037 0.022 0.035 0.56 3 .... 4 Low 0.013 0.007 0.012 0.020 3 -+4 High 0.017 0.007 0.015 0.034 Notes: ~~ Instantaneous detection Delayed detection F-49

Table 1.5 - Characteristic Parameters of 1r ( ¢k) (New Data Set) 1 Percentiles. Parameter Mean 5th 50th 95th

  • Notes
     ¢or            0.24                                            1 t/JA           0.056     .0.021      0.053       0.099         2 t/JRM          0.096      0.060      0.094       0.14          3 t/JRM          0.12       0.056      0.11        0.20          4 t/JAF          0.097      0.035      0.088       0.19          5 V'AF           0.056      0.022      0.051       0.11          6 t/Jss          0.030      0.012      0.027       0.060        3,5 t/Jss          0.22       0.073      0.19        0.47         3,6
     ¢ss            0.055      0.004      0.032       0.19         3,7 0.055      0.023      0.050       0.10         4,5 "ss t/Jss          0.11       0.040      0.095       0.21         4,6 Notes:
1) Small uncertainties
2) Smoke Detectors
3) Low Severity Fires
4) High Severity Fires
5) Sprinklers/deluge systems
6) CO special systems 2
7) Halon special systems
8) 1Pj = 1- ¢i
9) ¢sA = <p AF for automatically actuated suppression systems,
            =   t/JaM'PAF for manually actuated systems F-50
  • Table 1.6 - Parameters of ,r1(,\ij) (Early Data Set) (1.1]

Transition Severity Mean 5th 50th 95th 1-+2 Low 0.22 0.033 0.17 0.53 1-+2 High 0.037 0.0072 0.027 0.097 1 -+ 3 Low 0.029 0.0054 0.025 0.064 1-+3 High 0.024 0.0088 0.022 0.044 1-+ 41 Low 0.13 0.065 0.12 0.21 1-+ 42 Low 0.063 0.035 0.060 0.094 1-+ 41 High 0.046 0.025 0.043 0.065 1-+ 42 "High 0.041 0.025 0.039 0.058 2-+3. Low 0.023 0.0010 0.013 0.056 2-+3 High 0.017 < 0.0010 0.011 0.047 2-+ 4 Low 0.12 0.021 0.10 0.28 2-+4 High 0.057 0.0087 0.042 0.14 3-+4 Low 0.015 0.0043 0.013 0.030 3-+ 4 High 0.0054 0.0020 0.0050 0.010 Notes: Instantaneous detection Delayed detection

  • F-51
   .Table 1.7-Characteristic Parameters of    ir 1

('PJc) (Early Data Set) [1.4,1.12) Percentiles Para.meter Mean 5th 50th ~ Notes 

   <1>01             0.56    0.42        0.55          0.72
      'PA            0.059   0.018       0.049         0.13         1
      'PA            0.18    0.087       0.17          0.31         2 V'sM           0.10    0.034       0.086         0.22         3 1PsM           0.32    0.14        0.28          0.61         4 0.067   0.016       0.054         0.16         5 "AF V'AF           0.011   0.0029      0.0089        0.027        6 1PAF           0.13    0.040       0.11          0.29         7 1/IRM          0.16    0.020       0.10          0.50         3
      </>RM          0.13    0.0050      0.050         0.50         4 t/lss          0.019   0.0026      0.013         0.055        5 t/lss         0.15     0.036       0.13          0.36         6 Notes:

l) Smoke Detectors

2) Heat Detectors
3) Low Severity Fires
4) High Severity Fifes
5) . Sprinklers/deluge systems
6) CO 2 special systems
7) Halon special systems
8) "'i = 1 - </>i
9) ¢sA = AF for automatically actuated suppression systems,
            = 1/laM</>AF for manually actuated systems F-52
  • Table 1.8 - Fire Protection Equipment Room Classification [1.1]

Class

  • Equipment
  • I No detectors, no special systems II Detectors, no special systems III No detectors, manually actuated special systems IV Detectors, manually actuated special systems V Detectors, automatic special systems
  • F-53

Table 1.9 Joint Distribution farameters for Hazard Time Moment~ Room Hazard Tlme Mean Hazard Time Variance Class Severity Mean Variance Mean Variance Covariance_ Mu(a) Sigma(a) Mu(b) Sigma(b) Rho(a,b) I Low 4.13E+Ol 9.43E+Ol 3.12E+03 4.97E+06 l.61E+04 3.693 0.232 7.841 -0; 642 0.788 I High 3.27E+Ol l.08E+02 3.82E+03 2.96E+07 4.68E+04 3.440 0.310 7.694 1. 053 0.975 II Low 4.04E+Ol 9. 34E+Ol 3.15E+03 4.99E+06 l.61E+04 3.670 0.236 7.851 0.639 0.791 II High 3.17E+Ol l.05E+02 3.94E+03 4.49E+07 5.84E+04 3.406 0.316 7.600 1.166 1.042 IllA Low 4.43E+Ol 9.68E+Ol 5.95E+03 2.44E+07 3.49E+04 3.766 0.220 8.429 0. 724 0.782 IIIA High 3.58E+Ol l.07E+02 6.25E+03 l.18E+08 8.97E+04 3.539 0.282 8.047 1.179 l.Oll IIIB Low 4.08E+Ol 8.27E+Ol.5.08E+03 l.85E+07 2.54E+04 3.685 0.220 8.262 0.736 0. 713 IIIB High 3.54E+Ol l.OOE+02 6.35E+03 l.28E+08 8. 72E+04 3.528 0.277 8.041 1.196 0.988 "rj I Ut ~ IVA Low 4. 34E+Ol 9.68E+Ol 5.98E+03 2.45E+07 3.48E+04 3.745 0.224 8.435 0. 7.22 0.. 779 IVA High 3.51E+Ol l.06E+02 6.25E+03 l.18E+08 8.96E+04 3.518 0.286 8.045 1.1.79 1.013 IVB Low 3.99E+Ol 8.18E+Ol 5 .11E+03 l.86E+07 2.54E+04 3.662 0.224 8.270 0. 733 0. 715 IVB High 3.47E+Ol 9.94E+Ol 6.35E+03 l.28E+08 8.71E+04 3.508 0.281 8.039 1.197 0.989 VA Low 4.03E+Ol 8. 71E+Ol 3.50E+03 5.88E+06 l.60E+04 3. 671 0.229 7.963 0.627 0.751 VA High 3.35E+Ol 9.30E+Ol 3.92E+03 3.44E+07 4.44E+04 3.473 0.282 7.688 1.084 0.951 VB Low 4.99E+Ol l.44E+02 7.02E+03 2.90E+07 4.75E+04 3.881 0.238 8.625 0.680 0.788 VB High 3.45E+Ol l.04E+02 4.24E+03 4.49E+07 5.61E+04 3.500 0.289 7. 727 l.H.8 1.001 VG Low 4.19E+Ol l.11E+02 4.03E+03 8.58E+06 2.32E+04 3.704 o_,248 8.088 0.652 0.796 vc High 3.37E+Ol l.01E+02 7.61E+02 3.65E+07 4.80E+04 3.474 0.292 4.554 2.040 1. 772

Inatantaneoua Trenaitiona Delayed Tranaitiona DI Detected lnatantaneoualy! A Autmaatic Detactora Available? SH Initial Manual Suppreaoion Succeaaful? (by on-*ite personnel) SA Pixed Suppreaeion Syatemo Available and Succeosfully Actuated? SS Pixed Suppression Systems Successful? Figure 1.1 Fire Suppression f~del

  • Appendix G. Description of High Level Human Action Events and HEP Quantification This Appendix documents the fault tree high level human action events analyzed in this study and presents the results of HEP quantification. Table G-1 provides the* descriptions for high level human action events. Table G-2 shows the results of HEP quantification.

Table G-3 provides the descriptions of recovery actions. Table G-4 shows the results of recovery actions quantification. Note that in Tables G-1 and G-2 internal PRA designation of sequence numbers is used. In Tables G-3 and G-4 sequence number from Appendix I is used .

Table G-1. (Page 1 of 130) Definition of Dynamic Human Actions for Fire Initiating Events T:ltle. ~f Abth,n ..  : Event .. 

                                                     ...... n* . .Action****
                                                                  . . . *.*r*:*.****. ******t*. . . . . . .     ..
..aem:ar1ts 1 *.
                                                       * *. ea *gn_a .or                                    .. ...

DE1(W2,W Diagnose the loss of RHR D-El(W2,W3)-XHE Train A RHR, ccw, charging, CPC,

3) due to damage to 4 kV 11:1 HHS!, and IBSI equipment lose panel by large fire at power. Charging suction valves midloop in POS 6 of 1115B (RWST) and 1115C (VCT) are refueling outages. disabled. IBSI MOVs 1890 A and C
              -                                                                                                    are disabled. RHR MOV 1700 may inadvertently close due to hot short (i.e.' operator has to . get inside containment to locally open MOV 1700). SG PORVs are disabled.

C) DE1W4 Same as for DEl (W2, WJ) D-E1W4-XHE Same as for DEl (W2, WJ) except I except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. DElWl Same as for DEl (W2, W3) D-ElWl-XHE Same as for DE1(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages.

Table G-1. (Page 2 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event 'l'itl4J of Action Actto~ .. * . 

                                               *. ries!gliat.or **             * -~~Jts            I DE2(W2,W Diagnose the loss of RHR         D-E2(W2,W3)-XHE        Train A RHR, ccw, charging, CPC,
3) due to damage to 4 kV HHSI, and LHSI MOVs lose power.

stub bus lH and 480 V lHl RHR pump A, ccw pump A, and CPC panel by large fire at pump A are disabled. Control midloop in POS 6 of cables for charging pumps A/C refueling outage*s. and LHSI pump A are disabled. Supply breaker to 4 kV bus lH will be tripped open. Charging pump suction valves 1115B (RWST) and 1115C (VCT) are disabled. LHSI MOVs 1890A/C are disabled. RHR MOYs 1700 and 1720A, HHSI MOVs 1286A/C, 1287A/C, 1267A, C) and 1270A, and LHSI MOV 1862A I N may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700 and 1720A). SG PORVs are disabled. Use same value as D-El(W2,W3)- XHE. DE2W4 Same as for DE2(W2,W3) D-E2W4-XHE Same as for DE2 (W2 ,WJ) except except the fire event more time is available for occurs in POS 10 of* operator diagnosis. refueling outages. Use same value as D-E1W4-XHE.

Table G-1. (Page 3 of 130) Definition of Dynamic Human Actions for Fire Initiating Events 

                  .Title Of Act:i.on , . ** ( * . i~tioi     * *
                                               *
  • nasignator,*

DE2Wl Same as for DE2(W2,W3) D-E2Wl-XHE Same as for DE2(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as A-ElWl-XHE. DE3 (W2, W Diagnose the loss of RHR D-E3 (W2, W3) -XHE

  • LIISI pump A loses powe~. Control
3) due to damage to 480 V lH cables for RHR pump A, CCW pump bus by large fire at A, charging pumps A/C, CPC pump midloop in POS 6 of A, LIISI pump A, and train A MOVs refueling outages. for the preceding systems are damaged. Supply breaker to 4 kV bus lH will be tripped open.

Charging pump suction valves 0I 1115B/C are disabled. LIISI MOVs w 1890A/C are disabled.. RHR MOVs 1700 and 1720A, HHSI MOVs 1286A/C, 1287A/C, 1267A, and 1270A, and LIISI MOV 1862A may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700 and 1720A). SG PORVs are disabled. Use same value as D-El(W2,W3)- XHE.

Table G-1. (Page 4 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event ** Tit1* of* Action . Action .,**,;1t11 I Qeslgnator .* **** DE3W4 Same as for DE3(W2,W3) D-E3W4,-XHE Same as for DE3(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refu~ling outages. Use same value as D-E1W4-XHE. DE3Wl Same as for DE3(W2,W3) D-E3Wl-XHE Same as for DE3(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-ElWl-XHE.

  • Table G-1. (Pages of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event .Titie *. of *Acti,on Actibn *. * * * . *** . . Remarks.* .. ,. ' nesign*atof< . .*** . . DE4 Diagnose the loss of RHR D-E4(W2,W3)-XHE Train B RHR, ccw, charging, CPC, (W2,W3) due to damage to 4 kV HHSI, and LHSI MOVs lose power. stub bus lJ and 480 V lJl RHR pump B, ccw pump B, and CPC panel by large fire at pump Bare disabled. Control midloop in POS 6 of cables for all pumps and MOVs in refueling outages. RHR, ccw, charging,-CPC, and LHSI systems and PORV block valves are damaged. Supply breaker to 4 kV bus lJ will be tripped open. RHR pump A, ccw pump A, charging pump A, and CPC pump A may trip. RHR MOVs 1700, 1701, and 1720A/B, HHSI MOVs a 1286A/B/C, 1287A/B/C, 1267A, I VI 1269A, and 1270A, and LHSI MOVs 1862A/B may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHSI suction MOVs 11158/C, and LHSI MOVs 1890A/B/C are disabled. DE4W4 Same as for DE4(W2,W3) D-E4W4-XHE Same as for DE4(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages.

Table G-1. (Page & of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action Action**. Remarks 

                                       * . . Designator DE4Wl   Same as for DE4(W2,W3)     D-E4Wl-XHE         Same as for D-E4(W2,W3)-XHE except the fire event                         except less time is available occurs in POS 6 of                            for operator diagnosis.

drained maintenance outages. Cl I °'

  • Table G-1. (Page 7 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Ev.ant DE4A(W2, Diagnose the loss of RHR D-E4A(W2,W3)-XHE Train B RHR, ccw, charging, CPC, W3) due to damage to 4 kV HHSI, and LIISI MOVs lose power. stub bus lJ and 480 V lJl RHR pump B, ccw pump B, and CPC panel, and pump Bare disabled. Control instrumentation cables for all pumps and MOVs in 

                .associated with RHR flow                      RHR, ccw, charging, CPC, and control valve HCV-1758 by                     LIISI systems and PORV block large fire at midloop in                      valves are damaged. Supply POS 6 of refueling                            breaker to 4 kV bus lJ will be outages.                                      tripped open. RHR pump A, ccw pump A, charging pump A, and CPC pump A may trip. RHR MOVs 1700, 1701, and 1720A/B, HHSI MOVs 1286A/B/C, 1287A/B/C, 1267A, ClI                                                             1269A, and 1270A, and LIISI MOVs

....J 1862A/B may inadvert~ntly close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHSI suction MOVs l115B/C, and LHSI MOVs 1890A/B/C are disabled. RHR pump A is damaged due to runout caused by failure of RHR flow control valve HCV-1758. Use same value as D-E4(W2,W3)- XHE.

Table G-1. (Page a of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action* Action Remarks *I Designator

  • DE4AW4 Same as for DE4A(W2,W3) D-E4AW4-XHE Same as for DE4A(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis.

refueling outages. Use same value as D-E4W4-XHE.* DE4AW1 Same as for DE4A(W2,W3) D-E4AW1-XHE Same as for DE4A(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-E4Wl-XHE. Cl I 00

  • Table G~l. (Page 9 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events EVent Title of Action* . Action . rieslgnator ... DE5(W2,W Diagnose the loss of RHR D-E5(W2,WJ)-XHE LHSI pump B loses power. Control

3) due to damage to 480 V lJ cables for all pumps and MOVs in bus by large fire at RHR, ccw, Charging, CPC, and midloop in POS 6 of LHSI systems and RCS PORV block refueling outages. valves are damaged. Supply breaker to 4 kV bus lJ will be tripped open. Normally operating RHR pump A, CCW pump A, charging pump A, and CPC pump A may trip.

RHR MOVs 1700, 1701, and 1720A/B, HHS! MOVs 1286A/B/C, 1287A/B/C, 1267A, 1269A, and 1270A, and LHSI MOVs 1862A/B may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHS! suction MOVs l115B/C, and LHSI MOVs 1890A/B/C are disabled. Use same value as D-E4(W2,W3)- XHE. DE5W4 Same as for DE5(W2,W3) D-E5W4-XHE Same as for DE5(W2,WJ) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-E4W4-XHE.

Table G-1. (Page 10 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Ti~ie. ('f Action ** iotipn .*. :aemar~s. I 

                                                 < l>esignator. * .**;

DE5Wl Same as for DE5 (W2, W3) D-E5Wl-XHE Same as for DE5 (W2, WJ) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-E4Wl-XHE. DE8(W2,W Diagnose the loss of RHR D-E8(W2,W3)-XHE Unit 1 RHR, ccw, charging, CPC,

3) following unit 1 blackout HHSI, LHSI, and SG PORVs are due to damage to all disabled without possibility of switchgear equipment in recovery.

emergency switchgear room by large fire at midloop Cl in POS 6 of refueling I outages. 0 DE8W4 Same as for DES (W2 ,W3) D-E8W4-XHE Same as for DE8(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. DE8Wl Same as for DE8(W2,W3) D-E8Wl-XHE Same as for DE8(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages.

Table G-1. (Page 11 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action * < \ ' Act:lon **

  • Remarks ' I
                                          ** . 1)-,signator .*.*
  • DE9Wl Diagnosis the loss of RHR D-E9Wl-XHE Control cables for train A RHR, due to damage to "H" ccw, charging, CPC, HHSI, and emergency switchgear room LHSI MOVs are damaged. Charging by cable or transient pump C and LHSI pump A are combustible fir~ at disabled. RHR pump A and CCW midloop in POS 6 of pump A may trip. LHSI MOVs 1890 drained maintenance A and Care disabled. RHR MOV outages. 1700 may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOV 1700). SG PORVs are disabled.
  • C)

I Use same value as D-ElWl-XHE.

Table G-1. (Page 12 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action *. Action . 

                                              * *. oeslgna.tor.      *.......*.{;: *:*

DE10(W2, Diagnosis the loss of RHR D-ElO(W2,W3)-XHE Control cables for RHR pumps A W3) due to damage to "J" and B, CCW pumps A and B, emergency switchgear room Charging pumps A, B, and c, CPC by cable or transient pumps A and B, LHSI pumps A and combustible fire at B, RHR, CCW, charging, CPC, midloop in POS 6 of HHS!, LHSI, and RCS PORV block refueling outages. MOVs of both trains, and SG PORVs are damaged. RHR pump B, ccw pump B, charging pumps Band c, CPC pump B, LHSI pumps A and B, and SG PORVs are disabled. C) Normally operating RHR pump A, ....N I CCW pump A, charging pump A, and CPC pump A may trip. LHSI MOVs 1890 A, B, and care disabled. RHR MOV 1700 or 1701 may inadvertently close due to hot short ( i .* e. , operator has to get inside containment to locally open both MOVs 1700 and 1701). RCS PORV block valves 1535 and 1536 may inadvertently close. Use same value as D-E4(W2,W3)- XHE.

  • Table G-1. (Page 13 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events 

        .Event      iri~ie .ot Ac:1;ion          .* . .Action * . ..                                    * .Remarks           :
                                                    ,tiesicjnator. . . *-* ......................*

DE10W4 Same as for DE10(W2,W3) D-ElOW4-XHE Same as for DElO (W2, W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. _Use same value as D-E4W4-XHE. DElOWl Same as for DE10(W2,W3) D-ElOWl-XHE Same as for DElO (W2, W3) except except the fire event less time. is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. use same value as D-E4Wl-XHE. DEll(W2, Diagnose the loss of D-Ell(W2,W3)-XHE RHR pump A and ccw pump A are W3) operating RHR train due disabled. to damage to supply C) I v ,) breaker in 4 kV lH panel Use D-R4(W2,W3)-XHE. cabinet by small fire at midloop in POS 6 of refueling outages. DE11W4 Same as for DE11(W2,W3) D-El1W4-XHE same as for DE11(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use D-R4W4-XHE. DEllWl Same as for DE11(W2,W3) D-EllWl-XHE Same as for DEll (W2, W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-R4Wl-XHE.

Table G-1. (Page 14 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Ev:ent Title of Action '* **Action . Remarks 

                                             .. ..... Designator             ..

DE12(W2, Diagnose the loss of D-E12(W2,W3)-XHE Vital bus 1-III disabled. W3) operating RHR train due Normally operating RHR pump A is to damage to UPS lAl or damaged by runout. 1A2 by small fire at midloop in POS 6 of Use same valu~ as D-VB(W2,W3)- refueling outages. XHE. DE12W4 Same as for DE12(W2,W3) D-E12W4-XHE Same as for DE12(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-VBW4-XHE. Cl DE12Wl Same as for DE12(W2,W3) D-E12Wl-XHE Same as for DE12(W2,W3) except I .i,. except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-VBWl-XHE. DNl(W2,W Diagnose the loss of RHR D-Nl(W2,W3)-XHE Transfer bus Fis disabled and

3) due to damage to 4 kV normal power supply to 4 kV transfer bus F by small buses lH and 2J is lost.

fire at midloop in POS 6 Emergency power supply from EOG of refueling outages. or backfeed from service transformers is possible. Use same value as D-El(W2,W3)- XHE for screening quantification *

  • Table G-1. (Page 15 of 130)

Definition of Dynamic Buman Actions for Fire Initiating Events

)\?*.**** ..... *.. Reiili'.rks . * .*...

Event .-rit~e of* Actioj **** >**** * *** *

  • Action*. * .. ) . .. .**;* .:****.. **
                                                      .*.* neslqtiiitor:                  ::;:*:,*:.::.:**:_:\::.:.:-.-:::*-:-: :_ ... i*."****              .::*::: .**.

DN1W4 same as for DN1(W2,W3) D-N1W4-XHE Same as for DN1(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-ElW4-XHE for screening quantification. DNlWl Same as for DN1(W2,W3) D-NlWl-XHE Same as for DN1(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-ElWl-XHE for screening quantification. C) DN2(W2,W Diagnose the loss of RHR D-N2(W2,W3)-XHE Transfer bus F and normal bus lA -I v, 3) due to damage to 4 kV transfer bus F by large are disabled. Normal power supply to 4 kV buses lH and 2J fire at midloop in POS 6 is lost. Emergency power supply of refueling outages. from EOG is possible. Use same value as D-El(W2,W3)- XHE for screening quantification. DN2W4 Same as for DN2(W2,W3) D-N2W4-XHE Same as for DN2(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-ElW4-XHE for screening quantification.

Table G-1. (Page 16 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events Event Ti tl.e c,f

  • Aption ...
                                                  * ._ -) _ .Ac~:fon .-
                                                 -*    . \ Designator **
                                                                        -- _.*-**:\_. ..*.: .. ..
                                                                                                                      .-\:-._-*.. *, .*
                                                                                                                                          ***rJts
                                                                                                                                                     . I DN2Wl    Same as for DN2(W2,W3)                  D-N2Wl-XHE                            sa:me as for DN2 (W2 ,WJ) except except the fire- event                                                        less time is available for occurs in POS 6 of                                                            operator diagnosis.

drained maintenance outages. Use same value as D-ElWl-XHE for screening quantification. DN3(W2,W Diagnose the loss of RHR D-N3(W2,W3)-XHE All normal switchgear room

3) due to damage to all equipment is disabled. Offsite normal switchgear room power cannot be recovered.

equipment by large fire Emergency power is supplied from at midloop in POS 6 of EDG. refueling outages. a DN3W4 Same as for DN3(W2,W3) D-N3W4-XHE Same as for DN3(W2,W3) except -°' I except the fire event occurs in POS 10 of more time is available for operator diagnosis. refueling outages. DNJWl Same as for DN3(W2,W3) D-NJWl-XHE Same as for DNJ (W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages.

Table G-1. (Page 17 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events 

                  'l'itie of Action.                                                                                                          aemarks**

Event .Action . **.* .. .. .. 1 

                                    .::: ... ,._.:_*:".. ,' * .. ;ries:i.gnatot-> ;:r-::i:: ,,.,.:,.*.*:c_,;
                                                                                                             *. *:-:_: .'.::-_..* ,,ce_(*'            ..*

DV1(W2,W Diagnose the loss of RHR D-Vl(W2,W3)-XHE Both trains of RHR, both trains

3) due to damage to all of LHSI, charging pump B, ccw cables in cable vault and pump A, and HHSI MOVs 1115 B, c, tunnel area by large D, and E are disabled. suction transient combustible or and discharge MOVs for all cable fire at midloop in charging pumps and RCS PORV POS 6 of refueling block valves may inadvertently outages. change position. SG PORVs are disabled. Operator has to open valves locally and manually.

DV1W4 Same as for DVl (W2, W3) D-V1W4-XHE Same as for DV1(W2,W3) except C'l except the fire event more time is available for I ...J occurs in POS 10 of operator diagnosis. refueling outages. DVlWl Same as for DVl (W2, W3) D-VlWl-XHE Same as for DV1(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. / DCl(W2,W Diagnose the *ioss of RHR D-Cl(W2,W3)-XHE Both RHR pumps are disabled. /

3) due to damage to cables Power cables for MOVs 1700 and for both RHR pumps in 1701 are damaged.

containment by transient combustible or cable fire Use same value as D-R3(W2,W3)- at midloop in POS 6 of XHE. refueling outages.

Table G-1. (Page 18 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

                                                                                                                                     /

Event * 'litJit ~f Aqti~11 * * .. \ ;Adtion * * *. . **. ...

  • 1
                                                                                          *  ** *. * .*. *                , I      /
                                                          )>.aiitg11ator r : . *. *....
                                                                                                                                 /
                                                                                                                               /'
                                         < .* / *. *.  **                                                                     ;,

DC1W4 Same as for DC1(W2,W3) D-C1W4-XHE Same as for DC1(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. -- refueling outages. Use same value as D-RJW4-XHE. DClWl Same as for DC1(W2,W3) D-ClWl-XHE Same as for DC1(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-RJWl-XHE. DM1(W2,W Diagnose the loss of RHR D-Ml(W2,W3)-XHE Both RHR pumps are disabled.

3) due to damage to control for both RHR pumps by Cl small MCR cabinet fire at 00 I

midloop in POS 6 of refueling outages. DM1W4 Same as for DM1(W2,W3) D-M1W4-XHE Same as for DM1(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. DMlWl Same as for DM1(W2,W3) D-MlWl-XHE Same as for DM1(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages.

Table G-1. (Page 19 of 130) Definition of Dynamic Buman Actions for Fire Initiating Bvents Event Tit,le of Act;~c,n 

                                                      . Action*
                                              ... * ** tiesignato£                ..                            iimaarks DM2(W2,W Diagnose the loss of RHR          D-M2(W2,W3)-XHE     All three charging pumps are
3) due damage to charging disabled.

pumps by small MCR cabinet fire at midloop Use same value as D-Mll(W2,W3)- in POS 6 of refueling XHE. outages. DM2W4 Same as for DM2(W2,W3) D-M2W4-XHE Same as for DM2(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-Ml1W4-XHE. DM2Wl Same as for DM2 (W2,W3) D-M2Wl-XHE Same as for DM2 (W2, W3) except ClI \ C) except the fire event occurs in POS 6 of less time is available for operator diagnosis. drained maintenance outages. Use same value as D-MllWl-XHE. DM3(W2,W Diagnose the loss of RHR D-M3(W2,W3)-XHE Normal power supply to 4 kV

3) due to damage to normal buses lH and lJ is disabled.

power supply to 4 kV Offsite power cannot be buses lH and lJ by medium recovered. Emergency power is MCR cabinet fire at supplied from EOG. Operator has midloop in POS 6 of to reconnect the stub buses at refueling outages. the emergency switchgear room.

Table G-1. (Page 20 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Ev.ent Title of Action . Action. .

  • I
                                            ** Designator. .

DM3W4 Same as for DM3(W2,W3) D-M3W4-XHE Same as for DM3(W2,W3) except except the fire event, more time is available for occurs in POS 10 of operator-diagnosis. refueling outages. 

                                                                          \

DM3Wl Same as for DM3(W2,W3) D-M3Wl-XHE Same as for DM3(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis.- drained maintenance outages. DM4(W2,W Diagnose the loss of RHR D-M4(W2,W3)-XHE Both RHR pumps, cold leg

3) due to damage to isolation valves at HHS! pump C') subsections JAE and 3Z of discharge, and LllSI pumps and N

I bench board 1-1 by medium the associated valvs are 0 MCR cabinet fire at disabled. midloop in POS 6 of refueling outages. Use same value as D-M5(W2,W3)- XHE. DM4W4 Same as for DM4(W2,W3) D-M4W4-XHE Same as for DM4(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. - refueling outages. Use same value as D-M5W4-XHE. DM4Wl Same as for DM4(W2,W3) D-M4Wl-XHE Same as for DM4(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-M5Wl-XHE.

Table G-1. (Page 21 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event* arit.1~ of Action *. * 

                                                                  .. . < A~t:tori . ... * * . *. . . *. .

nisI'gnator ,' DM5(W2,W Diagnose the loss of RHR D-M5(W2,W3)-XHE Both RHR pumps, both HHSI pumps

3) due to damage to and RWST suction valves, and subsections 3AE, 3Z, 3W, LHSI pumps and the associated and 3V of bench board 1-1 valvs are disabled.

by large MCR cabinet fire at midloop in POS 6 of refueling outages. DM5W4 Same as for DM5(W2,W3) D-M5W4-XHE Same as for DM5(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Cl N I DM5Wl Same as for DM5(W2,W3) D-M5Wl-XHE Same as for DM5(W2,W3) except ..... except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. DM8(W2,W Diagnose the loss of RHR D-M8(W2,W3)-XHE Both RHR pumps, all three HHSI

3) due to damage to pumps, and RWST suction valves subsections 3Z, 3W, and for HHSI pumps are disabled.

3V of bench board 1-1 by medium MCR cabinet fire Use same value as D-M5(W2,W3)- at midloop in POS 6 of XHE. refueling outages.

Table G-1. (Page 22 of 130) Definition of Dynamic Human Actions for Fire Xnitiating Events Event 

                                       ,, ... . . *.*.** ictio11
                                  . . .. ?::nealgn~tof DM8W4    Same as for DM8(W2,W3)          D-M8W4-XHE               Same as for DM8(W2,W3) except except the fire event                                    more time is available for occurs in POS 10 of                                      operator diagnosis.

refueling outages. Use same value as D-M5W4-XHE. DM8Wl Same as for DM8(W2,W3) D-M8Wl-XHE same as for DM8(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-M5Wl-XHE. DM9(W2,W Diagnosis the loss of RHR D-M9(W2,W3)-XHE Both RHR pumps, all three HHS!

3) due to damage to pumps, RWST suction valves for subsections JZ, 3W, JV, HHS! pumps, and SG steam relief JH, JG, and JF of bench path are disabled.

board 1-1 by large MCR cabinet fire at midloop Use same value as D-MS(W2,W3)- in POS 6 of refueling XHE. outages. DM9W4 Same as for DM9(W2,W3) D-M9W4-XHE Same as for DM9(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-MSW4-XHE.

Table G-1. (Page 23 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Ev.ant ** ,Tiilci >of*.Ac:~i~ij.** * *t * :.**. .*. .****Action . .* *. *

  • r: ' .: . *. *
  • Remi.rks
           ********                             * ; i>.a.:S.1gjiat<>>t * * . . *. ** * .:). .*******i*** *:> <: ** * > *
  • DM9Wl Same as for DM9(W2,WJ) D-M9Wl-XHE Same as for DM9(W2,WJ) except except the fire event less time is available for occurs in POS 6 of operator diagnosis.

drained maintenance outages. Use same value as D-M5Wl-XHE. DM11(W2, Diagnose the loss of RHR D-Mll(W2,WJ)-XHE All three charging pumps and SG WJ) due damage to subsections steam relief path are disabled. JW, JV, JH, JG, and JF by medium MCR cabinet fire at midloop in POS 6 of refueling outages. DM11W4 Same as for DM11(W2,WJ) D-MllW4-XHE same as for DMll(W2,WJ) except except the fire event more time is available for occurs in POS 1.0 of operator diagnosis. refueling outages. DMllWl Same as for DM11(W2,WJ) D-MllWl-XHE Same as for DMll(W2,WJ) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. 

                                                            /
                                                         /
                                                  /

      ---------------------------------------------------------~

Table G-1. (Page 24 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event .Title. of Acti.on Action Remarks. ' I 

                                              '  .*, .** i>.asignator ..

DM12(W2, Diagnose the loss of RHR D-M12(W2,W3)-XHE Both HHSI pumps and RWST suction W3) due to damage to valves, SG steam relief path, subsections 3W, 3V, 3H, and normal power supply to 4 kV 3G, 3F, 38, and 3A of buses lH and lJ are disabled. bench board 1-1 by large Normal offsite power supply MCR cabinet fire at cannot be recovered. Emergency midloop in POS 6 of power is supplied from EDGs. refueling outages. Operator has to reconnect the stub buses at the emergency switchgear room. DM12W4 Same as for DM12(W2,W3) D-M12W4-XHE Same as for DM12(W2,W3) except except the fire event more time is available for Cl occurs in POS 10 of operator diagnosis. N I refueling outages. .i,.. DM12Wl Same as for DM12 (W2, W3) D-M12Wl-XHE Same as for DM12 (W2, W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages *

  • Table G-1. (Page 25 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action Ac:tion . .. 

                                                                                                    **Remarks          '
                                              **.. i>esignatorc *. * .*.    .. l .. :c***               .*:. *.. *:.

DM13 (W2, Diagnose the loss of RHR D-M13(W2,W3)-XHE SG steam relief path and normal W3) due to damage to power supply to 4 kV buses lH subsections 3H, JG, 3F, and lJ are disabled. Normal 3B, and 3A of bench board offsite power supply cannot be 1-1 by large MCR cabinet recovered. Emergency power is fire at midloop in POS 6 supplied from EDGs. Opera'cor has of refueling outages. to reconnect the stub buses at the switchgear room. Use same value as D-M12(W2,W3)- XHE. C) DM13W4 Same as for DM13(W2,W3) D-M13W4-XHE Same as for DM13 (W2 , W3) except I N except th~ fire event more time is available for VI occurs in POS 10 of operator diagnosis. refueling outages. Use same value as. D-M12W4-XHE. DM13Wl Same as for DM13 (W2, W3) D-M13Wl-XHE Same as for DM13 (W2, W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-M12Wl-XHE. 

              /

Table G-1. (Page 26 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

                                                              .. **--.. : .:,.::/**.****.* .. ...

Event Titl.e of Act:l.o-. . . -.

  • Action .*. . :
  • JteaarJts '

I. 

                                       * ..- < * -nes:Lgnator>       .:::  : -:--                 ... -; *.

DMA(W2,W Diagnose the loss of RHR D-MA(W2,W3)-XHE ccw return header trip valves

3) due to damage to 109A and 1098 are disabled.

subsection 38H of vertical board 1-1 by Use same value as D-MD(W2,W3)- small MCR cabinet fire .. at XHE. midloop in POS 6 of refueling outages. DMAW4 Same as for DMA(W2,W3) D-MAW4-XHE Same as for DMA(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-MDW4-XHE. DMAWl Same as for DMA(W2,W3) D-MAWl-XHE Same as for DMA(W2 ,WJ) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value a:s D-MDWl-XHE. DMB(W2,W Diagnose the loss of RHR D-MB (W2, WJ) -XHE Suction or discharge isolation

3) due damage to subsections valves for all three charging 3BD and 3BC of vertical pumps inadvertently close.

board 1-1 or 1-2 by small MCR cabinet fire at Use same value as D-Mll(W2,W3)- midloop in POS 6 of XHE.

  • refueling outages.

Table G-1. (Page 27 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event ' 1 DMBW4 Same as for DMB(W2,W3) D-MBW4-XHE Same as for DMB(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-M11W4-XHE. DMBWl Same as for DMB(W2,W3) D-MBWl-XHE Same as for DMB(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-MllWl-XHE. DMC(W2,W Diagnose the loss of RHR D-MC(W2,W3)-XHE ccw pumps lA and lB are

3) due to damage to disabled.

subsection 3AQ of 0I vertical board 1-2 by N small MCR cabinet fire at -...I midloop in POS 6 of ref~eling outages. DMCW4 Same as for DMC(W2,W3) D-MCW4-XHE Same as for DMC(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. DMCWl Same as for DMC(W2,W3) D-MCWl-XHE Same as for DMC(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages.

Table G-1. (Page 28 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events t .* idtton . r*** .  : auuJts 

                                                                                             **\.*.**

Event . if.. 1t1~ 

                           . ..  . . Abt:i.~n of     .   ..
  • I
                                                    .*.* . .nasignator /  .  :;* ......

DMD(W2,W Diagnose the loss of RHR D-MD(W2,W3)-XHE ccw return header trip valves

3) due to damage to 109A and 109B are disabled.

subsections 3BH, 3BD, and 3BC of vertical board 1-1 by medium MCR cabinet fire at midloop in POS 6 of refueling outages. DMDW4 Same as for DMD(W2, W3) D-MDW4-XHE Same as for DMD(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. C') I DMDWl Same as for DMD(W2,W3) D-MDWl-XHE Same as for DMD(W2,W3) except N 00 except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. DME(W2,W Diagnose the loss of RHR D-ME(W2,W3)-XHE Both normal and emergency power

3) due to damage to vertical supplies to 4 kV bus lH are board 1-6 by MCR cabinet disabled. Operator can start the fire at midloop in POS 6 standby RHR and ccw pump trains.

of refueling outages. DMEW4 Same as for DME(W2,W3) D-MEW4-XHE Same as for DME (W2, W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages.

  • Table G-1. (Page 29 of 130)

Definition of Dynamic Ruman Actions for Fire Initiating Events of .*iftttrJt,r . . . a~arks EVent

  • iriti~ icti6ii .

I DMEWl Same as for DME(W2,W3) D-MEWl-XHE Same as for DME(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. DMF(W2,W Diagnose the loss of RHR D-MF(W2,W3)-XHE ccw return header trip valve

3) due to damage to 120 V AC 109B is disabled.

vital bus 1-II cabinet by MCR cabinet fire at Use same value as D-MD(W2,W3)- niidloop in POS 6 of XHE. refueling outages. DMFW4 Same as for DMF(W2, W3) D-MFW4-XHE Same as for DMF(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator diagnosis. refueling outages. Use same value as D-MDW4-XHE. DMFWl Same as for DMF(W2,W3) D-MFWl-XHE Same as for DMF(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator diagnosis. drained maintenance outages. Use same value as D-MDWl-XHE.

Table G-1. (Page 30 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

                 '1itlei:.tAct:Lon                                                     .*;

it: *****</: *. ...itemarks*** Event 

                                                             *. . olt:f-tor.

I. 

                                         .:.:/.:.::.:*

0 

                                                                              .*: .-::*=*-.
                                                                                            ...................    ). ......

A2E8(W2, Isolate canal from A2-E8(W2,WJ)-XHE Unit 1 RHR, ccw, charging, CPC, WJ) circulating water after HHSI, LHSI, and SG PORVs are loss of RHR following disabled without possibility of unit 1 blackout due to recovery. damage to all switchgear equipment in emergency switchgear room by large fire at midloop in POS 6 of refueling outages. A2E8W4 Same as for A2E8(W2,W3) A2-E8W4-XHE Same as for A2E8(W2,WJ) except except the fire event more time is available for occurs in POS 10 of operator response. C'} I refueling outages. w 0 A2E8Wl Same as for A2E8(W2,WJ) A2-E8Wl-XHE Same as for A2E8 (W2 , WJ) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages.

Table G-1. (Page 31 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event .. Title of Action* .......*. .,.cttc;,Ji .* .*. 

                                            **** . . Designator
                                                                              ..  *.   .         .       *....        . R~uk~-
                                                                                                                                                                          < I
                ...                                                           **. :;; (   * .............. ::*<*-***.    .. *.*.. *:-.*:* ..;.* . . ... .*.****.**.*.*

RE1(W2,W Restore RHR cooling A-El(W2,WJ)-XHE- Train A RHR, CCW, charging, CPC,

3) following loss of RHR due R-5 HHSI, and LHSI equipment lose to damage to 4 kV lH power. Charging suction valves panel by large fire at 1115B (RWST) and 1115C (VCT) are midloop in POS 6 of disabled. LHSI MOVs 1890 A and C refueling outages. are disabled. RHR MOV 1700 may inadvertently close due to hot short (Le., operator has to get inside containment to locally open MOV 1700). SG PORVs are disabled.

RE1W4 Same as for RE1(W2, WJ) A-E1W4-XHE-R Same as for REl (W2, WJ) except except the fire event more time is available for Cl . I occurs in POS 10 of operator response

  • w
,_.            refueling outages.

RElWl Same as for REl (W2, WJ) A-ElWl-XHE-R same as for REl (W2, W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. SE1(W2,W Establish SG bleed and A-El(W2,W3)-XHE- Same equipment failures as for

3) feed after failure to s REl (W2, WJ) .

restore RHR following loss of RHR due to damage Use 1.0 for screening to 4 kV lH panel by large quantification. fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 32 of 130) Definition of Dynamic Human Actions for Pire Initiating Events Event .Title of Action. .*, . Action Remarks 1 

                                                   .. . *.: : Designator> : .* .

FEl(W2,W Align primary feed and A-El(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RE1(W2,W3).

restore RHR following loss of RHR due to damage to 4 kV lH panel by large A-El(W2,W3)-XHE- Similar to A-El(W2,W3)-XHE-F fire at midloop in POS 6 F except SG bleed and feed has of refueling outages. failed. Use same value as A-El(W2,W3)- XHE-F for screening quantification. FE1W4 Same as for FE1(W2,W3) A-E1W4-XHE-F Same as for FE1(W2,W3) except except the fire event A-E1W4-XHE-F more time is available for occurs in POS 10 of operator response. aI refueling outages. w Iv Use same value for both sequences. FElWl Same as for FE1(W2,W3) A-ElWl-XHE-F Same as for A-El(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages.

  • Table G-1. (Page 33 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Ac:tion ... Action .*.. 

                                              . ** I>esfgnator GE1(W2,W Establish gravity feed        A-El(W2,W3)-XHE-   Same equipment failures as for
3) from RWST after failure G REl(W2,W3).

to restore RHR and establish primary feed and bleed following loss of RHR due to damage to 4 kV lH panel by large fire at midloop in POS 6 of refueling outages. GE1W4 Same as for GE1(W2,W3) A-E1W4-XHE-G Same as for GEl(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. C') refueling outages. I w w GE1(W2,W Restore other heat A-El(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR REl(W2,W3). restore RHR, failure to align primary feed and bleed, and success of gravity feed following loss of RHR due to damage to 4 kV lH panel by large fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 34 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action Aetiott I* . ReliarJts 

                          .......         . .. riesignato~ ..        :., :*

RE2(W2,W Restore RHR cooling A-E2(W2,W3)-XHE- Train A RHR, ccw, charging, CPC,

3) following loss of RHR due 5 HHS!, and LHSI MOVs lose power.

to damage to 4 kV stub A-E2(W2,W3)-XHE- RHR pump A, CCW pump A, and CPC bus lH and 480 V lHl R pump A are disabled. Control panel by large fire at cables for charging pumps A/C rnidloop in POS 6 of and IJISI pump A are damaged. refueling outages. Supply breaker to 4 kV bus lH will be tripped open. Charging pump suction valves lll5B/C are disabled. LHSI MOVs 1890A/C are disabled. RHR MOVs 1700 and 1720A, HHS! MOVs 1286A/C, 1287A/C, 1267A, and 1270A, and LHSI MOV 1862A may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700 and 1720A). SG PORVs are disabled. Use same value as A-El(W2,W3)- XHE-R for both sequences. RE2W4 Same as for RE2(W2,W3) A-E2W4-XHE-R Same as for RE2(W2,WJ) except except the fire event A-E2W4-XHE-R more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E1W4-XHE-R for both sequences

  • Table G-1. (Page 35 of 130)

Definition of Dynamic Ruman Actions for Fire Initiating Events Event ~i~I~or~c:ti~n *. ** . *.*. ic::tion* 

                                        * ***            pe,li.gnatoi'.         ..

RE2Wl Same as for RE2(W2,W3) A-E2Wl-XHE-R Same as for RE2(W2,W3) except except the fire event A-E2Wl-XHE-R less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use same value as A-ElWl-XHE-R for both sequences. SE2(W2,W Establish SG bleed and A-E2(W2,W3)-XHE- Same equipment failures as for

3) feed after failure to S RE2(W2,W3).

restore RHR following A-E2(W2,WJ)-XHE-loss of RHR due to damage S Use 1.0 in both sequences for to 4 kV stub bus lH and screening quantification. 480 V lHl panel by large Cl I fire at midloop in POS 6 w of refueling outages. VI FE2(W2,W Align primary feed and A-E2(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RE2(W2,WJ).

restore RHR following A-E2(W2,W3)-XHE-loss of RHR due to damage F Use same value as A-El(W2,WJ)- to 4 kV stub bus lH and XHE~F for both sequences. 480 V lHl panel by large fire at midloop in POS 6 A-E2(W2,W3)-XHE- Similar to A-E2(W2,W3)-XHE-F of refueling outages. F except SG bleed and feed has A-E2(W2,W3)-XHE- failed. F Use same value as A-El(W2,W3)- XHE-F-~ in both sequences for screen quantification **

Table G-1. (Page 36 Of 130) Definition of Dynamic Ruman Actions for Fire xnitiating Events Event T.itle. of Action. Action *Remarks I 

                                    ......* Dea:fgnator FE2W4    Same as for FE2(W2,W3)        A-E2W4-XHE-F      Same as for FE2 (W2, W3) except except the fire event         A-E2W4-XHE-F      more time is available for occurs in POS 10 of           A-E2W4-XHE-F      operator response.

refueling outages. A-E2W4-XHE-F Use same value as A-E1W4-XHE-F for all sequences. FE2Wl same as for FE2(W2,W3) A-E2Wl-XHE-F Same as for A-E2(W2,W3)-XHE-F except the fire event A-E2Wl-XHE-F except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-ElWl-XHE-F for both sequences. GE2(W2,W Establish gravity feed A-E2(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RE2(W2,W3).

to restore RHR and A-E2(W2,W3)-XHE-establish primary feed G Use same value as A-El(W2,W3)- and bleed following loss XHE-G for both sequences. of RHR due to damage to 4 kV stub bus lH and 480 V lHl panel by large fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 37 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title*of Action Action. Remarks ' Designator GE2W4 Same as for GE2(W2,W3) A-E2W4-XHE-G Same as for GE2(W2,W3) except except the fire event A-E2W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E1W4-XHE-G for both sequences. GE2(W2,W Restore other heat A-E2(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RE2(W2,W3). restore RHR, failure to A-E2(W2,W3)-XHE-align primary feed and GR Use same value as A-El(W2,W3}- bleed, and success of XHE-GR for both sequences. aI gravity feed following w loss of RHR due to damage -..J to 4 kV stub bus lH and 480 V lHl panel by large fire at midloop in POS 6 of refueling outages. _j

Table G-1. (Page 38 of 130) Definition of Dynamic Buman Actions for Fire xnitiating Events Event Title of Action *Action Reaarlts

  • I
                ...
  • Designator
  • RE3(W2,W Restore RHR cooling A-E3(W2,W3)-XHE- IJISI pump A loses power. Control
3) following loss of RHR due R cables for RHR pump A, ccw pump to damage to 480 V lH bus A-E3(W2,W3)-XHE- A, charging pumps A/C, CPC pump by large fire at midloop R A, IJISI pump A, and train A MOVs in POS 6 of refueling for the preceding systems are outages. damaged. Supply breaker to 4 kV bus lH will be tripped open.

Charging pump suction valves l115B/C, and IJISI MOVs 1890A/C are disabled. RHR MOVs 1700 and 1720A, HHSI MOVs 1286A/C, 1287A/C, 1267A, and 1270A, and 0I IJISI MOV 1862A may inadvertently uJ close due to hot short (i.e., 00 operator has to get inside containment to locally open MOVs 1700 and 1720A). SG PORVs are . disabled. Use same value as A-El(W2,W3)- XHE-R for both sequences. RE3W4 same as for RE3(W2,W3) A-E3W4-XHE-R Same as for RE3(W2,W3) except except the fire event A-E3W4-XHE-R more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E1W4-XHE-R for both sequences.

Table G-1. (Page 39 of 130) Definition of Dynamic Ruman-Actions for Fire Initiating Events Eyent .* .Title of Action .. Acti~iL: ;?*-**\<*** .. . . llea&rks

  • nesignllto:.i(C ::> .......,..

RE3Wl Same as for RE3 (W2, W3) A-E3Wl-XHE-R Same as for RE3(W2,W3) except except the fire event A-EJWl-XHE-R less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use same value as A-ElWl-XHE-R for both sequences. SE3(W2,W Establish SG bleed and A-E3(W2,W3)-XHE- Same equipment failures as* for

3) feed after failure to s RE3(W2,W3).

restore RHR following A-EJ(W2,W3)-XHE-loss of RHR due to damage s Use 1.0 in both sequences for to 480 V lH bus by large screening quantification. fire at midloop in POS 6 of refueling outages. FE3(W2,W .Align primary feed and A-E3(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RE3(W2,W3).

restore RHR following A-EJ(W2,W3)-XHE-loss of RHR due to damage F Use same value as A-El(W2,W3)- to 480 V lH bus by large XHE-F for both sequences. fire at midloop in POS 6 of refueling outages. A-EJ(W2,W3)-XHE- similar to A-E3(W2,W3)-XHE-F 

                -                            F                                  except SG bleed and feed has A-E3(W2,W3)-XHE-                   failed.

F Use same value as A-El(W2,W3)- XHE-F in both sequences for screening quantification.

Table G-1. (Page 40 of 130) Definition of Dynamic Bum.an Actions for Fire Initiating Events Event T:i.tl~ of Act:i,ori Action ..... R811lar;its j 

                             *.:::. ...           *J)esignator .  .**. .

FE3W4 Same as for FE3(W2,W3) A-E3W4-XHE-F Same as for FE3(W2,W3) except except the fire event A-E3W4-XHE-F more time is available for occurs in POS 10 of A-E3W4-XHE-F operator response. refueling outages. A-E3W4-XHE-F Use same value as A-E1W4-XHE-F for all sequences. FE3Wl Same as for FE3(W2,W3) A-E3Wl-XHE-F Same as for A-E3(W2,W3)-XHE-F except the fire event A-E3Wl-XHE-F except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-ElWl-XHE-F for both sequences. aI GE3(W2,W Establish gravity feed A-E3(W2,W3)-XHE- Same equipment failures as for 0 3) from RWST after failure G RE3(W2,W3). to restore RHR and A-E3(W2,W3)-XHE-establish primary feed G Use same value as A-El(W2,W3)- and bleed following loss XHE-G for both sequences. of RHR due to damage to 480 V lH bus by large fire at midloop in POS 6 of refueling outages. GE3W4 Same as for GE3(W2,W3) A-E3W4-XHE-G Same as for GE3(W2,W3) except except the fire event A-E3W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E1W4-XHE-G for both sequences.

Table G-1. (Page 41 of 130) Definition of Dynamic Human Actions for Fire Initiating Events 

                         ..  .         ..                                              /.
                                               *.1>~signator
                                                  ~c.~ion * * * :..
 ~erit             Title oi Act:i.oJi.                          ..
                                                                    ...                          aea~Jtilil.*      '

GEJ Restore other heat A-E3(W2,W3)-XHE- Same equipment failures as for {W2,WJ)R removal after failure to GR RE3(W2,W3). restore RHR, failure to A-E3(W2,W3)-XHE-align primary feed and GR Use same value as A-El(W2,W3)- bleed, and success of XHE-GR for both sequences. gravity feed following - loss of RHR due to damage to 480 V lH bus by large fire at midloop in POS 6 of refueling outages.

Tal:>le G-1. (Page 42 of 130) Definition of Dynamic Buman Actions for Pire Znitiating Events Event ....... * .idt1d11 * * *. . * * * : * * . * * *. * * ** * * * 

                                                                      .. 1* ****a*'.t.*'.*o**.****r**.***.:.*. *.*.*.
                                                     *.**.*n******e**.*.*s                                       . :...*,      * ..........*           **.       *
  • aeataris ** * ...
                                  .* * *.: . . /:..                        gn'
                                                                                                                          ,.( ,. . ***\..- :: * .. :' )*** */>******>i:.....**,.,,,,*. ,............. *..

SE4 Establish SG bleed and A-E4(W2,W3)-XHE- Train B RHR, ccw, charging, CPC, (W2,W3) feed following loss of S HHSI, and IJISI MOVs lose power. RHR due to damage to 4 kV RHR pump B, ccw pump B, and CPC stub bus lJ and 480 V lJl pump Bare disabled. Control panel by large fire at cables for all pumps and MOVs in midloop in POS 6 of RHR, ccw, charging, CPC, and refueling outages. , IJISI systems and PORV block valves are damaged. Supply breaker to 4 kV bus lJ will be tripped open. RHR pump A, ccw pump A, charging pump A, and CPC pump A may trip. RHR MOVs 1700, 1701, and 1720A/B, HHS! MOVs 1286A/B/C, 1287A/B/C, 1267A, 1269A, and 1270A, and LIISI MOVs 1862A/B may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHS! suction MOVs ll15B/C, and IJISI MOVs 1a90A/B/C are disabled. Use 1.0 for screening quantification.

  • Table G-1. (Page 43 of 130)

Definition of Dynamic Buman Actions for Fire Initiating Events Event .Tltle of action .* ...*** . . ***** * *.* *

  • A~tioli R-arks < I
                                                 .* *** .*. / Designator FE4(W2,W Align primary feed and                     A-E4(W2,W3)-XHE-    Same equipment failures as for
3) bleed following loss of li' SF.4 (Til? Til'l \

RHR due to damage to 4 kV A-E4(W2,W3)-XHE- Similar to A-E4(W2,W3)-XHE-F stub bus lJ and 480 V lJl F except SG bleed and feed has panel by large fire at failed. midloop in POS 6 of refueling outages. Use same value as A-E4(W2,W3)- XHE-F for screening quantification. FE4W4 Same as for FE4(W2,W3) A-E4W4-XHE-F Same as for FE4(W2,W3) except except the fire event A-E4W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value for both sequences. FE4Wl Same as for FE4(W2,WJ) A-E4Wl-XHE-F Same as for A-E4(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages.

Table G-1. (Page 44 of 130) Definition of Dynamic Human Actions for Fire Xnitiating Events Event Title of Action Action . Remark& 

                                     * * * *.*. Designator GE4(W2,W Establish gravity feed      A-E4(W2,W3)-XHE-       Same equipment failures as for
3) from RWST after failure G SE4(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to 4 quantification. kV stub bus lJ and 480 V lJl panel by large fire at midloop in POS 6 of refueling outages. GE4W4 Same as for GE4(W2,W3) A-E4W4-XHE-G Same as for GE4(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification. GE4(W2,W Restore other heat A-E4(W2,W3)-XHE- Same equipment failures as for J)R removal after failure to GR SE4(W2,W3). align primary feed and bleed and success of Use 1.0 for screening gravity feed following quantification. loss of RHR due to damage to 4 kV stub bus lJ and 480 V lJl panel by large fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 45 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

  . Event      *Title of Action            : Action .                  Remarks          ' '

Designatoi:' .. RE4A Control RHR flow using A-E4A-XHE-R Train B RHR, ccw, charging, CPC, RCS level and temperature HHSI, and LHSI MOVs lose power. indication following RHR pump B, CCW pump B, and CPC damages to 4 kV stub bus pump Bare disabled. Control lJ and 480 V lJl panel, cables for all pumps and MOVs in and instrumentation RHR, ccw, charging, CPC, and associated with RHR flow LHSI systems and PORV block control valve HCV-1758 by valves are damaged. Supply large fire. breaker to 4 kV bus lJ will be tripped open. RHR pump A, ccw pump A, charging pump A, and CPC pump A may trip. RHR MOVs 1700, 1701, and 1720A/B, HHS! MOVs 1286A/B/C, 1287A/B/C, 1267A, 1269A, and 1270A, and LHSI MOVs 1862A/B may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHS! suction MOVs l115B/C, and LHSI MOVs 1890A/B/C are disabled. RHR pump A will be lost if the RHR flow control is unsuccessful. Use same value for (W2,W3), W4, and Wl.

Table G-1. (Page 46 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events Event ** : Ti tie of ActiQ11 . 

                                                                                 ~
                                                                              . . *...~itgni,~ant*.**.*****o**.*.r****.*.**.*
:. . :.:.**.:. . ./ . .*.* .*.*****D<e T' >. . .

Reaa.rJc:s 

         .*::,. :.                                                                                                            ..*........*.*.
  • i(:.:C * * ,*.....*.*.*.*,*,/.)\.,*.*:.:\_:;....-:..

SE4A(W2, Establish SG bleed and A-E4A(W2,W3)- Train B RHR, ccw, charging, CPC, W3) feed following loss of XHE-S HHSI, and IJISI MOVs lose power. RHR due to damage to 4 kV RHR pump B, ccw pump B, and CPC stub bus lJ and 480 V lJl pump Bare disabled. Control panel, and cables for all pumps and MOVs in instrumentation RHR, ccw, charging, CPC, and associated with RHR flow IJISI systems and PORV block control valve HCV-1758 by valves are damaged. Supply large fire at midloop in breaker to 4 kV bus lJ will be POS 6 of refueling tripped open. RHR pump A, ccw outages. pump A, charging pump A, and CPC pump A may trip. RHR MOVs 1700, 1701, and 1720A/B, HHSI MOVs 1286A/B/C, 1287A/B/C, 1267A, 1269A, and 1270A, and IJISI MOVs 1862A/B may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHSI suction MOVs l115B/C, and LHSI MOVs 1890A/B/C are disabled. RHR pump A is damaged due to runout caused by failure of RHR flow control valve HCV-1758. Use 1.0 for screening quantification.

Table G-1. (Page 47 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title( of Action *. 0 *Remarks . 

                                        *..*. * *.**. . . . *.* .* * *.*.*D* *:e*.A.*s.*****i*.~gn.J
                                                                                       * .c a*~t*. . o**r* */ ..* .....*.* .i.\;:_:

FE4A(W2, Align primary feed and A-E4A(W2,W3)- Same equipment failures as for W3) bleed following loss of XHE-F SE4A(W2,W3). RHR due to damage to 4 kV stub bus lJ and 480 V lJl Use same value as A-E4(W2,W3)- panel, and XHE-F instrumentation associated with RHR*flow A-E4A(W2,W3)- Similar to A-E4A(W2,W3)-XHE-F control valve HCV-1758 by XHE-F except SG bleed and feed has large fire at midloop in failed. POS 6 of refueling outages. Use same value as A-E4(W2,W3)- XHE-F for screening quantification. C') I FE4AW4 Same as for FE4A(W2,W3) A-E4AW4-XHE-F Same as for FE4A(W2,W3) except ...J except the fire event A-E4AW4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value A-E4W4-XHE-F for both sequences. FE4AW1 Same as for FE4A(W2,W3) A-E4AW1-XHE-F Same as for A-E4A(W2,W3)-XHE-F e~cept the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-E4Wl-XHE-F.

Table G-1. (Page 48 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Titleof.Act:lJn *

  • 1 GE4A(W2, Establish gravity feed A-E4A(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G SE4A(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to 4 quantification. kV-stub bus lJ and 480 V lJl panel and instrumentation associated with RHR flow control valve HCV-1758 by large fire at midloop in POS 6 of refueling outages. C) I GE4AW4 same as for GE4A(W2,W3) A-E4AW4-XHE-G Same as for GE4A(W2,W3) except ~ 00 except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification.

Table G-1. (Page 49 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event It Title. ~f Action * ****. 1>eatgn*f.or 

                                                                   .:i~tton:. * *.* ** *.                 :R~llrks               ; \

GE4A(W2, Restore other heat A-E4A(W2,W3)- Same equipment failures as for W3)R removal after failure to XHE-GR SE4A(W2,W3). align primary feed and bleed and success of Use LO for screening gravity feed following quantification. loss of RHR due-t..a damage to 4 kV stub bus lJ and 480 V lJl panel and instrumentation associated with RHR flow control valve HCV-1758 by large fire at midloop in POS 6 of refueling ClI outages. .l>,. \0

Table G-1. (Page so of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 1 Event .Action .. 

                                           ... Designate>~ // .*.* ***           .   .. **.- ..*.*.. ****

SE5(W2,W Establish SG bleed and A-E5(W2,W3)-XHE- LHSI pump B loses power. Control

3) .feed after failure to S cables for all pumps and MOVs in restore RHR following RHR, CCW, Charging, CPC, and loss of RHR due to damage LHSI systems and RCS PORV block to 480 V lJ bus by large valves are damaged. Supply fire at midloop in POS 6 breaker to 4 kV bus lJ will be of refueling outages. tripped open. Normally operating RHR pump A, ccw pump A, charging pump A, and CPC pump A may trip.

RHR MOVs 1700, 1701, and 1720A/B, HHS! MOVs 1286A/B/C, 1287A/B/C, 1267A, 1269A, and 1270A, and LHSI MOVs 1862A/B may inadvertently close due to hot Cl I short (i.e., operator has to get Vi 0 inside containment to locally open MOVs 1700, 1701, and 1720A/B). The SG PORVs, HHS! suction MOVs l115B/C, and LHSI MOVs 1890A/B/C are disabled. Use 1.0 fa~ screening quantification.

Table G-1. (Page 51 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action --em-rite I 

                                       ..
  • n::1t:U°:tor .

FE5(W2,W Align primary feed and A-E5(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F SE5(W2,W3).

restore RHR following loss of RHR due to damage Use same value as A-E4(W2,W3)- to 480 V lJ bus by large XHE-F fire at midloop in POS 6 -- of refueling outages. A-E5(W2,W3)-XHE- Similar to A-E5(W2,W3)-XHE-F F except SG bleed and feed has failed. Use same value as A-E4(W2,W3)- XHE-F for screening quantification. Cl I FE5W4 same as for FE5(W2,W3) A-E5W4-XHE-F Same as for FE5(W2,W3) except VI except the fire event A-E5W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E4W4-XHE-F for both sequences. FE5Wl Same as for FE5(W2,W3) A-E5Wl-XHE-F Same as for A-E5(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. -Use same value as A-E4Wl-XHE-F

Table G-1. (Page 52 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action . *.....*.*. A~t:i.on** Remarks*** 

                                        **. Designator               **

GE5(W2,W Establish gravity feed A-E5(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G . SE5(W2,W3).

to restore RHR and establish primary feed Use 1.0 for screening and bleed following loss quantification. of RHR due to damage to 480 V lJ bus by large fire at midloop in POS 6 of refueling outages. GE5W4 Same as for GE5(W2,W3) A-E5W4-XHE-G Same as for GE5(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. C') refueling outages. I Vl Use 1.0 for screening N quantification. GE5(W2,W Restore other heat A-E5(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SE5(W2,W3). restore RHR, failure to align primary feed and Use 1.0 for screening bleed, and success of quantification.

  • gravity feed following loss of RHR due to damage
  • to 480 V lJ bus by large fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 53 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event 'l'~tle. of Action* ***.* . *Action* . . * ** 

                                                                                                                                   ** Remarks
                                                                                                                                          ... .. I
     **.                               ****-.*.... i ties:i.gnatci>>r : iX                                ...

2CHE8(W2 Align primary feed and A-E8(W2,W3)-XHE- Unit 1 RHR, ccw, charging, CPC, , W3) bleed using unit 2 2CH HHSI, LHSI, and SG PORVs are charging pump after loss disabled without possibility of of RHR following unit 1 recovery. blackout due to damage to all switchgear equipment in emergency switchgear room by large fire at midloop in POS 6 of refueling outages. 2CHE8W4 Same as for 2CHE8(W2,W3) A-E8W4-XHE-2CH Same as for 2CHE8(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. 2CHE8Wl Same as for 2CHE8 (W2, W3) A-E8Wl-XHE-2CH Same as for 2CHE8 (W2, W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages.

Table G-1. (Page S4 ~f 130) Definition of Dynamic Human Actions for Fire Initiating Events Event .T.i tle of Action Action Remarks 

                      ..., .                >l)esignato.r RE9Wl   Restore RHR cooling            A-E9Wl-XHE-R      Control cables for train A RHR, following loss of RHR due                        ccw, charging, CPC, HHS!, and to damage to "H"                                 LHSI MOVs are damaged. Charging emergency switchgear room                        pump C and LHSI pump A are by cable or transient                            disabled. RHR pump A and ccw combustible fire at                              pump A may trip. LHSI MOVs 1890 midloop in POS 6 of                              A and Care disabled. RHR MOV drained maintenance                              1700 may inadvertently close due outages.                                         to hot short (i.e., operator has to get inside containment to locally open MOV 1700). SG PORVs are disabled.

Cl I Use same value as A-ElWl-XHE-R V, +>- FE9Wl Align primary feed and A-E9Wl-XHE-F same equipment failures as for bleed after failure to RE9Wl. restore RHR following loss of RHR due to damage Use same value as A-ElWl-XHE-F to "H" emergency switchgear room by cable or transient combustible fire at midloop in POS 6 of drained maintenance outages.

  • Table G-1. (Page 55 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action * .Action ' I 

          ....                                Desi.gnato:r < .* .*

SE10(W2, Establish SG bleed and A-E10(W2,W3)XHE- control cables for RHR pumps A W3) feed following loss of S and B, CCW pumps A and B, RHR due to damage to "J" Charging pumps A, B, an.d C, CPC emergency switchgear room pumps A and B, IJISI pumps A and by cable or transient B, RHR, ccw, charging, CPC, combustible fire at HHS!, IJISI, and RCS PORV block midloop in POS 6 of MOVs of both trains, and SG refueling outages. PORVs are damaged. RHR pump B, ccw pump B, charging pumps Band C, CPC pump B, LHSI pumps A and B, and SG PORVs are disabled. Normally operating RHR pump A, C) ccw pump A, charging pump A, and I VI CPC pump A may trip. IJISI MOVs VI 1890 A, B, and care disabled. RHR MOV 1700 or 1701 may inadvertently close due to hot short (i.e., operator has to get inside containment to locally open both MOVs 1700 and 1701). RCS PORV block valves 1535 and 1536 may inadvertently close. Use 1.0 for screening quantification.

Table G-1. (Page 56 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action . Action ReiaarJts 

                                                                       .    . .
  • I Designator.*. . ...

FE10(W2, Align primary feed and A-E10(W2,W3)- same equipment failures as for W3) bleed following loss of XHE-F SE10(W2,W3). RHR due to damage to "J" emergency switchgear room Use same value as A-E4(W2,W3)- by cable or transient XHE-F combustible fire at midloop in POS 6 of A-ElO(W2,W3)- Similar to A-E10{W2,W3)-XHE-F refueling outages. XHE-F except SG bleed and feed has failed. Use same value as A-E4(W2,W3)- XHE-F for screening quantification. FE10W4 Same as for FE10(W2,W3) A-E10W4-XHE-F Same as for FE10{W2,W3) except except the fire event A-ElOW4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-E4W4-XHE-F for both sequences. FElOWl Same as for FE10(W2,W3) A-ElOWl-XHE-F Same as for A-ElO(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-E4Wl-XHE-F

  • Table G-1. (Page 57 of 130)

Definition of Dynamic Buman Actions for Fire Initiating Events Event Title. of '.Action >:  :.: . *> ictioil Remarks . 

                                              *** : n**icinator . *
  • GE10(W2, Establish gravity feed A-ElO(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G SE10(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to quantification. 480 V "J" emergency switchgear room by cable or transient combustible fire at midloop in POS 6 of refueling outages. GE10W4 Same as for GE10(W2,W3) A-ElOW4-XHE-G Same as for GE10(W2,WJ) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification. GE10(W2, Restore other heat A-ElO(W2,WJ)- Same equipment failures as for WJ)R removal after failure to XHE-GR SE10(W2,W3). align primary feed and bleed and success of Use 1.0 for screening gravity feed following quantification. loss of RHR due to damage to 480 V "J" emergency switchgear room by cable or transient combustible fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 58 of 130) Definition of Dynamic Ruman Actions for Piro znitiating Events EVent Title of ~ctioii 

                                                                   . Action.
                                                       *: ** . . . Designator : **.
                                                                                                      *Remarks           l RE11(W2, Restore RHR cooling                           A-Ell(W2,W3)-                   RHR pump A and  ccw  pump A are W3)      following loss of                              XHE-R                          disabled.

operating RHR train due to damage to supply Use same value as A-R4(W2,W3)- breaker in 4 kV lH panel XHE-R cabinet by small fire at midloop in POS 6 of refueling outages. RE11W4 Same as for RE11(W2,W3) A-E11W4-XHE-R Same as for RE11(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Cl Use same value as A-RAW4-XHE-R I VI 00 REllWl Same as for REll(W2,W3) A-EllWl-XHE-R Same as for RE11(W2,W3) except except the fire event less tinie is available for occurs in POS 6 of operator response. drained maintenance outages. Use same value as A-R4Wl-XHE-R SEll(W2, Establish SG bleed and A-Ell(W2,W3)- Same equipment failures as for W3) feed after failure to XHE-S RE11(~2,W3). restore RHR following loss of operating RHR Use same value as A-RA(W2,W3)- train due to damage to XHE-S supply breaker in 4 kV lH panel cabinet by small fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 59 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events Event *.. Titltt of Action Act.ion " R..aaarJts. 1 naslgnator .* FE11(W2, Align primary feed and A-Ell(W2,W3)- Same e_quipment failures as for W3) bleed after failure to XHE-F RE11(W2,W3). restore RHR following loss of operating RHR Use same value as A-RA(W2,W3)- train due to damage to XHE-F supply breaker in 4 kV lH panel cabinet by small A-Ell(W2,W3)- Similar to A-Ell(W2,W3)-XHE-F fire at midloop in POS 6 XHE-F except SG bleed and feed has of refueling outages. failed. Use same value as A-RA(W2,W3)- XHE-F Cl FE11W4 Same as for FE11(W2,W3) A-E11W4-XHE-F Same as for FE11(W2,W3) except I UI except the fire event A-E11W4-XHE-F more time is available for

  • '° occurs in POS 10 of operator response.

refueling outages. Use same value as A-RAW4-XHE-F for both sequences. FEllWl Same as for FE11(W2,W3) A-EllWl-XHE-F Same as for A-Ell(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-RAWl-XHE-F

Tabla G-1. (Page 60 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event ***

  • Titl4it of :Action .* Action < :* ** < *
                                                   ..*1>11,..:Lmia~c,f * * * .*. * * . . .

GE1l(W2, Establish gravity feed A-Ell(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G RE11(W2,W3). to restore RHR and establish primary feed Use same value as A-RA(W2,W3)- and bleed following loss XHE-G of operating RHR train due to damage to supply breaker in 4 kV lH panel cabinet by small fire at midloop in POS 6 of refueling outages. GE11W4 Same as for GE11(W2,W3) A-E11W4-XHE-G Same as for GEll(W2,W3) except 

        'except the fire event                                                      more time is available for occurs in POS 10 of                                                        operator response.

refueling outages. Use same value as A-RAW4-XHE-G GE11(W2, Restore other heat A-Ell(W2,W3)- Same equipment failures as for W3)R removal after failure to XHE:...GR RE11(W2,W3). restore RHR, failure to align primary feed and Use same value as A-RA(W2,W3)- bleed, and success of XHE-GR gravity feed following loss of operating RHR train due to damage to supply breaker in 4 kV lH panel cabinet by small fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 61 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action Action Reaarks . l Designator RE12(W2, Restore RHR cooling A-E12(W2,W3)- Vital bus 1-III is disabled. W3) following loss of XHE-R Normally operating RHR pump A is operating RHR train due damaged by runout. to damage to UPS lAl or 1A2 by small fire at Use same value as A-VB(W2,W3)- midloop in POS 6 of XHE-R refueling outages. RE12W4 Same as for RE12 (W2, W3) A-E12W4-XHE-R Same as for RE12(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-VBW4-XHE-R ClI O'I RE12Wl Same as for RE12(W2,W3) A-E12Wl-XHE-R Same as for RE12(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use same value as A-VBWl-XHE-R SE12(W2, Establish SG bleed and A-E12(W2,W3)- Same equipment failures as for W3) feed after failure to XHE-S RE12(W2,W3). restore RHR following loss of operating RHR Use same value as A-VB(W2,W3)- train due to damage to XHE-S UPS lAl or 1A2 by small fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 62 of 130) Definition of Dynamic Buman Actions for Pire znitiating Events 

    .EVent                          Of *Adtio:n:: :                                                      -.. : .. *
                                                      *...* . . *...... iciti~ll * . *.* **** . :* . . .
Titl.e. ,.1
                                                                   ; bas£gn4tpr                              :* .*

FE12(W2, Align primary feed and A-E12(W2,W3}- Same ~quipment failures as for W3) bleed after failure to XHE-F RE12(W2,W3). restore RHR following loss of operating RHR Use same value as A-VB(W2,W3)- train due to damage to XHE-F UPS lAl or 1A2 by small fire at midloop in POS 6 A-E12(W2,W3}- Similar to A-E12(W2,W3}-XHE-F of refueling outages. XHE-F except SG bleed and feed has failed. Use same value as A-VB(W2,WJ)- XHE-F FE12W4 Same as for FE12(W2,W3) A-E12W4-XHE-F Same as for FE12(W2,W3} except C} I except the fire event A-E12W4-XHE-F more time is available for ~ occurs in POS 10 of operator response. refueling outages. Use same value as A-VBW4-XHE-F for both sequences. FE12Wl Same as for FE12(W2,W3} A-E12Wl-XHE-F Same as for A-E12(W2,W3}-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-VBWl-XHE-F

Definition of Dynamic Buman Actions for Pire Initiating Events Table G-1. (Page 63 of 130) 

.BVent*                                                                        ***<       ..... .iQti~n>**..      *** * *
.::.::::-*-.::*>*=*** . : \ \ ,
  • oesigJlator: . *
  • 1 GE12(W2, Establish gravity feed A-E12(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G RE12(W2,W3).

to restore RHR and establish primary feed Use same value as A-VB(W2,W3)- and bleed following loss XHE-G of operating RHR train due to damage to UPS lAl or 1A2 by small fire at midloop in POS 6 of refueling outages. GE12W4 Same as for GE12(W2,W3) A-E12W4-XHE-G Same as for GE12(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-VBW4-XHE-G GE12(W2, Restore other heat A-E12(W2,W3)- Same equipment failures as for W3)R removal after failure to XHE-GR RE12(W2,W3). restore RHR, failure to align primary feed and Use same value as A-VB(W2,W3)- bleed, and success of XHE-GR gravity feed following loss of operating RHR train due to damage to UPS lAl or 1A2 by small fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 64 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events Event. Tlti* of Action* . '::.:: :~~tjc:,~ .  : .*.**.. >>, . . . ..* Raart1f ' l 

               *..*.. * > :         * *. :,.:: ::*   .:*De11iqnator: ..........., ,:.> , . * ,, ::::. .  ....... .

RN1(W2,W Restore RHR cooling A-Nl(W2,W3)-XHE- Transfer bus Fis disabled and

3) following loss of RHR due R normal power supply to 4 kV to damage to 4 kV A-Nl(W2,W3)-XHE- buses lH and 2J.is lost.

transfer bus F by small R Emergency power supply from EOG fire at midloop in POS 6 or backfeed from service of refueling outages. transformers is possible. Use same values as A-R4(W2,W3)- XHE-R and A-El(W2,WJ)-XHE-R, respectively. RN1W4 Same as for RN1(W2,W3) A-N1W4-XHE-R Same as for RN1(W2,WJ) except except the fire event A-N1W4-XHE-R more time is available for occurs in POS 10 of operator response. refueling outages. Use same values as A-RAW4-XHE-R and A-E1W4-XHE-R, respectively. RNlWl Same as for RN1(W2,W3) A-NlWl-XHE-R Same as for RN1(W2,W3) except except the fire event A-NlWl-XHE-R less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use same values as A-R4Wl-XHE-Rand A-ElWl-XHE-R, respectively.

Table G-1. (Page 65 of 130) Definition of Dynamic Hum.an Actions for Fire Initiating Events Event Titici of. Ac:tion Action Designator ' .. SN1(W2,W Establish SG bleed and A-Nl(W2,W3)-XHE- Same equipment failures as for

3) feed after failure to S RN1(W2,W3). The semi vital bus restore RHR following A-Nl(W2,W3)-XHE- which provides control power to loss of RHR due to damage S SG PORVs has only one source of to 4 kV transfer bus F by power - MCC lJl-1 if power is small fire at midloop in not recovered from alternate POS 6 of refueling source.

outages. Use same values as A-RA(W2,W3)- XHE-S and A-El(W2,W3)-XHE-S, respectively. FN1(W2,W Align primary feed and A-Nl(W2,W3)-XHE- Same equipment failures as for Cl I

3) bleed after failure to F RN1(W2,W3).

0\ VI restore RHR following A-Nl(W2,W3)-XHE-loss of RHR due to damage F Use same values as A-RA(W2,W3)- to 4 kV transfer bus F by XHE-F and A-E1(W2,W3)-XHE-F, small fire at midloop in respectively. POS 6 of refueling outages. A-N1(W2,W3)-XHE- Similar to A-Nl(W2,W3)-XHE-F and F A-N1(W2,W3)-XHE-F except SG A-N1(W2,W3)-XHE- bleed and feed has failed. F Use same values as A-RA(W2,W3)- XHE-F and A-El(W2,W3)-XHE-F, respectively.

Table G-1. (Page 66 of 130) Definition of Dynamic Buman Actions for Pire Xnitiating Events BVent '* . : A~~j..p~< .* * .,

Designato~, *.. . . : ,. *'\

FN1W4 Same as for FN1(W2,W3) A-NlW4-XHE-F same as for FN1(W2,WJ) except except the fire event A-NlW4-XHE-F more time is available for occurs _in POS 10 of A-NlW4-XHE-F operator response. refueling outages. A-N1W4-XHE-F Use same value as A-RAW4-XHE-F for A-NlW4-XHE-F and A-N1W4-XHE-F. Use same value as A-E1W4-XHE-F for A-N1W4-XHE-F-11 and A-N1W4-XHE-F FNlWl Same as for FN1(W2,W3) A-NlWl-XHE-F Same as for A-Nl(W2,W3)-XHE-F except the fire event A-NlWl-XHE-F except less time is available occurs in POS 6 of for operator response. C') I drained maintenance °'°' outages. Use same values as A-RAWl-XHE-F and A-ElWl-XHE~F, respectively. GNl (W2, W Establish gravity feed A-Nl(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RN1(W2,W3).

to restore RHR and A-Nl(W2,W3)-XHE-establish primary feed G Use same values as A-RA(W2,WJ)- and bleed following loss XHE-G and A-El(W2,W3)-XHE-G, of RHR due to damage to 4 respectively. kV transfer bus F by small fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 67 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event . Title *of icti~n Act.ion *lleaarks Desi~ator \ GN1W4 Same as for GN1(W2,W3) A-N1W4-XHE-G Same as for GN1(W2,W3) except except the fire event A-N1W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use same values as A-RAW4-XHE-Gand A-E1W4-XHE-G, respectively. GN1(W2,W Restore other heat A-Nl(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RN1(W2,W3). restore RHR, failure to A-Nl(W2,W3)-XHE-align primary feed and GR Use same values as A-RA(W2,W3)- bleed, and success of XHE-GR and A-El(W2,W3)-XHE-GR, gravity feed following respectively. loss of RHR due to damage to 4 kV transfer bus F by small fire at midloop in POS 6 of refueling outages. RN2 (W2, W Restore RHR cooling A-N2(W2,W3)-XHE- Transfer bus F and normal bus lA

3) following loss of RHR due R are disabled. Normal power to damage to 4 kV A-N2(W2,W3)-XHE- supply to 4 kV buses lH and 2J transfer bus F by large R is lost. Emergency power supply fire at midloop in POS 6 from EDG is possible.

of refueling outages. Use same values as A-R4(W2,W3)- XHE-R and A-El(W2,W3)-XHE-R, respectively.

1----- Table G-1. (Page 68 of 130) Defini tio.n of Dynamic Ruman Actions for Fire J:ni tiating Events Event Title of-Action ** .* .Action Remarks . ' 

                                                .. l)esiqnatoi RN2W4     Same as for RN2(W2,W3)       A-N2W4-XHE-R        Same as for RN2(W2,W3) except
                ,except the fire event        A-N2W4-XHE-R        more time is available for occurs in POS 10 of                              operator response.

refueling outages. Use same values as A-RAW4-XHE-R and A-E1W4-XHE-R, respectively. RN2Wl same as for RN2 (Wi, WJ) A-N2Wl-XHE-R Same as for RN2(W2,W3) except except the fire event A-N2Wl-XHE-R less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use same values as A-R4Wl-XHE-Rand A-ElWl-XHE-R, respectively. SN2(W2,W Establish SG bleed and A-N2(W2,W3)-XHE""'. Same equipment failures as for aI 3) feed after failure to s RN2(W2,W3). The semi vital bus O'I 00 restore RHR following A-N2(W2,W3)-XHE- which provides control power to loss of RHR due to damage S SG PORVs has only one source of to 4 kV transfer bus F by power - MCC lJl-1 if power is large fire at midloop in not recovered from alternate POS 6 of refueling source. outages. Use same values as A-RA(W2,W3)- XHE-S and A-El(W2,W3)-XHE-S, respectively.

  • Table G-1. (Page 69 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action Action ReaarJts Designator FN2(W2,W Align primary feed and A-N2(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RN2 (W2 , W3) .

restore RHR following A-N2(W2,W3)-XHE-loss of RHR due to damage F Use same values as A-RA(W2,W3)- to 4 kV transfer bus F by XHE-F and A-El(W2,W3)-XHE-F, large fire at midloop in respectively. POS 6 of refueling outages. A-N2(W2,W3)-XHE- Similar to A-N2(W2,W3)-XHE-F and F A-N2(W2,W3)-XHE-F except SG A-N2(W2,W3)-XHE- bleed and feed has failed. F Use same values as A-RA(W2,W3)- XHE-F and A-El(W2,W3)-XHE-F, respectively. FN2W4 Same as for FN2(W2,W3) A-N2W4-XHE-F Same as for FN2(W2,W3) except except the fire event A-N2W4-XHE-F more time is available for occurs in POS 10 of A-N2W4-XHE-F operator response. refueling outages. A-N2W4-XHE-F Use same value as A-RAW4-XHE-F for A-N2W4-XHE-F-5 and A-N2W4-XHE-F Use same value as A-E1W4-XHE-F for A-N2W4-XHE-F and A-N2W4-XHE-F

Table G-1. (Page 70 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events Event Ti.tie of .. Actic.n Action -Rell,ij:'k~- I i---. 

                                                  <-* . riesign*tor                            .      ..

FN2Wl Same as for FN2(W2,W3) A-N2Wl-XHE-F Same as for A-N2(W2,W3)-XHE-F except the fire event A-N2Wl-XHE-F except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same values as A-RAWl-XHE-Fand A-ElWl-XHE-F, respectively. GN2(W2,W Establish gravity feed A-N2(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RN2(W2,W3).

to restore RHR and A-N2(W2,W3)-XHE-establish primary feed G Use same values as A-RA(W2,W3)- and bleed following loss XHE-G and A-El(W2,W3)-XHE-G, of RHR due to damage to 4 respectively. kV transfer bus F by C) large fire at midloop in I POS 6 of refueling ~ outages. GN2W4 Same as for GN2(W2,W3) A-N2W4-XHE-G Same as for GN2(W2,W3) except _except the fire event A-N2W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use same values as A-RAW4-XHE-Gand A-E1W4-XHE-G, respectively.

Table G-1. (Page 71 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event ititl~of Action Action .Remarks ' nasignat.or *. GN2(W2,W Restore other heat A-N2(W2,W3)-XHE- Same equipment failures as for

3) R removal after failure to GR RN2(W2,WJ).

restore RHR, failure to A-N2(W2,W3)-XHE-align primary feed and GR Us.e same values as A-RA (W2, WJ) - bleed, and success of XHE-GR and A-El(W2,W3)-XHE-GR, gravity feed following respectively. loss of RHR due to damage to 4 kV transfer bus F by large fire at midloop in POS 6 of refueling outages. RN3(W2,W Restore RHR cooling A-NJ(W2,W3)-XHE- All normal switchgear room

3) following loss of RHR due R equipment is disabled. Offsite to damage to all normal power cannot be recovered.

C) switchgear room equipment Emergency power is supplied from I ....J by large fire at midloop EDG. in POS 6 of refueling outages. RN3W4 Same as for RNJ (W2, W3) A-N3W4-XHE-R Same as for RNJ (W2 , W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. RN3Wl Same as for RNJ(W2,W3) A-N3Wl-XHE-R Same as for RN3(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages.

Table G-1. (Page 72 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Ti tie of Acti.on - .*. Action Reaarks ' 

                                     < : Designator SNJ(W2,W Establish SG bleed and        A-N3(W2,W3)-XHE-  Same equipment failures as for
3) feed after failure to s RN3(W2,W3).

restore RHR following loss of RHR due to damage to all normal switchgear room equipment by large fire at midloop in POS 6 of refueling outages.

  • Table G-1. (Page 73 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event. Title or Action .... Action 

                                                                        '              Remark.a             .,

Designator FN3(W2,W Align primary feed and A-N3(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RN3(W2,W3).

restore RHR following loss of RHR due to damage to all normal switchgear A-N3(W2,W3)-XHE- Similar to A-N3(W2,W3)-XHE-F room equipment by large F except SG bleed and feed has fire at midloop in POS 6 failed. of refueling outages. FN3W4 Same as for FN3 (W2, W3) A-N3W4-XHE-F Same as for Fl".13 (W2,W3) except except the fire event A-N3W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Cl I

  • ..J Use same value for both w sequences.

FN3Wl Same as for FN3(W2,W3) A-N3Wl-XHE-F Same as for A-N3(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages.

Table G-1. (Page 74 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action Action Remarks* 

                                           * . De!iighator>

GN3(W2,W Establish gravity feed A-N3(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RN3(W2,W3).

to restore RHR and establish primary feed and bleed following loss of RHR due to damage to all normal switchgear room equipment by large fire at midloop in POS 6 of refueling outages. GN3W4 Same as for GN3{W2,W3) A-N3W4-XHE-G Same as for GN3(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. Cl I refueling outages. i GN3(W2,W Restore other heat A-N3(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RN3(W2,W3). restore RHR, failure to align primary feed and bleed, and success of gravity feed following loss of RHR due to damage to all normal switchgear room equipment by large fire at midloop in POS 6 of refueling outages.

  • Table G-1. (Page 75 of 130)

Definition of Dynamic Human Actions for Fire Initiating Events Event . Action . . ***.**.* .. Rt911i~ks 

                                             ) Designator i    .. :. :.>i... .... :/.......

SV1(W2,W Establish SG bleed and A-Vl(W2,W3)-XHE- Both trains of RHR, both trains

3) feed following loss of 8 of LllSI, charging pump B, CCW RHR due to damage to all pump A, and HHS! MOVs 1115 B, c, cables in cable vault and D, and E are disabled. Control tunnel area by large cables for RCS PORV block valves transient combustible or are damaged. Suction and cable fire at midloop in discharge MOVs for all charging POS 6 of refueling pumps and RCS PORV block valves outages. may inadvertently change position. SG PORVs are disabled.

Use 1.0 for screening C) quantification. I ...J Vl FV1(W2,W Align primary feed and A-Vl(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SV1(W2,W3). Operator has to open RHR due to damage to all valves locally and manually.

cables in cable vault and tunnel area by large transient combustible or A-Vl(W2,W3)-XHE- Similar to A-Vl(W2,W3)-XHE-F cable fire at midloop in F except SG bleed and feed has POS 6 of refueling failed. outages. Use same value as A-Vl(W2,W3)- XHE-F for screening quantification.

Table G-1. (Page 76 of 130) Definition o.f Dynamic Buman Actions for Fire I:ni tiating Events Event* ii:tle.of Ac=t1on jc:tion *. 

                                                                *-. *** Deaignatoi:'.
                                                                                                                   .. Rqa~ks
  • l' FV1W4 Same as for FVl (W2, W3) A-V1W4-XHE-F Same as for FV1(W2,W3) except except the fire event A-VlW4-XHE-F more time is available for occurs in POS 10 of operator response.

refueling outages. Use same value for both sequences. FVlWl Same as for FVl (W2, W3) A-VlWl-XHE-F Same as for A-Vl(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. 0I ...J 0\- GV1(W2,W Establish gravity feed A-Vl(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G SV1(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to quantification. all cables in cable vault and tunnel area by large transient combustible or cable fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 77 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Bient *

  • Tit1,f.of .lQtion Remarks.

GV1W4 Same as for GV1(W2,W3) A-V1W4-XHE-G Same as for GV1(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification. GV1(W2,W Restore other heat A-Vl(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SV1(W2,W3). align primary feed and bleed and success of Use 1.0 for screening gravity feed following quantification. C') loss of RHR due to damage I -..J to all cables in cable -..J vault and tunnel area by large transient combustible or cable fire at midloop in POS 6 of refueling outages. SC1(W2,W Establish SG bleed and A-Cl(W2,W3)-XHE- Both RHR pumps are disabled.

3) feed following loss of S Power cables for MOVs 1700 and RHR due to damage to 1701 are damaged.

cables for both RHR pumps in containment by transient combustible or cable fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 78 of 130) Definition of Dynamic Ruman Actions for Pire Initiating Events 

                                                                                                                                   **/*a~~~~:******

Event 

                                **=*
                     ,Title\of Action         .;-**
                                                              . _;\i
                                                                       ,
  • i~t:1.on** . * * .* *******
                                                 . _:. ; . \tr //         t>'aiig1111tci,:' * *. .*I       : , , ..   : ._._./:                ..       .....     ..

FCl(W2,W Align primary feed and A-Cl(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SCl (W2 ,WJ) .

RHR due to damage to cables for both RHR pumps in containment by transient combustible or A-Cl(W2,W3)-XHE- Similar to A-C1(W2,W3)-XHE-F cable fire at midloop in F except SG bleed and feed has POS 6 of refueling failed. outages. FC1W4 Same as for FCl (W2 ,W3) A-C1W4-XHE-F Same as for FC1 (W2,W3) except except the fire event A-ClW4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. a Use same value for both I -.J sequences. CX) FClWl Same as for FC1(W2,W3) A-ClWl-XHE-F Same as for A-Cl(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages .

Table G-1. (Page 79 of 130)

  • Definition of Dynamic Human Actions for Fire Znitiating Events
     . Event      .Title of Action .    * ..... . .*.*Action.     *                ..Rtamarks     ' I
                                            .*.... /Designator ..

GCl{W2,W Establish gravity feed A-Cl(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G SCl(W2,W3).

to establish primary feed and bleed following loss of RHR due to damage to cables for both RHR pumps in containment by transient combustible or cable fire at midloop in POS 6 of refueling outages. C) GC1W4 Same as for GCl(W2,W3) A-ClW4-XHE-G Same as for GCl(W2,W3) except I -.J except the fire event more time is available for \0 occurs in POS 10 of operator response. refueling outages. GC1(W2,W Restore other heat A-Cl(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SCl (W2, W3)

  • align primary feed and bleed and success of gravity feed following loss of RHR due to damage to cables for both RHR pumps in containment by transient combustible or cable fire at midloop in POS 6 of refueling outages.

Table G-1. (Page so of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action 

                                      .      ...      *AC(ibil* *. <                                          : Remarks
                                             >. . tDes!giiatoi:!:i*-* .*. .
                                                  ...                                                                   I SM1(W2,W Establish SG bleed and            A-Ml(W2,W3)-XHE-               Both RHR pumps are disabled.
3) feed following loss of s RHR due to damage to Use same value as A-M5(W2,W3)-

control for both RHR XHE-S. pumps by small MCR cabinet fire at midloop in POS 6 of refueling outages .. FM1(W2,W Align primary feed and A-Ml(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SM1(W2,W3).

RHR due to damage to control for both RHR Use same value as A-MS(W2,W3)- Cl pumps by small MCR XHE-F. I 00 cabinet fire at midloop 0 in POS 6 of refueling A-Ml(W2,W3)-XHE- Similar to A-Ml(W2,W3)-XHE-F outages. F except SG bleed and feed has failed. Use same value as A-MS(W2,W3)- XHE-F FM1W4 Same as for FMl (W2, W3) A-MlW4-XHE-F Same as for FMl (W2, W3) except except the fire event A-M1W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-MSW4-XHE-F for both sequences.

  • Table G-1. (Page 81 of 130)

Definition of Dynamic Buman Actions for Fire Initiating Events Event* --Title of Action -_-- * *._:/:l\Ctioll* * **:.t .:; . :: : _Ra111trks-

: - b~sigriat~r<****

FMlWl same as for FM1(W2,W3) A-MlWl-XHE-F Same as for A-Ml(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-MSWl-XHE-F GM1(W2,W Establish gravity feed A-Ml(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G SM1(W2,W3).

to establish primary feed and bleed following loss Use same value as A-M8(W2,W3)- of RHR due to damage to XHE-G. control for both RHR C) pumps by small MCR I 00 cabinet fire at midloop in POS 6 of refueling outages. GM1W4 Same as for GMl(W2,W3) A-MlW4-XHE-G Same as for GMl(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M8W4-XHE-G 

                                                                                                                 - - -- - - - - - _ _J

Table G-1. (Page 82 of 130) Definition of Dynamic Buman Actions for Fire J:nitiating Events Event Title _of ** Ac=.t;lon -._-.- Action*- -**** * ..-- *-*::--*** 

                                                                                         .*.*,                              ----.--*. a~~1cs '

l 

                          . :*._       -*--** * *-.- -. _\ riisignitor.                :

GM1(W2,W Restore other heat A-Ml(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SMl(W2,W3). align primary feed and bleed and success of Use same value as A-M8(W2,W3)- gravity feed following XHE-GR. loss of RHR due to damage to control for both RHR pumps by small MCR cabinet fire at midloop in POS 6 of refueling outages. MM2(W2,W Make up RCS inventory A-M2(W2,W3)-XHE- All three charging pumps are

3) following loss of RHR due M disabled.

Cl I damage to charging pumps 00 N by small MCR cabinet fire Use 1. o. at midloop in POS 6 of refueling outages. MM2W4 Same as for MM2(W2,W3) A-M2W4-XHE-M Same as for _MM2 (W2, W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. 

                                                                                         -Use 1. o.

MM2Wl Same as for MM2 (W2, W3) A-M2Wl-XHE-M Same as for MM2(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1. o.

Table G-1. (Page 83 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

             * . ~t~i~ o.f .~tr~tl             :. *                                                                     ..

Event 

                                                        *.* * .*. . . Action<.              ...
                                                                                                                      ..Rmi~ks .: *
                            ***-* *,c:c:*: .*           *******>:fias{gnati:>'r:::*i
                                                                                     /.:: .................... **.              .
                                                                                                                                    . , i RM2(W2,W Restore RHR cooling*                            A-M2(W2,WJ)-XHE-              Same equipment failures as for
3) following loss of RHR due R MM2(W2,WJ).

to damage to charging pumps by small MCR Use 1.0. cabinet fire at midloop in POS 6 of refueling outages. RM2W4 Same as for RM2(W2,WJ) A-M2W4-XHE-R Same as for RM2(W2,WJ) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1. o. aI RM2Wl Same as for RM2(W2,W3) A-M2Wl-XHE-R Same as for RM2(W2,WJ) except 00 ~ except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1. o. SM2(W2,W Establish SG bleed and A-M2(W2,WJ)-XHE- Same equipment failures as for

3) feed after failure to s MM2(W2,W3). RCS makeup or RHR make up RCS inventory or A-M2(W2,W3)-XHE- restoration has failed.

failure to restore RHR s following loss of RHR due Use 1.0 for A-M2(W2,WJ)-XHE-S to damage to charging Use same value as A-M5(W2,WJ)- pumps by small MCR XHE-S for A-M2(W2,W3)-XHE-S cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 84 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Title of Action . .

  • Action Remarks
                                         ** :nesignator FM2(W2,W Align primary feed and      A-M2(W2,W3)-XHE-  Same equipment failures as for
3) bleed after failure to F MM2(W2,W3). RCS makeup or RHR restore RHR following A-M2(W2,W3)-XHE- restoration has failed.

loss of RHR due to damage F to charging pumps by Use 1.0 for A-M2(W2,W3)-XHE-F small MCR cabinet fire at Use same value as A-M8(W2,W3)- midloop in POS 6 of' XHE-F for A-M2(W2,W3)-XHE-F refueling outages. A-M2(W2,W3)-XHE- Similar to A-M2(W2,W3)-XHE-F and F A-M2(W2,W3)-XHE-F except SG A-M2(W2,W3)-XHE- bleed and feed has failed. F Use 1.0 for A-M2(W2,W3)-XHE-F Use same value as A-M8(W2,W3)- C) I XHE-F for A-M2(W2,W3)-XHE-F 00 ~ FM2W4 Same as for FM2(W2,W3) A-M2W4-XHE-F Same as for FM2(W2,W3) except except the fire event A-M2W4-XHE-F more time is available for occurs in POS 10 of A-M2W4-XHE-F operator response. refueling outages. A-M2W4-XHE-F Use 1.0 for A-M2W4-XHE-F Use same value as A-M8W4-XHE-F for A-M2W4-XHE-F

Table G-1. (Page es of 130) Definition of Dynamic Human Actions for Pire Initiating Events Event TJ,tle of Action . . Action 

                                       * .* **. :Designator FM2Wl    Same as for FM2(W2,W3)         A-M2Wl-XHE-F      Same as for A-M2(W2,W3)-XHE-F except the fire event          A-M2Wl-XHE-F      and A-M2(W2,W3)-XHE-F except occurs in POS 6 of                               less time is available for drained maintenance                              operator response.

outages. Use 1.0 for A-M2Wl-XHE-F. Use same value as A-MBWl-XHE-F for A-M2Wl-XHE-F. GM2(W2,W Establish gravity feed A-M2(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G MM2(W2,W3). RCS makeup or RHR to restore RHR and A-M2(W2,W3)-XHE- restoration, and primary feed establish primary feed G and bleed have failed.

and bleed following loss of RHR due to damage to Use 1.0 for A-M2(W2,W3)-XHE-G. C) charging pumps by small Use A-MB(W2,W3)-XHE-G for A-I 00 MCR cabinet fire at M2(W2,W3)-XHE-G. VI midloop in POS 6 of refueling outages. GM2W4 Same as for GM2(W2,W3) A-M2W4-XHE-G Same as for GM2(W2,W3) except except the fire event A-M2W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for A-M2W4-XHE-G. Use A-MBW4-XHE-G for A-M2W4-XHE-G.

Table G-1. (Page 86 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action Action I Remarks 

                                              ** Designator                 .,: * ... :.

GM2(W2,W Restore other heat A-M2(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RM2(W2,W3). RCS makeup or RHR restore RHR-, failure to A-M2(W2,W3)-XHE- restoration, and primary feed align primary feed and GR and ble~d have failed and bleed, and success of primary gravity feed has been gre31ity feed following successful. loss of RHR due to damage to charging pumps by Use 1.0 for A-M2(W2,W3)-XHE-small MCR cabinet fire at GRUse A-M8(W2,W3)-XHE-GR for A-midloop in POS 6 of M2(W2,W3)-XHE-GR refueling outages. RM3(W2,W Restore RHR cooling A-M3(W2,W3)-XHE- Normal power supply to 4 kV

3) following loss of RHR due R buses lH and lJ is disabled.

C') to damage to normal power Offsite power cannot be I 00 0-, supply to 4 kV buses lH recovered. Emergency power is and lJ by medium MCR supplied from EDG. Operator has cabinet fire at midloop to reconnect the stub buses at in POS 6 of refueling the emergency switchgear room. outages. Use same value as A-Ml2(W2,W3)- XHE-R. RM3W4. Same as for RM3(W2,W3) A-M3W4-XHE-R Same as for RM3(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M12W4-XHE-R

Table G-1. (Page 87 of 130) Definition of Dynamic Ruman Actions for Pire Initiating Events Event Title.of Ac.tion

  • iction. aeaartts '

Oeu1 !gha.to*r ***

  • RM3Wl Same as for RM3 (W2 ,W3) A-M3Wl-XHE-R Same as for RM3 (W2 ,W3) except except the fire event less time is available for occurs in POS 6 of operator response.

drained maintenance outages. Use same value as A-Ml2Wl-XHE-R SM3(W2,W Establish SG bleed and A-M3(W2,W3)-XHE- Same equipment failures as* for

3) feed after failure to s RM3(W2,W3).

restore RHR following loss of RHR due to damage to normal power supply to 4 kV buses lH and lJ by medium MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page* 88 of 130) Definition of Dynamic BWllan Actions for Pire Initiating Events Event .Title.of Action *. Action* *aeaarks  ; Desigiiatbi *. FM3(W2,W Align primary feed and A-M3(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F RM3(W2,W3).

restore RHR following loss of RHR-due to damage Use same value as A-Ml2(W2,W3)- to normal power supply to XHE-F 4 kV buses lH and lJ by - medium fire at midloop in A~M3(W2,W3)-XHE- Similar to A-M3(W2,W3)-XHE-F POS 6 of refueling F except SG bleed and feed has outages. failed. Use same value as A-ME(W2,W3)- XHE-F. C') FM3W4 Same as for FM3 (W2,W3) A-M3W4-XHE-F Same as for FM3(W2,W3) except I 00 except the fire event A-M3W4-XHE-F more time is available for 00 occurs in POS 10 of operator response. refueling outages. Use same value as A-M12W4-XHE-F for both sequences. FM3Wl Same as for FMJ (W2 ,WJ) A-M3Wl-XHE-F Same as for A-M3(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance -- outages. Use same value as A-M12Wl-XHE-F

Table G-1. (Page 89 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event Tit,le of Actioft Action * "* < .Remarks 

                                             * .. ** ISeaig:n.ator GM3(W2,W Establish gravity feed        A-M3(W2,W3)-XHE-           Same equipment failures as for
3) from RWST after failure G RM3 (W2, W3) .

to restore RHR and establish primary feed Use same value as A-M12(W2,W3)- and bleed following loss XHE-G of RHR due to damage to normal power supply to 4 kV buses lH and lJ by medium MCR cabinet fire at midloop in POS 6 of refueling outages. GM3W4 Same as for GM3(W2,W3) A-M3W4-XHE-G Same as for GM3(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. C) I Use same value as A-M12W4-XHE-G 00 l,C)

Table G-1. (Page 90 of 130) Definition of Dynamic Ruman Actions for Pire Initiating Events Event ...*: ..*.* 

                                                                                                ... Raarks. ' I GM3(W2,W   Restore other heat           A-M3(W2,W3)-XHE-   Same equipment failures as for 3)R        removal after failure to     GR                 RM3(W2,W3).

make up RCS inventory or failure to restore RHR, Use same value as A-Ml2(W2,W3)- failure to align primary XHE-GR feed and bleed, and success of gravity feed following loss of RHR due to damage to normal power supply to 4 kV buses lH and lJ by medium MCR cabinet fire at midloop in POS 6 of refueling outages. SM4(W2,W Establish SG bleed and A-M4(W2,W3)-XHE- Both RHR pumps, cold leg 0 3) feed following loss of S isolation valves at HHS! pump \Cl 0 RHR due to damage to discharge, and IJISI pumps and subsections JAE and 3Z of the associated valvs are bench board 1-1 by medium disabled. MCR cabinet fire at midloop in POS 6 of Use same value as A-M5(W2,W3)- refueling outages. XHE-S.

Table G-1. (Page 91 of 130) Definition of Dynamic Human Actions for Fire Initiating Events EVent Title of: act:lon :ActiQn **** .. . ** 

                                                                                                    ' Jleil11rJtJi I
                                            * :1>e11lgnator,,: . *.             . **.*:.

FM4(W2,W Align primary feed and A-M4(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SM4(W2,W3).

RHR due to damage to subsections 3AE and 3Z of Use 1.0 for screening bench board 1-1 by medium quantification. MCR cabinet fire at midloop in POS 6 of A-M4(W2,W3)-XHE- Similar to A-M4(W2,W3)-XHE-F refueling outages. F except SG bleed and feed has failed

  • Use 1.0 for screening quantification.

FM4W4 Same as for FM4(W2,W3) A-M4W4-XHE-F Same as for FM4(W2,W3) except except the fire event A-M4W4-XHE-F more time is available for Cl occurs in POS 10 of operator response. refueling outages. '-° Use 1.0 in both sequences for screening quantification. FM4Wl Same as fqr FM4 (W2 ,W3) A-M4Wl-XHE-F Same as for A-M4(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response:. drained maintenance outages. Use 1. 0 for screening quantification.

Table G-1. (Page 92 of 130) Definition of Dynamic Buman Actions for Fire xnitiating Bvents Event .* Ti tie of Action Action . Remarks

  • l
                                               . Designator, GM4(W2,W Establish gravity feed          A-M4(W2,W3)-XHE-  Same equipment failures as for
3) from RWST after failure G SM4(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to quantification. subsections 3AE and 3Z of bench board 1-1 by medium MCR cabinet fire at midloop in POS 6 of refueling outages. GM4W4 Same as for GM4(W2,W3) A-M4W4-XHE-G Same as for GM4(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. 0I refueling outages. l,O N Use 1.0 for screening quantification. GM4(W2,W Restore other heat A-M4(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SM4(W2,W3). align primary feed and bleed and success of Use 1.0 for screening gravity feed following quantification. loss of RHR due to damage to subsections 3AE and 3Z of bench board 1-1 by medium MCR cabinet fire at midloop in POS 6 of refueling outages*.

Table G~1. (Page 93 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of.Action . Action. Remarks ' 

                                         .**... Designator SM5(W2,W Establish SG bleed and      A-M5(W2,WJ)-XHE-  Both RHR pumps, both HHS! pumps
3) feed following loss of s and RWST suction valves, and RHR due to damage to LHSI pumps and the associated subsections JAE, JZ, JW, valvs are disabled.

and JV of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. FM5(W2,W Align primary feed and A-M5(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SM5(W2,WJ).

RHR due to damage to subsections JAE, JZ, JW, Use 1. 0 for screening and JV of bench board 1-1 quantification. by large MCR cabinet fire Q A-M5(W2,W3)-XHE- Similar to A-M5(W2,WJ)-XHE~F I \0 at midloop in POS 6 of w refueling outages. F except SG bleed and feed has failed. Use 1.0 for screening quantification. FM5W4 Same as for FM5(W2,WJ) A-M5W4-XHE-F Same as for FM5(W2,WJ) except except the fire event A-M5W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 in both sequences for screening quantification.

Table G-1. (Page 94 of 130) Definition of Dynamic Buman Actions for Pire Initiating Events 

                                                      . :: ic:tic,n *. .
                                                          ..:"\                        ..                     ..*.
                                                                                                                    .           *:**aeaarks Event      Tif1*. :~f 1'~ii<<?ri :.          :*****
                                     **,* ... : ...... ybijsignator: ..... * ..

FM5Wl same as for FM5(W2,W3) A-M5Wl-XHE-F Same as for A-M5{W2,W3)-XHE-F except the fire event except less time is available occurs in .'POS 6 of for operator response. drained maintenance outages. Use 1.0 for screening quantification. GM5(W2,W Establish gravity feed A-M5(W2,W3)-XHE- same equipment failures as for

3) from RWST after failure G SM5(W2,W3).

to establish primary feed and bleed following loss Use 1.0 for screening of RHR due to damage to quantification. subsections JAE, 3Z, 3W, and 3V of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. GM5W4 Same as for GM5(W2,W3) *A-M5W4-XHE-G Same as for GM5 (W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. 

        -                                                                                Use 1.0 for screening quantification .

Table G-1. (Page 9_5 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event. *. . :::_~.flt~- ,' .s GM5(W2,W Restore other heat A-M5(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SM5(W2,W3). align primary feed and bleed and success of Use 1.0 for screening gravity feed following quantification. loss of RHR due to damage to subsections 3AE, 3Z, JW, and 3V of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages~ SM8(W2,W Establish SG bleed and A-M8(W2,W3)-XHE- Both RHR pumps, all three HHSI

3) feed following loss of S pumps, and RWST suction valves RHR due to damage to for HHSI pumps are disabled.

subsections 3Z, 3W, and 3V of bench board 1-1 by Use same value as A-M5(W2,W3)- medium MCR cabinet fire XHE-S. at midloop in POS 6 of refueling outages. FM8(W2,W Align primary feed and A-M8(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F SM8(W2,W3).

RHR due to damage to subsections 3Z, 3W, and 3V of bench board 1-1 by A-M8(W2,W3)-XHE- Similar to A-M8(W2,W3)-XHE-medium MCR cabinet fire F except SG bleed and feed has at midloop in POS 6 of failed. refueling outages.

Table G-1. (Page 9fi of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event T:IJie of Action *.Reaarks 

                                      * * . * ..
  • o!Y1\\.'1tor* . * .

0 

                                                                       .............                 ' I FM8W4    same as for FMS (W2 ,W3)       A-M8W4-XHE-F                  Same as for F-M8(W2,W3) except except the fire event          A-M8W4-XHE-F                  more time is available for occurs in POS 10 of                                          operator response.

refueling outages. Use same value for both 

                 -                                                     sequences.

FM8Wl Same as for FMS (W2, W3) A-MSWl-XHE-F Same as for A-M8(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. GM8(W2,W Establish gravity feed A-M8(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G SM8(W2,W3).

to establish primary feed and bleed following loss of RHR due to damage to subsections 3Z, 3W, and JV of bench board 1-1 by medium MCR cabinet fire. at midloop in POS 6 of refueling outages. GM8W4 Same as for GM8(W2,W3) A-M8W4-XHE-G Same as for GM8(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages .

Table G-1. (Page 97 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events 

 .Event                                        . Ac:tton .               Remarks
                                  . * *..* : . i>esicpiator               *.

GM8(W2,W Restore other heat A-M8(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SM8(W2,W3). align primary feed and bleed and success of gravity feed following loss of RHR due to damage to subsections 3Z, 3W, and 3V of bench board 1-1 by medium MCR cabinet fire at midloop in POS 6 of refueling outages. SM9(W2,W Establish SG bleed and A-M9(W2,W3)-XHE- Both RHR pumps, all three HHS!

3) feed following loss of S pumps, RWST suction valves for RHR due to damage to HHS! pumps, and SG steam relief subsections JZ, JW, 3V, path are disabled.

3H, JG, and JF of bench board 1-1 by large MCR Use 1. O. cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 98 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

                                              .(::.-.               .                         '             -

Event 'l'itleof Action _Action_ _aemar1cs: ' I 

                                                        - _ Designator .- . __

FM9(W2,W Align primary feed and A"".".'M9 (W2, W3) -XHE- Same equipment failures as for

3) bleed following loss of F SM9(W2,W3).

RHR due to damage to subsections JZ, 3W, JV, Use same value as A-M8(W2,W3)- 3H, JG, and JF of bench XHE-F. board 1-1 by large*McR cabinet fire at midloop A-M9(W2,W3)-XHE- Similar to A-M9(W2,W3)-XHE-F in POS 6 of refueling F except SG bleed and feed has outages. failed. Use same value as A-M8(W2,W3)- XHE-F for screening quantification. FM9W4 Same as for FM9(W2,W3) A-M9W4-XHE-F Same as for FM9 (W2, WJ) except except the_ fire event A-M9W4-XHE-F more time is available for occurs in POS 10 of operator response. C'} I refueling outages. \0 00 Use same value as A-M8W4-XHE-F for both sequences. FM9Wl Same as for FM9(W2,W3) A-M9Wl-XHE-F Same as for A-M9(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-M8Wl-XHE-F.

Table G-1. (Page 99 of 130) Definition of Dynamic Ruman Actions for Pire Initiating Events Event --Title of Actfon  :*-. . 

                                                                                 .. Rparkr(.       ' '

GM9(W2,W Establish gravity feed A-M9(W2,W3)-XHE- same equipment failures as for

3) from RWST after failure G SM9(W2,W3).

to establish primary feed and bleed following loss Use same value as A-M8(W2,W3)- of RHR due to damage to XHE-G. subsections .3 z, 3W, 3V, 3H, 3G, and 3F of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. GM9W4 Same as for GM9(W2,W3) A-M9W4-XHE-G Same as for GM9(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. aI refueling outages. \0 \0 Use same value as A-M8W4-XHE-G GM9(W2,W Restore other heat A-M9(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR SM9(W2,W3). align primary feed and bleed and success of Use same value as A-M8(W2,W3)- gravity feed following XHE-GR loss of RHR due to damage to subsections 3Z, 3W, 3V, 3H, 3G, and 3F of bench board 1 by large MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 100 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events _ ....nt T~~l<<t.of Acti:<>n * . Action ..* Remarks

  • Designator MM11(W2, Make up RCS inventory A-Mll(W2,WJ)- All three charging pumps and SG WJ) following loss of RHR due XHE-M steam relief path are disabled.

damage to subsections JW, JV, JH, JG, and JF by Use 1. o. medium MCR cabinet fire at midloop in POS 6 of refueling outages. MM11W4 Same as for MM11(W2,WJ) A-M11W4-XHE-M Same as for MMll(W2,W3) except except the fire event more time *is available for occurs in POS 10 of operator response. refueling outages. Use 1.0. a MMllWl same as for MM11(W2,W3) A-MllWl-XHE-M Same as for MMll (W2, WJ) . except I except the fire event less time is available for 8 occurs in POS .6 of operator response. drained maintenance outages. Use Lo. RM11(W2, Restore RHR cooling A-Mll(W2,WJ)- Same equipment failures as for WJ) following loss of RHR due XHE-R MM11(W2,WJ). to damage to subsections JW, JV, JH, JG, and JF by Use 1. o. medium MCR cabinet fire at midloop in POS 6 of refueling outages .*

  • Table G-1. (Page 101 of 130)

Definition of Dynamic Buman Actions for Pire Initiating Events Event Title. of Action * . .. i~t:i.on: :iuiarits I ' ties:ignator ****. RM11W4 Same as for RM11(W2,W3) A-M11W4-XHE-R Same as for RMil(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1. o. RMllWl Same as for RM11(W2,W3) A-MllWl-XHE-R Same as for RM11(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0. SM11(W2, Establish SG bleed and A-Mll(W2,W3)- same equipment failures as for W3) feed after failure to XHE-S MM11(W2,W3). RCS makeup or RHR make up RCS inventory or A-Mll(W2,W3)- restoration has failed. Cl I. failure to restore RHR XHE-S 0 following loss of RHR due Use 1.0 for screening to damage to subsections quantification. 3W, 3V, 3H, 3G, and 3F by medium MCR cabinet fire at midloop in POS 6 of refueling outages. _J

Table G-1. (Page 102 of 130) Definition of Dynamic Human ~ctions for Fire Initiating Events Event Title of Action Action Remarks  : Designator FM11(W2, Align primary feed and A-Mll(W2,WJ)- Same equipment failures as for W3) bleed after failure to XHE-F MM11(W2,WJ). RCS makeup or RHR restore RHR following A-Mll(W2,W3)- restoration has failed. loss of RHR due to damage Ani:.-.r to subsections JW, JV, A-Mll(W2,WJ)- ffi~il~U t@rAAMil1¥a2J3)tXHff~~F JH, JG, and 3F by medium XHE-F ffDO AaHeliWl~WJlsXKEMi(W~yW9~-SG MCR cabinet fire at A-Mll(W2,W3)- klgap 161 AQR~l.W~,W~flKRE-F midloop in POS 6 of XHE-F refueling outages. Use 1.0 for A-Mll(W2,W3)-XHE-F. Use same value as A-M8(W2,WJ)- XHE-F for A-Mll(W2,WJ)-XHE-F FM11W4 Same as for FM11(W2,WJ) A-M11W4-XHE-F Same as for FMll(W2,WJ) except except the fire event A-M11W4-XHE-F more time is available for occurs in POS 10 of A-M11W4-XHE-F operator response. C) I refueling outages. A-M11W4-XHE-F 0 Use 1.0 for A-M11W4-XHE-F. Use l*.J same value as A-M8W4-XHE-F for A-Ml1W4-XHE-F

Table G-1. (Page 103 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events Event Titie*of A~t;ion . ACti61l 

                                             *. Deslgnator FMllWl   Same as for FM1l(W2,W3)     A-MllWl-XHE-F        Same as for A-Mll(W2,W3)-XHE-F except the fire event       A-MllWl-XHE-F        and A-Mll(W2,W3)-XHE-F except occurs in POS 6 of                               less time is available for drained maintenance                              operator response.

outages. Use 1.0 for A-MllWl-XHE-F. Use same value as A-MSWl-XHE-F for A-MllWl-XHE-F. GM1l(W2, Establish gravity feed A-Mll(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G MM11(W2,W3). RCS makeup or RHR to restore RHR and A-Mll(W2,W3)- restoration, and primary feed establish primary feed XHE-G and bleed have failed. and bleed following loss C) of RHR due to damage to Use 1.0 for A-Mll(W2,W3)-XHE-G. I subsections 3W, 3V, 3H, Use A-M8(W2,W3)-XHE-G for A-Mll 8 3G, and 3F by medium MCR (W2,W3)-XHE-G. cabinet fire at midloop in POS 6 of refueling outages. GM11W4 Same as for GMll{W2,W3) A-M11W4-XHE-G Same as for GM11(W2,W3) except except the fire event A-M11W4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for A-M11W4-XHE-G. Use A-M8W4-XHE-G for A-MllW4-XHE-G

Table G-1. (Page 104 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events EVent Title of Act:$.on Action Remarks 

                                               .* Designator GMll (W2, Restore other heat           A-Mll(W2,W3)-      Same equipment failures as for W3)R      removal after failure to     XHE-GR             RM1l(W2,W3). RCS makeup or RHR restore RHR, failure to      A-Mll(W2,W3)-      restoration, and primary feed align primary feed and       XHE-GR             and bleed have failed and bleed, and success of                           primary gravity feed has been gravity fee.d_ following                        successful.

loss of RHR due to damage to subsections 3W, 3V, Use 1.0 for A-Mll(W2,W3)-XHE-3H, 3G, and 3F by medium GRUse A-M8(W2,W3)-XHE-GR for A-MCR cabinet fire at Mll(W2,W3)-XHE~GR midloop in POS 6 of refueling outages. C) I RM12(W2, Restore RHR cooling A-Ml2(W2,W3)- Both HHS! pumps and RWST suction l2 W3) following loss of RHR due XHE-R valves, SG steam relief path, to damage to subsections and normal power supply to 4 kV 3W, 3V, 3H, 3G, 3F, 3B, buses lH and lJ are disabled. and 3A of bench board 1-1 Normal offsite power supply by large MCR cabinet fire cannot be recovered. Emergency at midloop in POS 6 of power is supplied from EDGs. refueling outages. Operator has to reconnect the stub buses at the emergency switchgear room. RM12W4 same as for RM12(W2,W3) A-M12W4-XHE-R Same as for RM12(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages.

Table G-1. (Page 105 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Title of Action .. Action ...*.. *.- Reaarks* ,. Designator. . RM12Wl Same as for RM12 (W2, W3) A-M12Wl-XHE-R Same as for RM12(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. SM12(W2, Establish SG bleed and A-M12(W2,W3)- Same equipment failures as for W3) feed following loss of XHE-S RM12(W2,W3). RHR due to damage to subsections 3W, 3V, 3H, Use 1. o. 3G, 3F, 3B, and 3A of bench board 1-1 by large C) MCR cabinet fire at a-I midloop in POS 6 of refueling outages.

Table G-1. (Page 106 of 130) Definition of Dynamic Hum.an Actions for Fire Initiating Events Event Title of Action Action Remu!'ui  : 0 Desigilai;or 1, ..... * .. FM12(W2, Align primary feed and A-M12(W2,W3)- Same equipment failures as for W3) bleed following loss of XHE-F RM12(W2,W3). RHR due to damage to subsections 3W, 3V, 3H, Use 1. O for screening 3G, 3F, 3B, and 3A of quantification. bench board 1-1 by large MCR cabinet fire at A-M12(W2,W3)- -Similar to A-Ml2(W2,W3)-XHE-F midloop in POS 6 of XHE-F except SG bleed and feed has refueling outages. failed. FM12W4 Same as for FM12(W2,W3) A-Ml2W4-XHE-F Same as for FM12(W2,W3) except except the fire event A-Ml2W4-XHE-F more time is available for C'l 0 I occurs in POS 10 of refueling outages. operator response. °' Use same value for both sequences. FM12Wl Same as for FM12 (W2, W3) A-M12Wl-XHE-F Same as for A-M12(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. .

Table G-1. (Page 107 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events Event Title of*Action ... Action . . Remarks . :

  • nesignat.oi- .  ;

GM12(W2, Establish gravity feed A-M12(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G RM12(W2,W3). to establish primary feed and bleed following loss of RHR due to damage to subsections 3W, 3V, 3H, 3G, 3F, 3B, and 3A of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. GM12W4 Same as for GM12 (W2, W3) A-M12W4-XHE-G Same as for GM12 (W2 , W3) except C) except the fire event more time is available for I 0 occurs in POS 10 of operator response. -..,I refueling outages. GM12(W2, Restore other heat A-Ml2(W2,W3)- same equipment failures as for W3}R removal after failure to XHE-GR RM12(W2,W3). align primary feed and bleed and success of gravity feed following loss of RHR due to damage to subsections 3W, 3V, 3H, 3G, 3F, 3B, and 3A of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 108 of 130) Definition of Dynamic Human Actions for Fire znitiating Events Event >Titie of Action **-*.;._ ..... * . . . ' J RM13(W2, Restore RHR cooling A-M13(W2,W3)- SG steam relief path and normal W3) following loss of RHR due XHE-R power supply to 4 kV buses lH to damage to subsections and lJ are disabled. Normal 3H, JG, 3F, 3B, and 3A of offsite power supply cannot be bench board 1-1 by large recovered. Emergency power is MCR cabinet fire at supplied from EDGs. Operator has - midloop in PCS 6 of to reconnect the stub buses at refueling outages. the switchgear room. Use same value as A-M12(W2,W3)- XHE-R. a 0 I 00 RM13W4 Same as for RM13(W2,W3) except the fire event occurs in POS 10 of A-M13W4-XHE-R Same as for RM13(W2,W3) except more time is available for operator response. refueling outages. Use same value as A-M12W4-XHE-R RM13Wl Same as for RM13(W2,W3) A-M13Wl-XHE-R Same as for RM13(W2,W3) except except the fire event .less time is available for occurs in POS 6 of operator response. drained maintenance outages

  • Use same value as A-M12Wl-XHE-R
  • Table G-1. (Page 109 of 130)

Definition of Dynamic Human Actions fo~ Fire Xnitiating Events Event Title of.Action Action Remarks  : Designator SM13(W2, Establish SG bleed and A-M13(W2,W3)- Same equipment failures as for W3) feed following loss of XHE-S RM13(W2,W3). RHR due to damage to subsections JH, JG, JF, Use 1. 0. 3B, and JA of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. FM13(W2, Align primary feed and A-M13(W2,W3)- Same equipment failures as for WJ) bleed following loss of XHE-F RM13(W2,W3). RHR due to damage to C') ~ I subsections 3H, 3G, JF, 3B, and JA of bench board 1-1 by large MCR cabinet A-Ml3(W2,W3)- Use same value as A-M12(W2,W3)- XHE-F Similar to A-M13(W2,W3)-XHE-F fire at midloop in POS 6 of refueling outages. XHE-F except SG bleed and feed has failed. Use same value as A-Ml2(W2,W3)- XHE-F FM13W4 Same as for FM13 (W2, W3) A-M13W4-XHE-F Same as for FM13 (W2, W3) except except the fire event A-M13W4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M12W4-XHE-Ffor both sequences.

Table G-1. (Page 110 of 130) Definition of Dynamic Buman Actions for Pire Initiating Events Event. * . Ti.tieof* Act:iQ:il FM13Wl Same as for FM13(W2,W3) A-M13Wl-XHE-F Same as for A-M13(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-M12Wl-XHE-F GM13(W2, Establish gravity feed A-M13(W2,W3)- Same equipment failures as for W3) from RWST after failure XHE-G RM13(W2,W3). to establish primary feed and bleed following loss Use same value as A-Ml2(W2,WJ)- C) of RHR due to damage to XHE-G ........'* subsections 3H, 3G, 3F, 0 3B, and 3A of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling outages. GM13W4 Same as for GM13(W2,W3) A-M13W4-XHE-G Same as for GM13(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M12W4-XHE-G

Table G-1. (Page 111 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events 

                                                           .: ;*ACt1o*n:*;: : --:* .: -:

zvent

Dfilsig11aiitc:,1: . .
                                                                                         ****=:
                                                                                                           . .: .~~Jts.*

GM13(W2, Restore other heat A-Ml3(W2,W3)- Same equipment failures as for W3)R removal after failure to XHE-GR RM13(W2,W3). align primary feed and bleed and success of Use same value as A-M12W4-XHE-GR gravity feed following loss of-RHR due to damage to subsections 3H, 3G, 3F, 3B, and 3A of bench board 1-1 by large MCR cabinet fire at midloop in POS 6 of refueling Cl outages. I ..... RMA(W2,W Restore RHR cooling A-MA(W2,W3)-XHE- ccw return header trip valves

3) following loss of RHR due R 109A and 109B are disabled.

to damage to subsection 3BH of vertical board 1-1 Use 1.0 for screening by small MCR cabinet fire quantification. at midloop in POS 6 of refueling outages. RMAW4 Same as for RMA(W2,W3) A-MAW4-XHE-R Same as for RMA(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification. _J

Table G-1. (Page 112 of 130) Definition of Dynamic Buman Actions for Fire Znitiating Events Event /';: .' iictic:>~ \ <>< .. 

                                      ...... -** - , oeslgnator . . **
  • RMAWl Same as for RMA(W2,W3) A-MAWl-XHE-R Same as for RMA(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response.

drained maintenance outages. Use 1.0 for screening 

                                                                          *quantification.

SMA(W2,W Establish SG bleed and A-MA(W2,W3)-XHE- Same equipment failures as for

3) feed following loss of S RMA(W2,W3).

RHR due to damage to subsection 3BH of Use same value as A-M5(W2,W3)- C) vertical board 1-1 by XHE-S I small MCR cabinet fire at N midloop in POS 6 of refueling outages. FMA(W2,W Align primary feed and A-MA(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F RMA(W2,W3).

RHR due to damage to subsection 3BH of Use same value as A-M8(W2,W3)- vertical board 1-1 by XHE-F small MCR cabinet fire at midloop in POS 6 of A-MA(W2,W3)-XHE- Similar to A-MA(W2,W3)-XHE-F refueling outages. F except SG bleed and feed has failed. Use same value as A-M8(W2,WJ)- XHE-F .

Table G-1. (Page 113 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event T:h:1~ qf. -Action .*. *. . ictio~*. .*..... * *

  • a.arks.***. I
                                              ..* ** neslgnator.*.

FMAW4 Same as for FMA(W2,W3) A-MAW4-XHE-F Same as for FMA(W2,W3) except except the fire event A-MAW4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M8W4-XHE-F 

        -                                                                  for both sequences.

FMAWl Same as for FMA(W2,W3) A-MAWl-XHE-F Same as for A-MA(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-M8Wl-XHE-F. Cl I w GMA(W2,W Establish gravity feed A-MA(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RMA(W2,W3).

to establish primary feed* and bleed following loss Use same value as A-M8(W2,W3)- of RHR due to damage to XHE-G subsection 3BH of vertical board 1-1 by small MCR cabinet fire at midloop in POS 6 of refueling outages. GMAW4 Same as for GMA(W2,W3) A-MAW4-XHE-G Same as for GMA(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M8W4-XHE-G

Table G-1. (Page 114 of 130) Definition of Dynamic Buman Actions for Pire Initiating Events Event -ri1:.1i qfActiori ... *. Action. .. *-*: 

                                                                                                   * .. :..       .* I
                             *. <*** .*         * . *nealgnator *.                   ./: .. <                  ..   ..

GMA(W2,W Restore other heat A-MA(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RMA(W2,W3). align primary feed and bleed and success of Use same value as A-MSW4-XHE-GR-gravity feed following loss of BRR due to* damage to subsection 3BH of vertical board 1-1 by small MCR cabinet fire at midloop in POS 6 of refueling outages. MMB(W2,W Make up RCS inventory A-MB(W2,W3)-XHE- Suction or discharge isolation C) I

3) following loss of RHR due M valves for all.three charging

~ damage to subsections 3BD pumps inadvertently close. and 3BC of vertical board 1-1 or 1-2 by small MCR Use 1. O. cabinet fire at midloop in POS 6 of refueling outages. MMBW4 Same as for MMB(W2,W3) A-MBW4-XHE-M Same as for MMB(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0.

Table G-1. (Page 115 of 130) . Definition of Dynamic Ruman Actions for Fire Initiating Events Event 

                   'Titie*c,r Act:l"n      .* *_ ::}/
  • ict.lon < *- ..

Remarks 1

  • oaslgnator .. .*:....

MMBWl Same as for MMB(W2,W3) A-MBWl-XHE-M Same as for MMB(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0. RMB(W2,W Restore RHR cooling A-MB(W2,W3)-XHE- Same equipment failures as for

3) following loss of RHR due R MMB(W2,W3).

to damage to subsections 3BD and 3BC of vertical Use 1.0. board 1-1 or 1-2 by small MCR cabinet fire at a midloop in POS 6 of -I VI RMBW4 refueling outages. Same as for RMB(W2,W3) A-MBW4-XHE-R Same as for RMB(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0. RMBWl Same as for RMB(W2,W3) A-MBWl-XHE-R Same as for*RMB(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0.

Table G-1.* (Page 116 of 130) Definition of Dynamic Buman Actions for Pire znitiating Events Event Titl,e.*of Action ,.Action Remarks.

,*. . . . . ..: Designator SMB(W2,W Establish SG bleed and A~MB(W2,W3)-XHE- Same equipment failures as for
3) feed after failure to S MMB(W2,W3). RCS makeup or RHR make up RCS inventory or A-MB(W2,W3)-XHE- restoration has failed.

failure to restore RHR S following loss of RHR due Use 1.0 for A-M2(W2,W3)-XHE-S. to damage to subsections Use same value as A-M5(W2,W3)- 3BD and 3BC of vertical XHE-S for A-MB(W2,W3)-XHE-S. board 1-1 or 1-2 by small MCR cabinet fire at midloop in POS 6 of refueling outages. Cl -I O'I FMB(W2,W 3) Align primary feed and bleed after failure to A~MB(W2,W3)-XHE-F Same equipment failures as for MMB(W2,W3). RCS makeup or RHR. restore RHR following A-MB(W2,W3)-XHE- restoration has failed. loss of RHR due to damage F to subsections 3BD and Use 1.0 for A-MB(W2,W3)-XHE-F. 3BC of vertical board 1-1 Use same value as A-M8(W2,WJ)- br 1-2 by small MCR XHE-F for A-MB(W2,W3)-XHE-F. cabinet fire at midloop in POS 6 of refueling A-MB(W2,W3)-XHE- Similar to A-MB(W2,W3)-XHE-F and outages. F A-MB(W2,WJ)-XHE-F except SG A-MB(W2,W3)-XHE- bleed and feed has failed. F Use 1.0 for A-MB(W2,WJ)-XHE-F Use same value as A-M8(W2,WJ)- XHE-F for A~MB(W2,W3)-XHE-F

Table G-1. (Page 117 of 130) Definition of Dynamic Buman Actions for Fire J:ni ti a ting Eve.nts Event

:if:1~}t.\01 *****> .* .*..

FMBW4 Same as for FMB(W2,W3) A-MBW4-XHE-F Same as for FMB(W2,W3) except except the fire event A-MBW4-XHE-'F more time is available for occurs in POS 10 of A-MBW4-XHE-F operator response *. refueling outages. A-MBW4-XHE-F Use 1.0 for A-MBW4-XHE-F Use same value as A-MBW4-XHE-F for A-MBW4-XHE-F FMBWl same as for FMB(W2,W3) A-MBWl-XHE-F Same as for A-MB(W2,W3)-XHE-F except the fire event A-MBWl-XHE-F and A-MB(W2,W3)-XHE-F except occurs in POS 6 of less time is available for dra.ined maintenance operator response. outages. Use 1.0 for A-MBWl-XHE-F. Use C') same value as A-MBWl-XHE-F for ...........J I A-MBWl-XHE-F . GMB(W2,W Establish gravity feed A-MB(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G MMB(W2,W3). RCS makeup or RHR to restore RHR and A-MB(W2,W3)~XHE- restoration, and primary feed establish primary feed G and bleed have failed.

and bleed following loss of RHR due to damage to Use 1.Q for A-MB(W2,W3)-XHE-G. 

                     'subsections 3BD and 3BC                              Use A-MB(W2,W3)-XHE-G for A-of vertical board 1-1 or                             MB(W2,W3)-XHE-G.

1-2 by small MCR cabinet fire at midloop in POS 6 of refueling outages.

Table a-1. (Page 118 of 130) Definition of Dynamic Buman Actions for Fire Xnitiating Events GMBW4 Same as for GMB(W2,W3) A-MBW4-XHE-G Same as for GMB(W2,W3) except except the fire event A-MBW4-XHE-G more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for A-MBW4-XHE-G. Use A-M8W4-XHE-G for A-MBW4-XHE-G GMB(W2,W Restore other heat A-MB(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RMB(W2,WJ). RCS makeup or RHR restore RHR, failure to A-MB(W2,W3)-XHE- restoration, and primary feed align primary feed and GR and bleed have failed and bleed, and success of primary gravity feed has been gravity feed following successful. C') loss of RHR due to damage -I 00 to subsections 3BD and 3BC of vertical board 1-1 or 1-2 by small MCR Use LO for A1 MB(W2,WJ)-XHE-GR. Use A-M8(W2,W3)-XHE-GR for A-MB(W2,W3)-XHE-GR. cabinet fire at midloop in POS 6 of refueling outages. RMC(W2,W Restore RHR cooling A-MC(W2,W3)-XHE- ccw pumps lA and lB are

3) following loss of RHR due R disabled.

to damage to subsection 3AQ of vertical board 1-2 Use 1.0 for screening by small MCR cabinet fire quantification. at midloop in POS 6 of refueling outages.

Table G-1. (Page 119 of 130) Definition of Dynamic Human Actions for Fire Initiating Events 

     *Event         ~it~e *of J\ctie>n, > ..r***.****** ***  ** * * *******A~tibit*****************                               ; I
                 ..
  • nasignator ....*

RMCW4 Same as for RMC(W2,W3) A-MCW4-XHE-R Same as for RMC(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening quantification. RMCWl Same as for RMC(W2,W3) A-MCWl-XHE-R Same as for RMC(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0 for screening quantification. C') I SMC(W2,W Establish SG bleed and A-MC(W2,W3)-XHE- Same equipment failures as for

3) feed following loss of S RMC(W2,W3).

RHR due to damage to subsection 3AQ of Use same value as A-M5(W2,W3)- vertical board 1-2 by XHE-S. small MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 120 of 130) Definition of Dynamic Buman Actions for Pire Initiating Events 

       *zvent
                   ,:-tt:le. of. ,Ac~:lon *** *
                                                          ** Actie>n       ..   *"***. . :-*:/.:** *
  • aemar:its* - I
                                                           .oaslgnator .                   ..

FMC(W2,W Align primary feed and A-MC(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F RMC(W2,W3).

RHR due to damage to subsection JAQ of U;::,c  ;::,amc va.1.uc as a-r£o\W-' 1 W.lJ-vertical board 1-2 by A-MC(W2,W3)-XHE- Klimit9r to A-MC(W2,W3)-XHE-F small MCR cabinet fire at F except SG bleed and feed has midloop in POS 6 of failed. refueling outages. Use same value as A-MS(W2,W3)- XHE-F. FMCW4 Same as for FMC(W2,W3) A-MCW4-XHE-F Same as for FMC(W2,W3) except except the fire event A-MCW4-XHE-F more time is available for ....a I occurs in POS 10 of operator response * ~ refueling outages. Use same value as A-MSW4-XHE-F for both sequences. FMCWl Same as for FMC(W2,W3) A-MCWl-XHE-F Same as for A-MC(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-MSWl-XHE-F

Table G-1. (Page 121 of 130) Definition of Dynamic Human Actions for Fire Initiating Events Event Tl.tie. of>Acti6n > *.** Adtii:in ? ****** . *.* ******. ... 

                                            *. Designator * * .* ..               >.:i ... \ :**

GMC(W2,W Establish gravity feed A-MC(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RMC(W2,W3).

to establish primary feed and bleed following loss Use same value as A-M8(W2,W3)- of RHR due to damage to XHE-G subsection 3AQ of vertical board 1-2 by small MCR cabinet fire at midloop in POS 6 of refueling outages. GMCW4 Same as for GMC(W2,W3) A-MCW4-XHE-G Same as for GMC(W2,W3) except except the fire event more time is available for -a I N occurs in POS 10 of refueling outages. operator response. Use same value as A-M8W4-XHE-G GMC(W2,W Restore other heat A-MC(W2,W3)-XHE- same equipment failures as for 3)R removal after failure to GR RMC(W2,W3). align primary feed and bleed and success of Use same value as A-M8W4-XHE-GR gravity feed following loss of RHR due to damage to subsection 3AQ of vertical board 1-2 by small MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 122 of 130) Definition of Dynamic Human Actions for Fire Initiating Bvents aem~Jts . *

-:-.**.*::**/::::

Event Title of Action .. .* Action **.*.. . .. 

                                       **>        **.** basignator,.*.                        . **:*:. :.. : ....... *:. ....

RMD(W2,W Restore RHR cooling A-MD(W2,W3)-XHE- ccw return header trip valves

3) following loss of RHR due R 109A and 1098 are disabled.

to damage to subsections 3BH, 3BD, and 3BC of Use 1.0 for screening vertical board 1-1 by quantification. medium MCR cabinet fire at midloop in POS 6 of refueling outages. RMDW4 Same as for RMD(W2,W3) A-MDW4-XHE-R Same as for RMD(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. Use 1.0 for screening C) I quantification. N N RMDWl Same as for RMD(W2,W3) A-MDWl-XHE-R Same as for RMD(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0 for screening quantification.

Table G-1. (Page 123 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events Event .Title of Action . 

                                        .* .*.* ). ~t\t;n~or****** *.                                        *aemarJts ... I i  . >. ' .                                      ... *.* ..*

SMD(W2,W Establish SG bleed and A~MD(W2,W3)-XHE- Same equipment failures as for

3) feed following loss of *s RMD(W2,W3) .

RHR due to damage to subsections 3BH, 3BD, and Use same value as A-M5(W2,W3)- 3BC of vertical board 1-1 XHE-S by medium MCR cabinet fire at midloop in POS 6 of refueling outages. C'} N w I

Table G-1. (Page 124 of 130) Definition of Dynamic Buman Actions for Fire xnitiating Bvents Event I 

               . Title*

of.. Actlo:ii * .*. Ac,t;i61f *.*.  : i.:.**:* .. Remarks: 

                                                    . :besfcjnator .                 *.**.*-** .......

FMD(W2,W Align primary feed and A-MD(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F RMD(W2,W3).

RHR due to damage to subsections 3BH, 3BD, and Use same value as A-M8(W2,W3)- 3BC of vertical board 1-1 XHE-F by medium MCR cabi11et fire at midloop in POS 6 A-MD(W2,W3)-XHE- Similar to A-MD(W2,WJ)-XHE-F of refueling outages. F except SG bleed and feed has failed. Use same value as A-M8(W2,W3)- XHE-F FMDW4 Same as for FMD(W2,W3) A-MDW4-XHE-F Same as for FMD(W2,W3) except except the fire event A-MDW4-XHE-F more time is available for occurs in POS 10 of operator response. refueling outages. Use same value as A-M8W4-XHE-F for both sequences. FMDWl Same as for FMD(W2,W3) A-MDWl-XHE-F Same as for A-MD(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-M8Wl-XHE-F

Table G-1. (Page 125 of 130) Definition of Dynamic Buman Actions for Pire Initiating Events 

        -Event Title- Of Action -*** -
                                                    .:     -~ei~1r* --- - --__ .
                                                        . neafgiiator .; _. . .- *-
                                                                                                  **Remarks GMD(W2,W  Establish gravity feed                A-MD(W2,W3)-XHE-               Same equipment failures as for
3) from RWST after failure G RMD(W2,W3).

to establish primary feed and bleed following loss Use same value as A-MB(W2,W3)- of RHR due to damage to XHE-G subsections 3BH, 3BD, and 3BC of vertical board 1-1 by medium MCR cabinet fire at midloop in POS 6 of refueling outages. GMDW4 same as for GMD(W2,W3) A-MDW4-XHE-G same as for GMD(W2,W3) except a except the fire event more time is available for I occurs in POS 10 of operator response. t..> VI refueling outages. use same value as A-M8W4-XHE-G GMD(W2,W Restore other heat A-MD(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RMD(W2,W3). align primary feed and bleed and success of Use same value as A-M8W4-XHE-GR gravity feed following loss of RHR due to damage to subsections 3BH, 3BD, and 3BC of vertical board 1-2 by medium MCR cabinet fire at midloop in P03 6 of refueling outages.

Table G-1. (Page 126 of 130) Definition of Dynamic Buman Actions for Pire Xnitiating Events 

      ..  . ' (..

Event .,. ititle '.Of :AC.~i~~ . ** .* * . . .* : i:~~(t§~f :;. .:::: : *.* ** . * .** . . . : : '... itauics- .* 

                                  ..... ,.   :_  :, nesignatot.*
  • i: < ,:... : **. :* * * *_.:_ *-** :..... **

RME(W2,W Restore RHR cooling A-ME(W2,W3)-XHE- Both normal and emergency power

3) following loss of RHR due supplies to 4 kV bus lH are to da~age to vertical disabled. Operator can start the board 1-6 by MCR cabinet standby RHR and ccw pump trains.

fire at midloop in POS 6 of refueling outages. RMEW4 same as for RME(W2,W3} A-MEW4-XHE-R Same as for RME(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. RMEWl Same as for RME(W2,W3) A-MEWl-XHE-R Same as for RME(W2,W3) except except the fire event less time is available for occurs in POS 6 of operator response. C) drained maintenance I outages. SME(W2,W Establish SG bleed and A-ME(W2,W3)-XHE- Same equipment failures as for

3) feed after failure to S RME(W2,W3).

restore RHR following loss of RHR due to damage Use same value as A-M3(W2,W3)- to vertical board 1-6 by XHE-S. MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 127 of 130) Definition of Dynamic Ruman Actions for Pire Initiating Bvents Event  :* Ti tie* c,f* ic::iion.: * * .:;:*:iitaukS.: .**- 

                                                        ..?. *:D******.:~s}=i.tgin**~a:~t*\o'.
                                                                                                                                                     *.::.::r;:*                      . ~ .i
r:*:**.**.\.** * ** ** !i . * * ** *
  • .-.,.:.::- \'/.:. ,'. ,",., .. *.,<,

FME(W2,W Align primary feed and A-ME(W2,W3)-XHE- Same equipment failures as for

3) bleed after failure to F .RME(W2,W3).

restore RHR following loss of RHR due to damage Use same value as A-Ml2(W2,WJ)~ to vertical board 1-6 by XHE-F. MCR cabinet fire at midloop in POS 6 of A-ME(W2,W3)-XHE- Similar to A-ME(W2,WJ)-XHE-F refueling outages. F except SG bleed and feed has failed. FMEW4 Same as for FME(W2,W3) A-MEW4-XHE-F Same as for FME(W2,W3) except except the fire event A-MEW4-XHE-F more time is available for C:I occurs in POS 10 of operator response. N refueling outages. ....J Use same value as A-Ml2W4-XHE-F for both sequences. FMEWl Same as for FME(W2,W3) A-MEWl-XHE-F Same as for A-ME(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-M12Wl-XHE-F

Table G-1. (Page 128 of 130) Definition of Dynamic Buman Actions for Fire Initiating Events Event . Title of Action . 

                                               *. * . ri!a'+/-Yt.t;~****:********.*****

GME(W2,W Establish gravity feed A-ME(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RME(W2,W3).

to restore RHR and establish primary feed Use same value as A-M12(W2,W3)- and bleed following loss XHE-G. of RHR due to damage to vertical board 1-6 by MCR cabinet fire at midloop in POS 6 of refueling outages. GMEW4 Same as for GME(W2,W3) A-MEW4-XHE-G Same as for GME(W2,W3) except 

             ~xcept the fire event                                                    more time is available for Cl            occurs in POS 10 of                                                      operator response.

N I 00 refueling outages. Use same value as A-M12W4-XHE-G GME(W2,W Restore other heat A-ME(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RME(W2,W3). restore RHR, failure to align primary feed and Use same value as A-M12(W2,W3)- bleed, and success of XHE-GR. gravity feed following loss of RHR due to damage to vertical board 1-6 by MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-1. (Page 129 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events

.:r.-****.. :.-* ..*.. ..
                                                        * ; * ~~Ito~: :: .                                                 .........

_.ent. ** *.Titieot' ~ctiJn . / Remarks .. 

                                                                                                                                                                     ; l
                                   ;                .. . oaslgnator /               .
                                                                                                                ./.           .:     ::*: *:.. .....
  • RMF(W2 ,W Restore RHR cooling A-MF(W2,W3)-XHE- ccw return header trip valve
3) following loss of RHR due R 109B is disabled.

to damage to 120 V AC vital bus 1-II cabinet by Use 1.0 for screening MCR cabinet fire at quantification. midloop in POS 6 of refueling outages. RMFW4 Same as for RMF(W2,W3) A-MFW4-XHE-R Same as for RMF(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. C) Use 1.0 for screening N I \C) RMFWl Same as for RMF(W2,W3) A-MFWl-XHE-R quantification. Same as for RMF(W2 ,WJ) except except the fire event less time is available for occurs in POS 6 of operator response. drained maintenance outages. Use 1.0 for screening quantification. SMF(W2,W Establish SG bleed and A-MF(W2,W3)-XHE- Same equipment failures as for

3) feed following loss of s RMF(W2,W3).

RHR due to damage to 120 V AC vital bus 1-II Use same value as A-M5(W2,W3)- cabinet by MCR cabinet XHE-S. fire at midloop in POS 6 of refueling outages.

r Ta])le G-1.~ (Page 130 of 130) 

                    '**       Definition of Dynamic Buman Actions for Pire Initiating Events
       -~ ... ..

Event IJ:iit.i* ~r Action:: .x ..* * ':i~tion. * .* .. ***. . .1 

                 *.                                          I  *.* ..* .*   ba111ignat.or >             ......

FMF(W2,W Align primary feed and A-MF(W2,W3)-XHE- Same equipment failures as for

3) bleed following loss of F RMF-(W2, W3) .

RHR due to damage to 120 V AC vital bus 1-II Use same value as A-MS(W2,W3)- cabinet by MCR cabinet XHE-F. fire at midloop in POS 6 of refueling outages. .A-MF(W2,W3)-XHE- Similar to A-MF(W2,W3)-XHE-F F except SG bleed and feed has failed. Use same value as A-M8(W2,W3)- XHE-F. FMFW4 Same as for FMF(W2,W3) A-MFW4-XHE-F Same as for FMF(W2,W3) except C'} except the fire event A-MFW4-XHE-F more time is available for I occurs in POS 10 of operator response. 

 *~

0 refueling outages. Use same value as A-MSW4-XHE-F for both sequences. FMFWl Same as for FMF(W2,W3) A-MFWl-XHE-F Same as for A-MF(W2,W3)-XHE-F except the fire event except less time is available occurs in POS 6 of for operator response. drained maintenance outages. Use same value as A-MSWl-XHE-F

Table G-1. (Page 131 of 130) Definition of Dynamic Ruman Actions for Fire Initiating Events EVent /*****aeaarJtei*.***** GMF(W2,W Establish gravity feed A-MF(W2,W3)-XHE- Same equipment failures as for

3) from RWST after failure G RMF(W2,W3).

to establish primary feed and bleed following loss Use same value as A-MB(W2,W3)- of RHR due to damage to XHE-G 120_ V AC vital bus 1-II cabinet by MCR cabinet fire at midloop in POS 6 of refueling outages. GMFW4 Same as for GMF(W2,W3) A-MFW4-XHE-G Same as for GMF(W2,W3) except except the fire event more time is available for occurs in POS 10 of operator response. refueling outages. C) Use same value as A-M8W4-XHE-G I GMF(W2,W Restore other heat A-MF(W2,W3)-XHE- Same equipment failures as for 3)R removal after failure to GR RMF(W2,W3). align primary feed and bleed and success of Use same value as A-M8W4-XHE-GR gravity feed following loss of RHR due to damage to 120 V AC vital bus 1-II cabinet by MCR cabinet fire at midloop in POS 6 of refueling outages.

Table G-2. (Page 1 of 3) PSF Rating and HEPS for Fire Initiating Events Dynamic Hi.nan Action Evaluation for: Surry Mid-loop Operations Evaluation Team: DCB/JCL Action Grouping Logic: Fires Preceding & Plant Time Training & Other Actions Interfaces Adequacy Procedures Coq,lexity Experience Stress Action~~ Weight Score Weight Score Weight Score Weight Score Weight Score Weight Score Weight Score FLI PC fail) LOG(P(fail)) Rated Actions MAX 7.87 1.0E+OO 0.00 D-E1(W2,W3)-XHE 0.00 1 0.24 5 0.18 8 0.12 3 0.12 4 0.24 3 0.12 7 4.94 1.1E-*03 . -~.97 D-E1W4-XHE 0.00 1 0.24 5 0.18 5 0.12 3 0.12 4 0.24 3 0.12 6 4.29 2.4E-04 -3.62 D-E-1W1-XHE 0.00 1 0.24 5 0.18 9 0.12 3 0.12 . 4 0.24 3 0.12 9 5.35 2.8E*Q3 -2.55 D*E4(W2,W3)-XHE 0.00 1 0.24 6 0.18 8 0.12 4 0.12 6 0.24 4 0.12 7 5.76 7.4E-03 -2.13 D-E4W4-XHE 0.00 1 0.24 6 0.18 5 0.12 4 0.12 6 0.24 4 0.12 6 5.12 1.6E-03 -2.79 O-E4W1 *XHE 0.00 1 0.24 6 0.18 9 0.12 4 0.12 6 0.24 4 0.12 9 6.18 1.9E-02 -1.71 O-E8(112,113)-XHE 0.00 1 0.24 5 0.18 9 0.12 3 0.12 8 0.24 4 0.12 9 6.06 1.5E-02 -1.83 D-E8114*XHE 0.00 1 0.24 5 0.18 5 0.12 3 0.12 8 0.24 4 0.12 8 5.24 2.1E*03 -2.67 O*E8111*XHE 0.00 1 0.24 5 0.18 10 0.12 3 0.12 8 0.24 4 0.12 10 6.35 2.9E*02 -1.53 O*N3(W2,W3)*XHE 0.00 1 0.24 _5 0.18 8 0.12 3 0.12 3 0.24 3 0.12 7 4.82 8.2E-04 -3.09 O*N3114*XHE 0.00 1 0.24 5 0.18 5 0.12 3 0.12 3 0.24 3 0.12 6 4.18 1.8E*04 -3.74 O*N3111*XHE 0.00 1 0.24 5 0.18 9 0.12 3 0.12 3 0.24 3 0.12 8 5.12 1.6E*03 -2.79 O*V1(112,W3)*XHE 0.00 1 0.24 6 0.18 8 0.12 4 0.12 6 0.24 4 0.12 7 5.76 7.4E*03 -2.13 O*V1114*XHE 0.00 1 0.24 6 0.18 5 0.12 4 0.12 6 0.24 4 0.12 6 5.12 1.6E*03 -2.79 D*V1111*XHE 0.00 1 0.24 6 0.18 9 0.12 4 0.12 6 0.24 4 0.12 9 6.18 1.9E*02 -1. 71 D*M1(112,113)*XHE 0.00 1 0.24 3 0.18 6 0.12 3 0.12 2 0.24 2 0.12 6 3.53 4.0E*OS *4.40 O*M1114*XHE 0.00 1 0.24 3 0.18 2 0.12 3 0.12 2 0.24 2 0.12 5 2.71 5.9E*06 *5.23 O*M1111*XHE 0.00 1 0.24 3 0.18 8 0.12 3 0.12 2 0.24 2 0.12 7 4.00 1.2E*04 -3.92 D*M3(112,113)*XHE 0.00 1 0.24 5 0.18 8 0.12 3 0.12 3 0.24 3 0.12 7 4.82 8.2E*04 -3.09 D*M3114*XHE 0.00 1 0.24 5 0.18 5 0.12 3 0.12 3 0.24 3 0.12 6 4.18 1.8E*04 -3.74 D*M3111*XHE 0.00 l 0.24 5 0.18 9 0.12 3 0.12 3 0.24 3 0.12 8 5.12 l .6E*03 -2.79 C'.) D*M5(112,113)*XHE 0.00 1 0.24 6. 0.18 8 0.12 5 0.12 5 0.24 4 0.12 8 5.88 9.7E*03 -2.01 w I O*M5114*XHE 0.00 1 0.24 6 0.18 5 0.12 5 0.12 5 0.24 4 0.12 6 5.12 1.6E*03 *2.79 D*M5111*XHE 0.00 1 0.24 6 0.18 9 0.12 5 0.12 5 0.24 4 0.12 9 6.18 l .9E*02 -1.71 N -3.15 O*M11(112,W3)*XHE 0.00 1 0.24 5 0.18 7 0.12 4 0.12 4 0.24 3 0.12 6 4.76 7.2E*04 D*M11114*XHE 0.00 1 0.24 5 0.18 4 0.12 4 0.12 4 0.24 3 0.12 5 4.12 1.6E*04 -3.80 D*M11\11*XHE 0.00 1 0.24 5 o. 18 9 0.12 4 0.12 4 0.24 3 0.12 7 5.24 2.1E*03 *2.67 O*H12(112,113)*XHE 0.00 1 0.24 6 0.18 9 0.12 5 0.12 4 0.24 5 0.12 8 6.18 1.9E*02 -1. 71 D*H12114*XHE 0.00 1 0.24 6 0.18 5 0.12 5 0.12 4 0.24 5 0.12 6 5.24 2.1E*03 -2.67 D*M12111*XHE 0.00 1 0.24 6 0.18 9 0.12. 5 0.12 4 0.24 5 0.12 9 6.29 2.SE-02 *1.59 O*MC(ll2,\13)*XHE 0.00 1 0.24 4 0.18 6 0.12 3 0.12 2 0.24 2 0.12 6 3.76 6.9E*05 -4.16 D*HCll4*XHE 0.00 1 0.24 4 0.18 2 0.12 3 0.12 2 0.24 2 0.12 5 2.94 1.DE-05 -4.99 D*HC\11 *XHE 0.00 1 0.24 4 0.18 8 0.12 3 0.12 2 0.24 2 0.12 7 4.24 2. 1E*04 -3.68 O*HO(ll2,W3)*XHE 0.00 1 0.24 5 0.18 7 0.12 4 0.12 3 0.24 3 0.12 6 4.65 5.4E*04 -3.26 D*MDll4*XHE 0.00 1 0.24 5 0.18 3 0.12 4 0.12 3 0.24 3 0.12 5 3.82 8.0E-05 -4.10 D*HDll1*XHE 0.00 1 0.24 5 0.18 9 0.12 4 0.12 3 0.24 3 0.12 7 5.12 1.6E*03 -2.79 D*HE(\12,113) *XHE 0.00 1 0.24 3 0.18 6 0.12 3 0.12 3 0.24 2 0.12 6 3.65 5.3E*05 -4.28 D*HE\14-XHE 0.00 1 0.24 3 0.18 2 0.12 3 0.12 3 0.24 2 0.12 5 2.82 7.7E-06 -5.11 D*ME111*XHE 0.00 1 0.24 3 0.18 8 0.12 3 0.12 3 0.24 2 0.12 7 4.12 1.6E*04 *3.80 A2*E8(W2,113)*XHE 0.12 8 0.12 5 0.24 7 0.12 5 0.12 8 0.12 4 0.18 8 6.59 5 .1E*Q2 -1.30 A2*E8114*XHE 0.12 6 0.12 5 0.24 7 0.12 5 0.12 8 0.12 4 0.18 7 6.18 1.9E*02 -1.71 A2*E8111*XHE 0.12 10 0.12 '5 0.24 7 0.12 5 0.12 8 0.12 4 0.18 10 7.18 2.0E-01 -0.70 A*E1CW2,W3)*XHE*R 0.14 8 0.10 6 0.19 6 0.10 4 0.14 8 0.19 5 0.14 9 6.62 5.4E*02 -1.27 A*E1114*XHE*R 0.17 8 0.11 6 0.11 3 0.11 4 0.11 8 0.22 5 0.17 8 6.11 1.7E*02 -1.78 0.10. A*E1W1*XHE*R 0.13 8 0.17 6 0.17 8 0.09 4 0.13 8 0.17 5 0.13 9 6.91 1.1E*01 -0.97 A*E1CW2,W3)*XHE*FH 0.20 9 0.10 6 0.15 6 0.10 4 0.10 8 0.20 5 0.15 9 6.85 9.3E*02 -1.03 A*E1CW2 ,113)*XHE* FL 0.20 11 0.10 6 0.15 6 0.10 8 0.20 5 0.15 9 6.85 2.4E*01 -1.03

Table G-2. (Page 2 of 3) PSF Rating and HEPs for Fire Initiating Ev Proceding & Plant Time Training & Other Actions Interfaces Adequacy Procedures Cqq>lexity Experience Stress Action Code Weight Score Weight Score Weight Score Weight Score Wei9ht Score Wei9ht Score Weight Score FLI P(fail) LOG(P(fail)) A*E1W4*XHE*FH 0.21 -9 0.11 6 0.11 4 0.11 4 0.11 8 0.21 5 0.16 8 6.53 4.4E*02 -1.36 A*E1W4*XHE*FL 0.21 11 0.11 6 0.11 4 0.11 - 4 0.11 8 0.21 5 0.16 8 6.53 1.1E*01 -1.36 A*E1\11*XHE*FH 0.19 9 0.10 6 0.19 8 0.10 4 0.10 8 0.19 5 0.14 9 7.19 2.1E-01 -0.69 A*E1W1*XHE*FL 0.19 11 0.10 6 0.19 8 0.10 -4 0.10 8 0.19 5 0.14 9 7.19 4. 7E-01 -0.69 A*E1(W2,W3)*XHE*G 0.19 10 0.10 6 0.14 7 0.14 4 0.10 7 0.19 5 0.14 9 6.95 1.2E*01 -0.93 A*E1114*XHE*G 0.20 10 0.10 6 0.10 5 0.15 4 0.10 7 0.20 5 0.15 9 6.75 7;4E-02 -1.13 A*E1(W2,W3)*XHE*GR 0.19 10 0.10 6 0.14 8 0.10 4 0.14 8 0.19 5 0.14 9 7.38 3.2E*01 -0.49 A*E4(W2,W3)*XHE*FH 0.20 9 0.10 6 0.15 6 0.10 4 0.10 8 0.20 5 0.15 9 6.85 9.3E*'02 -1.03 A*E4(W2, W3)*XHE

  • FL 0.20 11 0.10 6 0.15 6 0.10 4 0. 10 8 0.20 5 o. 15 9 6.85 2.4E-il1 -1.03 A-E4114*XHE*FH 0.21 9 0.11 6 0. 11 4 0.11 4 0. 11 8 0.21 5 0.16 9 6.68 6.3E*02 -1.20 A*E4114*XHE*FL 0.21 11 0.11 6 o. 11 4 0.11 4 0.11 8 0.21 5 0.16 9 6.68 1..6E-01 -1.20 A*E4111*XHE*FH 0.19 9 0.10 6 0. 19 8 0.10 4 0. 10 8 0.19 5 0.14 10 7.33 2.9E*01 -0.54 A*E4111*XHE*FL 0.19 11 0. 10 6 0. 19 8 0.10 4 o. 10 8 0.19 5 0. 14 10 7.33 6.5E-01 -0.54 A*E8(W2,W3)*XHE*2CH o. 18 10 -0.09 6 0. 14 8 0.09 4 0.18 8 0.18 5 0.14 10 7;55. 4. 7E-01 -0.33 A*E8114*XHE*2CH 0.15 10 0.10 6 0.10 5 0.10 4 0.20 8 0.20 5 0.15 10 7. 10 1. 7E*01 -0.78 A*E8111*XHE-2CH 0.17 10 0.09 6 0.17 9 0.09 4 0. 17 8 0.17 5 0. 13 10 7.74 7 .4E*01 -0.13 A*E4A-XHE-R 0.18 9 0. 14 7 0. 18 6 0.09 7 0.09 8 o. 18 7 0. 14 9 7.55 4. 7E-01 -0.33 A*N3(112,113)*XHE-R 0.14 8 0. 10 6 0.19 6 0.10 3 0.14 9 0.19 4 0.14 8 6.33 2.BE-02 -1.55 A*N3114-XHE*R 0.17 8 0.11 6 0.11 3 0.11 3 0.11 9 0.22 4 o. 17 7 5.72 6.7E-03 -2.17 A*N3111*XHE*R 0.13 8 0.17 6 0.17 8 0.09 3 0.13 9 0.17 4 0.13 9 6.78 8.0E-02 -1.10 A*N3(W2,\13)*XHE-S 0.14 -8 0.10 6 0.19 6 0.10 3 0.14 6 0.19 6 0. 14 9 6.43 3.5E-02 -1.46 A*N3(W2,W3)*XHE*FH 0.20 8 0. 10 6 0.15 6 0.10 3 0.10 8 0.20 4 0. 15 9 6.35 2.9E*02 -1.54 A*N3(W2,\13)*XHE*FL 0.20 10 0.10 6 0.15 6 0.10 3 0.10 8 0.20 4 0. 15 9 6.35 7.4E-02 -1.54 A-N3CW2,\13)*XHE*FH 0.20 9 0.10 6 0.15 6 0.10 3 0.10 8 0.20 4 0.15 9 6.55 4.6E-02 -1.34 A*N3(W2,113)-XHE*FL 0.20 11 0.10 6 0.15 6 0. 10 3 0.10 8 0.20 4 0. 15 9 6.55 1.2E-01 -1.34 0I A-N3W4-XHE*FH 0.21 8 0.11 6 0.11 4 0.11 3 0. 11 8 0.21 4 0.16, 7 5.84 8.9E-03 -2.05 w A*N3114*XHE*FL 0.21 10 0.11 6 o. 11 4 0. 11 3 0. 11 8 0.21 4 o. 16 7 5.84 2.3E-02 -2.05 w A-N3111*XHE*FH 0.19 8 0.10 6 0.19 8 0.10 3 0.10 8 0.19 4 0. 14 9 6. 71 6.8E*02 -1.17 A*N3111-XHE*FL 0.19 10 0.10 6 0.19 8 0. 10 3 0.10 8 0.19 4 0.14 9 6. 71 1.6E*01 -1.17 A*N3(112,W3)*XHE*G 0.19 9 0.10 6 0. 14 7 0. 14 3 0. 10 7 o. 19 4 0. 14 10 6.57 4.9E-02 -1.31 A*N3114*XHE-G 0.20 9 o. 10 6 0. 10 4 0. 15 3 o. 10 7 0.20 4 0. 15 7 5.80 8.0E-03 -2. 10 A-N3(W2,W3)*XHE-GR 0. 19 10 0. 10 6 o. 14 8 0. 10 3 0.14 8 0. 19 4 0.14 10 7.24 2.3E*01 -0.64 A V1(112,\13)*XHE*FH 0

0.17 10 0. 13 6 0.13 7 0.08 3 0.17 9 0.17 5 0.17 10 7.54 4. 7E-01 -0.33 A*V1(112,113)*XHE*FL o. 17

  • 12 0.13 6 0.13 7 0.08 3 0. 17 9 0.17 5 0.17 10 7.54 1 .OE+OO -0.33 A*Vl\14-XHE*FH 0.17 10 0.13 6 0.09 5 0.09 - 3 0.17 9 0.17 5 0.17 9 7.22 2.2E*01 -0.66 A*V1W4*XHE*FL 0.17 12 0. 13 6 0.09 5 0.09 3 0.17 9 0.17 5 0. 17 9 7.22 4.5E*01 -0.66 A-V1W1-XHE*FH 0.16 10 o. 12 6 0. 16 '9 0.08 3 0. 16 9 0.16 5 o. 16 10 7.84 9.4E*01 -0.03 A*V1111*XHE-FL 0.16 12 0.12 6 0. 16 9 0.08 3 0.16 9 0.16 5 0. 16 10 7.84 1.0E+OO -0.03 A*C1(112,113)*XHE*S 0.19 6 0.10 5 0.14 5 0.05 3 0. 10 5 0.19 5 0.24 7 5.57 4.7E-03 -2.33 A-C1(W2,W3)-XHE* FH 0.22 6 0.11 5 0. 11 5 0.11 3 0. 11 8 0.22 3 0.11 7 5.11 1.6E*03 -2.79 A*C1(W2,W3)*XHE*FL 0.22 8 0.11 5 0. 11 5 0.11 3 0. 11 8 0.22 3 0. 11 7 5. 11 4.5E*03 -2.79 A*C1(W2,113)-XHE*FH 0.21 7 o. 11 5 o. 16 6 0.11 3 0.11 8 0.21 3 0.11 8 5.58 4.8E*03 -2.32 A-C1 (W2, W3)*XHE
  • FL 0.21 9 0.11 5 0.16 6 0.11 3 0.11 8 0.21 3 0.11 8 5.58 1.3E*02 -2.32 A*C1114*XHE*FH 0.18 6 0.12 5 0.12 3 0.12 3 0.12 8 0.24 3 0.12 6 4.71 6.2E-04 -3.20 A*C1\14*XHE*FL 0.18 8 0.12 5 0.12 3 0.12 3 0.12 8 0.24 3 0.12 6 4.71 1.4E*03 -3.20 A*C1111*XHE*FH 0.19 6 0.05 5 0.19 8 0.05 3 0.19 8 0.14 3 0.19 8 6.52 4.3E*02 -1.36 A*C1\11*XHE*FL 0.19 8 0.05 5 0.19 8 0.05 3 0.19 8 0.14 3 0.19 8 6.52 1.1E*01 -1.36 A*C1(W2,W3)*XHE*G 0.20 7 0.10 5 0.15 6 0.10 3 0.10 7 0.20 2 0.15 9 5.55 4.5E*03 -2.35 A*C1114*XHE*G 0.22 7 0.11 5 0.11 4 0.11 3 0.11 7 0.22 2 0.11 6 4.78 7.4E*04 -3.13 A*C1(W2,W3)*XHE*GR 0.20 7 0.10 5 0.20 8 0.10 3 0.10 8 0.20 6 0.10 10 6.80 8.3E*02 -1.08

Table G-2. (Page 3 of 3) PSF Rating and HEPs for Fire Initiating Events Preceding & Plant Time Training & Other Actions Interfaces Adequacy Procedures CCJl11'lexity Experience Stress Action Code llei9ht Score llei9ht Score llei9ht Score llelpht Score llei9ht Score llei9ht Score llei9"t Score Fll PC fail) LOGCPCfail)) A*M3(112,113)*XHE*S 0.14 8 0.10 5 0.19 6 0.10 3 0.14 6 0.19 6 0.14 9 6.33 2.8E-02 -1.55 A*M5(112,113)*XHE*S 0.17 8 0.09 6 0.17 7 0.09 4 0.13 7 0.17 7 0.17 9 7.17 2.0E-01 -0.70 A*M8(112,113)*XHE* FH 0.21 8 0.11 5 0.11 6 0.11 4 0.11 6 0.21 5 0.16 8 6.21 2.1E-02 -1.68 A*M8(112,113) *XHE* FL 0.21 10 0.11 5 0.11 6 0.11 4 0.11 6 0.21 5 0.16 8 6.21 5.3E*02 -1.68 A*M8(112,113)*XHE*FH 0.21 9 0.11 5 0.16 6 0.11 4 0.11 8 0.21 5 0.11 9 6.63 5.6E-02 -1.25 A*M8(112,113)*XHE*FL 0.21 11 0.11 5 0.16 6 0.11 4 0.11 8 0.21 5 0.11 9 6.63 1.se-01 -1.25 A*M8114*XHE*FH 0.18 8 0.12 5 0.12 4 0.12 4 0.12 8 0.24 5 0.12 8 6.00 1.3E-02 -1.89 A-M8114*XHE*FL 0.18 10 0.12 5 0.12 4 0.12 4 0.12 8 0.24 5 0.12 8 6.00 2.9E-02 -1.89 A-M811.1*XHE*FH 0.20 8 0.10 5 0.20 8 0.10 4 0.10 8 0.20 5 0.10 9 6.80 8.3E*02 -1.08 A*H8111*XHE*FL 0.20 10 0.10 5 0.20 8 0.10 4 0.10 8 0.20 5 0.10 9 6.80 2. 1E*01 -1.08 A*H8Cll2,113)*XHE*G 0.20 9 0.10 5 0.15 7 0.15 4 0.10 7 0.20 5 0.10 9 6.55 4.6E-02 -1.34 A*H8114*XHE*G 0.21 9 0.11 5 0.11 4 0.16 4 0.11 7 0.21 5 0.11 9 6.21 2.1E*02 -1.68 A*H8(112,113)*XHE*GR 0.20 9 0.10 5 0.15 8 0.10 4 0.10 8 0.20 5 0.15 10 7.20 2.1E*01 -0.68 A*H12(112,113)*XHE*R 0.17 8 0.09 6 0.17 7 0.09 4 0.13 9 0.17 6 0.17 9 7.26 2.4E*01 -0.61 A*H12114*XHE*R 0.21 8 0.11 6 0. 11 5 0.11 4 0.11 9 0.21 6 0.16 8 6.74 7.1E*02 -1.15 A*H12111*XHE~R 0.16 8 0.16 6 0.16 10 0.08 4 0.12 9 0.16 6 07-16 9 7.64 5.9E*01 -0.23 A*H12(112,113)*XHE*FH 0.19 10 0.10 6 0.14 7 0.10 4 0.10 6 0.19 6*- 0.19 9 7.29 2.6E*01 -0.59 A*H12(112,113)*XHE*FL 0.19 12 0.10 6 0.14 7 0.10 4 0.10 6 0.19 6 0.19 9 7.29 5.8E*01 -0.59 A*M12114*XHE*FH 0.21 9 o. 11 6 0.11 4 0.11 4 0.11 9 0.21 6 0.16 8 6.84 9.1E*02 -1.04 A*H12114*XHE*FL 0.21 11 0.11 6 0. 11 4 0.11 4 0.11 9 0.21 6 0.16 8 6.84 2.3E*01 -1.04 A*H12111*XHE*F.H 0.18 9 0.09 6 0.18 9 0.09 4 0.09 9 0.18 6 0.18 9 7.73 7.2E*01 -0.14 A*H12111*XHE-FL 0.18 11 0.09 6 0.18 9 0.09 4 0.09 9 0.18 6 0.18 9 7.73 1.0E+OO -0.14 A*H12(112,113)*XHE*G 0.18 10 0.09 6 0.14 8 0.14 4 0.09 8 0.18 6 0.18 10 7.64 5.8E*01 -0.23 A*H12114-XHE*G 0.20 10 0.10 6 0.10 4 0.15 4 0.10 8 0.20 6 0.15 9 6.95 1.2E*01 -0.93 A*H12(112,113)*XHE*GR 0.18 9 0.09 6 0.14 8 0.09 4 0.14 9 0.18 6 0.18 10 1.n 8.0E*01 -0.10 A*HE(ll2,113)*XHE*R 0.14 8 0.10. 5 0.19 5 0.10 3 0.14 8 0.19 4 0.14 9 6.05 1.4E*02 -1.84 A*HEll4*XHE*R 0.17 8 0.11 5 0. 11 3 0.11 3 0.11 8 0.22 4 0.17 8 5.67 5.9E-03 -2.23 A*HEll1-XHE*R 0.13 8 0.17 5 0. 17 7 0.09 3 0.13 8 0.17 4 0.13 9 6.30 2.6E*02 -1.58 C) I A*HE(112,113)*XHE*FH 0.20 9 0.10 5 0.15 6 0.10 3 0.10 8 0.20 4 0.15 9 6.45 3.7E-02 -1.44 

 '->) A*HE(ll2,113)*XHE*FL      0.20     11   0.10      5   0.15      6   0.10      3   0.10        8 0.20     4    0.15      9     6.45   9.3E*02       -1.44
 ~

HIN 0.00 1. lE-08 -7.98 Calibration Actions NSAC84: OE1*LC 0.09 2 0.18 6 0.18 3 0:18 4 0.09 2 0.18 2 0.09 2 3.27 1.0E-05 -5.00 NSAC84: HC4-LOCA 0.09 6 0.18 3 0.18 8 0.18 8 0.09 6 0.18 9 0.09 8 6.91 1.0E-01 -1.00 NSAC84: RT1*LOCA 0. 11 3 0.11 4 0.22 5 0.11 5 0.11 0 0.22 4 0. 11 2 3.56 1.0E-04 -4.00 Regression Output: Constant -7.98 Std Err of Y Est 0.506 R Squared 0.971 No. of Observations 3 Degrees of Freedom 1 X Coefficient(s) 1.0138 Std Err of Coef. 0.1767 ~

Table G-3 Definition of Recovery Actions for Fire Scenarios Recovery Factor Recovery Remarks Considerations R-E2Wl-H-FV-3 Operator opens Loss of RHR in POS 6 of drained maintenance outages after R-E3Wl-H-FV-3 MOV-1890B to fire event at midloop. It may be a large fire that damages 480 V R-EBAWl-H-FV-3 establish LH RCS panel lHl, 4 kV stub bus lH, and nearby cables (E2); a large R-Ei3AW1-H-FV-6 feed and bleed usirig fire that damages 480 V panel 1 H and nearby cables (E3); a R:-E13BW1-H-FV-6 hot leg injection or small ESGR fire in the 480 V panel cabinet that casuses-a loss R-NlWl-H-FV-6 locally opens MOV- of the 4 kV bus lH (E13A); a small ESGR fire in the cabinet 1890C for cold leg for the 4 kV bus lH (E13B); or a small fire that causes a loss of injection the 4 kV transfer bus F (Nl). The operator might have failed to restore the RHR. Use same value as R-E2Wl-H-FV-3 for R-E3Wl-H-FV-3, R-El3AW1-H-FV-3, R-E13AAW1-H-FV-6,*R-E13BW1-H-FV-6, and R-NlWl-H-FV-6. R-E2(W2, W3)-H-FV-8 Operator opens Loss of RHR in POS 6 of refueling outages after a fire event at R-E3(W2, W3)-H-FV-8 MOC-1890B to midloop. It may be a large fire that damges 480 V panel lHl, 4 R-E13B(W2,W3)-H-FV-l6 establish LH RCS kV stub bus lH, and nearby cables (E2); a large fire that feed and bleed using damages 480 V panel 1 Hand nearby cables (E3); or a small hot leg injection or ESGR fire in the cabinet for the 4 kV bus lH (El3B). The locally opens MOV- operator might have failed to restore the RHR. 1890C for cold leg injection. Use same value as R-E2(W2,W3)-H-FV-8 for R-E3(W2,W3)-H-FV-8, R-E13B(W2,W3)-H-FV-l6, and R-RA(W2, W3)-H-FLV-16

Table G-3 (continued) Recovery Factor Recovery Remarks ' Considerations R-E4Wl-H-2CH-2 Operators cross- Loss of RHR in POS 6 of drained maintenance outages after a R-E5Wl-H-2CH-2 connects unit 2 fire event at midloop. It may be a large fire that damages 480 V R-El0Wl-H-2CH-2 charging pump and lJl panel, 4 kV 1J stub bus and nearby cables (E4); a large fire R-V1Wl-H-2CH-2 locally opens MOVs that damages 480 V 1J panel and nearby cables (ES); a transient to establish high combustible or cable fire in the J switchgear room (ElO); or a pressure RCS feed transient combustible or cable fire in the cable vault and tunnel and bleed. area that damages cables for both Hand J trains (Vl). Use same value as R-E4Wl-H-2CH-2 for R-E5Wl-H-2CH-2, R-El0Wl-H-2CH-2, and R-V1Wl-H-2CH-2 a I w O'I R-E4(W2, W3)-H-2CH-7 R-E5(W2,W3)-H-2CH-7 Operators cross-connects unit 2 Loss of RHR in POS 6 of refueling outages after a fier event at midloop. It may be a large fire that damages 480 C 111 panel, 4 R-E10(W2, W3)-H-2CH-7 charging pump and kV lJ stub bus and nearby cables (E4); a large fire that damages R-Vl(W2, W3)-H-2CH-7 locally opens MOVs 480 V 1J panel and nearby cables (ES); a transient combustible to establish high or cable fire in the J switchgear room (ElO); or a transient pressur_e RCS feed combustible or cable fore in the cable vault and tunnel area that and bleed. tdamages cables for both H and J traines (Vl). Use same value as R-E4(W2,W3)-H-2Ch-7 for R-E5(W2,W3)-H-2CH-7, R-E10(W2,W3)-H-2CH-7, and R-Vl(W2,W3)-H-2CH-7

Recovery Factor Recovery Remarks Considerations R-E4W4-H-2CH-5 Operators cross- Loss of RHR in POS 10 of refueling outages after fire event at : R-E5W4-H-2CH-5 connects unit 2 midloop. It may be a large fire that damages 480 V lJl panel, 4 R-E10W4-H-2CH-5 charging pump and kV 1J stub bus and nearby cables (E4); a large fire that damages R-V1W4-H-2CH-5 locally opens MOCs 480 V 1 J panel and nearby cables (E5); a transient combustible to establish high or cable fire in the J switchroom (elO); or a transient pressure RCS feed combustible or cable fire in the cable vault and tunnel area that and bleed. damages cables for both Hand J trains (Vl). Use same value as R-E4W4-H-2CH-5 for R-E5W4-H-2CH-5, R-ElOW4-H-2CH-5 and R-V1W4-H-2CH-5 C) I \ >) -l

Table G-4. PSF Ratlna* end BEPs for Fire Scenario RecoveZ7 Acti01l8 Dynamic Buman Action Evaluation for: SurZ7 Mid-loop Operations. Evaluation Team: DCB/JCL Action Grouplna Logic: Fire RecoveZ7 Precedlna, Plant Tlme Tralnlna, Other Actions Interface* AdequacJ' Procedure* EJ,perience Stre** Action Code Veiaht Score Veight Score

  • Veight Score Vel.ght Score Velaht Score Veiaht Score PLI P(fall) .LOG(P(fall))

Rated Actions MAX 7.87 l.OE+oO 0.00 R-E2Vl-B-FV-3 0.19 9 0.10 8 0.19 8 0.10 7 0.10 8 0.19. 5 0.14 9 7.67 6.3E-Ol -0.20 R-E2(V2,V3)-B-FV R-E2 V4-B-PV 0.20 0.22 9 9 0.10 0.11 8 8 0.15 0.11 6 3 0.10 0.11 ,. 5 0.10 0.11 7 7 0.20 0.22 5 

                                                                                                                           .s 0.15 0.11 8

6 6.90 6.22 1.0E-01 2.15-02 

                                                                                                                                                                   -0.98
                                                                                                                                                                   -1.67 R-E4Vl-B-2CB              0.19     9       0.10         8    0.19       9   0.10        7   0.10      8     0.19       .s  0.14      9      7.86     9.&E-01   -0.01 R-E4(V2,V3)-B-2CB         0.20     9       0.10         8    0.15       7   0.10       .s   0.10      8     0.20       .s  o.u       8      7.1.5    1.9£-01   -0.73 R-E4V4-B-2CB              0.22     9       0.11         8    0.11       4   0.11        4   0.11      a     0.22       .s  0.11     *6      6.44     3.liE-02  -1.44 MIN                                                                                                                                         0.00     1.lE-08   -7.98 Calibration Actions NSAC84: DEi-LC            0.09     2      0.18       Ii    0.18      3     0.18      4     0.09     2      0.18      2    0.09     2       3.27     1. OE-05  -5. 00 NSAC84: MC4-LOCA          0.09     6      0.18       3     0.18      8     0.18      8     0.09     6      0.18      9    0.09     8       6.91     1. OE-01  -1. 00 NSAC84: RTl-LOCA          0.11     3      0.11       4     0.22      .s*   0.11      .s    0.11     0      0.22      4    0.11     2       3 * .56  1.0E-04   -4.00 Regreaaion Output:

C01l8tant -7.98 Std Err of Y Eat 0.506 R Squared 0.971 llo. of ObHrvatl01l8 3 a Dear*** of Preedoe 1 - I t >l 00 X Coefficient(*) 1.0138 Std Err of Coef. 0.1767

Appendix H Not Used

APPENDIX I Event Tree for RHR 3 (irrecoverable loss of RHR) Event Tree for RHR 4 (irrecoverable loss of train A of RHR) Event Tree for RHR 5 (recoverable loss of RHR) Event Tree for 4K (loss of 4kv bus lH) I Event Tree for VB (loss of VITAL BUS) Event Tree for Bl (Unit 1 Blackout) Event Tree for Ll (loss of normal power on Unit 1)

APPENDIX I Event Tree for RHR 3 (irrecoverable loss of RHR)

IR3W1D6 FR3W1V CR3W1V SEQ # END-STATE-NAMES 1 OK 2 CD 3 CD I

IR3W1R6 VW1 SR3W1 FR3W1 GR3W1 CR3W1 SEQ # END-STATB-NAMBS 1 OK 2 CD 3 CD 4 CD. 5 OK 6 OK N I e 7 CD CD

IR3W2D6 SR3W2 FR3W2V CR3W2V SEQ # END-STATE-NAMES 1 OK 2 OK 3 CD 4- CD 'i' w

IR3W2R6 VW2 SR3W2 FR3W2 GR3W2 CR3W2 SEQ # END-STATE-NAMES 1 OK 2 CD 3 CD 4 CD 5 OK e* OK 7 CD B CD

IR3W3D6 SR3W3 FR3W3 SEQ # END-STATE-NAMES 1 OK 2 OK 3 CD I Ul

lR3W3R10 VW3 FR3W3 GR3W3 SEQ # END-STATB-NAMBS 1 DK 2 CD 3 CD 4- DK -I O'I 5 CD

  • r-----.-------,.------.------.------------=:;::_--.----------------------------

IR3W3R6 VW3 PR3W3 GR3W3 SEQ # END-STA TB-NAMES 1 OK 2 CD 3 CD 4- OK* 5 CD

IR3W4-D6 SR3W4 FR3W4V GR3W4 SEQ # END-STATE-NAMES 1 DK 2 OK 3 CD I 00 R3W4D6 Event Tree

IR3W4R10 VW4 FR3W4 GR3W4 SEQ # END-STATE-NAMES 1 OK 2 OK 3 CD 4- OK 5 CD R3W4R10

IR3W4-R6 VW4 FR3W4 GR3W4- SEQ # END-STATB-NAMES 1 OK 2 OK 3 CD 4- OK 5 CD 'i' 0 3W4R6 Event Tree

APPENDIX I - I Event Tree for RHR 4 (irrecoverable loss of train A of RHR)

IR4-W1D6 RR4W1 FR4W1V CR4-W1V SEQ # END-STA TB-NAMES 1 DK 2 OK 3 CD 4- CD I N R4W1D6 Ev nt Tree

IR4-W1R6 RR4-W1 VWl SR4-W1 FR4W1 GR4-W1 SEQ # END-STATE-NAMES 1 OK 2 OK 3 CD 4 CD 5 CD 6 OK 7 OK 8 CD 9 CD R4W1R6 Event Tree

IR4W2D6 RR4W2 SR4W2 FR4W2V CR4W2V SEQ*# END-STA TE-NAMES 1 OK 2 OK 3 OK 4 CD 5 CD ~ I R4W2D6 vent Tree

IR4-W2R6 RR4W2 VW2 SR4W2 FR4-W2 GR4W2 SEQ fl 1!:ND-STATE-NAMES 1 OK 2 OK 3 CD 4 CD 5 CD 6 OK 7 OK 8 CD 9 CD R4W2R6 Event Tree

IR4-W3D6 RR4-W3 SR4-W3 FR4W3V SEQ # END-STA TE-NAMES 1 OK 2 OK 3 OK 4- CD R4W3D EVent Tree

IR4-W3R10 RR4-W3 VW3 FR4W3 GR4-W3 END-STA TE-NAMES 1 OK 

                                                 .? OK 3  CD 4- CD 5  OK 6  CD I
....J R4W3R10 EVent ree

IR4-W3R6 RR4-W3 VW3 FR4-W3 GR4-W3 SEQ # END-STA TE-NAMES 1 OK e OK 3 CD 4- CD 5 OK B CD I 00 R4W3R6 EVent ree

IR4-W4-Rto RR4-W4- VW4 FR4W4 GR4-W4 END-STA TE-NAMES 1 OK 2 OK 3 OK 4- CD 5 OK 6 CD --I 

\0 R4W4R10 vent Tree

IR4'W4D6 RR4-W4 SR4W4 FR4W4V SEQ # END-STA TB-NAMES 1 OK 2 OK 3 OK 4 CD -~ 4W4D6 Event Tree

IR4-W4-R6 RR4-W4 VW4 FR4W4 GR4-W4 END-STA TE-NAMES 1 OK 2 OK 3 OK 4- CD 5 OK 6 CD I N R4W4R6 vent Tree

APPENDIX I Event Tree for RHR 5 (recoverable loss of RHR)

UNlTY lR5W1 RR5W1 FR5W1 GR5W1 CR!IW1 SEQ # END-STATE-NAHES 1 OK 2 OK 3 OK 4 CD 5 CD R5W1D6 Event Tree

UNlTY IR5W1 RR5W1 VWl SR5W1 FR5W1 GR5W1 CR5W1 SBQ # END-STATE-NAMES 1 DK 2 OK 3 OK 4- CD 5 CD 6 CD 7 OK 8 DK 9 CD 10 CD R5W1R6 Event Tree

UNITY IR5W2 RR~W2 SR~W2 FR!5W2V CR~W2V SEQ # END-STATE-NA).{ES 1 OK 2 OK a OK 4 OK 5* CD 6 CD R5W2D6 Event Tre

UNITY IR5W2 RR5W2 VW2 SR5W2 FR5W2 GR5W2 CR5W2 SEQ # END-STATE-NAMES 1 OK 2 OK 3 OK 4- CD 5 CD 6 CD 7 OK 8 OK 9 CD 10 CD R5W2R6 Event Tree

UN[TY lR!IW3 RR5W3 SR!IW3 FR!IW3V END-STA TE-NAMES 1 OK z OK 3 OK 4- OK 5 CD N I -..J R5W306 EVent ee

UNITY IR!1W3 RR!IWJ VW3 FR!IW3 GR!IW3 SEQ # END-STATE-NAMES 1 OK 2 OK 3 OK 4 CD 5 CD 6 OK 7 CD ~ I 00 R5W3R10 [Vent Tree

UNITY IR5W3 RR5W3 VW3 FR5W3 GR5W3 END-STATE-NAMES l OK 2 OK 3 OK 4 CD 5 CD 6 OK CD R5W3R6 EVent Tree

UNITY IR!SW4 RR5W4 SR!SW4 FR!SW4V SEQ # END-STA TE-NAMES 1 OK 2 OK 3 OK 4 OK 5 CD I t.,.) 0 R5W4D6 vent Tree

UNITY IR5W4 RR5W4 VW4 FR5W4 GR5W4 SEQ # END-STATE-NAMES 1 OK 2 OK 3 OK 4- OK 5 CD 6 OK 7 CD I 1-;l R5W4R10 Event Tre

UNITY IR5W4 RR5W4 VW4 FR5W4 GR5W4- SEQ # END-STATE-NAMBS 1 OK 2 OK 3 OK 4- OK 5 CD 6 OK 7 CD I w N R5W4R6 Event Tree

.... APPENDIX I I w w Event Tree for 4K (loss of 4kv bus lH)

I4KW1D H4KW1 R4KW1 F4KW1 C4KW1 SEQ # END-STATE-NAME 1 2 3 CD 4 CD 5 - I (.,.) 7 6 @ CD 8 CD Event Tree for Loss of 4KV Bus - 1/D6

H4-KW1 R4-KW1 VW1 S4KW1 F4KW1 C4KW1 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4 CD 5 CD 6 7 @ 8 CD I w UI 9 10 11 12 CD CD 13 CD 14 CD 15 @ 16 17 CD 18 CD Event Tree for Loss of 4KV Bus - W1/R6

I KW2D H4KW2 R4KW2 S4KW2 F4KW2 C4KW2 SEQ # END-STATE-NA E 1 @ 2 OK 3 @ 4 CD 5 CD 6 @ 7 OK 8 @ I w 0\ g 10 CD CD Event Tree for Loss of 4KV Bus - W2/D6

I4-KW2R H4-KW2 R4-KW2 VW2 S4KW2 F4-KW2 C4KW2 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4 CD 5 CD 6 7 @ ..... 8 CD w I 9 CD -..J 10 11 12 CD 13 CD 14 CD 15 @ 16 17 CD 18 CD Event Tree for Loss of 4KV Bus - W2/R6

I4KW3D H4KW3 R4KW3 S4KW3 F4KW3 SEQ # END-STATE-NAME 1 @ 2 OK 3 4 CD 5 6 OK w 00 7 8 CD Event Tree for Loss of 4KV Bus - W3 06

14-KW3R H4-KW3 R4-KW3 VW3 F4KW3 G4KW3 SEQ # END-STATE-NAMES 1 @> 2 @> 3 CD 4 CD 5 @> 6 CD 7 @> 8 @> 9 CD -I vJ \0 10 11 12 CD CD Event Tree fo Loss of 4KV us - 3/R10

r-I4KW3R H4KW3 R4-KW3 VW3 F4KW3 G4KW3 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4- CD 5 6 CD 7 @ 8 @ 9 CD 10 CD I 11 @ 

  .i,..

0 12 CD Event Tree fo Loss . of 4KV us - 3/R6

I4KW4D H4KW4 R4KW4 S4KW4 F4KW4 SEQ # END-STATE-NAME 1 @ 2 OK 3 4 CD 5 6 OK 7 8 CD Event Tree for Loss of 4KV Bus - W4 D6 

                                                             \

14KW4R H4KW4 R4KW4 VW4 F4KW4 G4KW4 SEQ # END-STATE-NAMES 1 @ 2 @ 3 OK 4- CD 5 

                                              .6    CD 7    @

8 @ 9 OK 10 CD 11 12 CD Event Tree fo Loss of 4KV us - 4/R10

I4KW4R H4-KW4 R4-KW4- VW4- F4KW4- G4KW4- SEQ # END-STATE-NAMES 1 @ 2 @ 3 OK 4- CD 5 @ 6 CD 7 @ 8 @ ~ w 9 10 11 OK CD 12 CD Event Tree fo Loss of 4KV us - 4 /R6

APPENDIX I I ~ ~ Event Tree for VB (loss of VITAL BUS)

IVBW1R HVBW1 RVBW1 VW1 SVBW1 FVBW1 CVBW1 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4 CD 5 CD 6 7 @ 8 CD 9 CD 10 11 12 CD 13 CD 14 CD 15 @ 16 17 CD 18 CD Event Tree for Loss of Vital Bus - W1/R6

IVBW 1D HVBW 1 RVBW 1 FVBW 1 CVBW 1 SEQ # END-STATE-NAME 1 2 3 CD 4 CD 5 6 7 CD 8 CD Event Tree for Loss of Vital Bus - 1/06

HVBW2 RVBW2 SVBW2 FVBW2 CVBW2 SEQ # 1 2 OK 3 4 CD 5 CD 6 7 OK 8 9 CD 10 CD Event Tree for Loss of Vital Bus - W2/D6

IVBW2R HVBW2 RVBW2 VW2 SVBW2 FVBW2 GVBW2 CVBW2 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4 CD 5 CD 6 7 @ 8 CD 9 CD 10 11 12 CD I .I>,. 13 CD 00 14 CD 15 @ 16 17 CD 18 CD Event Tree for Loss of Vital Bus - W2/R6

IVBW3D HVBW3 RVBW3 SVBW3 FVBW3 SEQ # END-STATE-NAME 1 @ 2 OK 3 4 CD 5 6 OK 7 8 CD Event Tree for Loss of Vital Bus -*- W3 D6

IVBW3R HVBW3 RVBW3 VW3 FVBW3 GVBW3 SEQ # END-STATE-NAMES 1 @ 2 @ 3 CD 4- CD 5 6 CD 7 @ 8 @ 9 CD .... 10 CD &i 11 0 12 CD Event Tree fo Loss of Vital us - 3/R10

IVBW3R HVBW3 RVBW3 VW3 FVBW3 GVBW3 SEQ # END-STATE-NAMES 1 @> 2 @ 3 CD 4- CD 5 6 CD 7 @ 8 @ 9 CD 10 CD 11 12 CD Event Tree fo Loss of Vital us - 3/R6

IVBW4D HVBW4 RVBW4 SVBW4 FVBW4 SEQ # END-STATE-NAME 1 @ 2 OK 3 4 CD 5 @ 6 OK 7 I 8 CD Vi Iv Event Tree for Loss of Vital Bus W4 D6

NBW4R HVBW4 RVBW4 VW4 FVBW 4- GVBW 4 SEQ # END-STATE-NAMES 1 @ 2 @ 3 OK 4- CD* 5 @ 6 CD 7 @ 8 @ 'i' 9 OK VI w 10 CD 11 12 CD Event Tree fo Loss of Vital us 4/R10

NBW4R HVBW4 RVBW4 VW4- FVBW 4- GVBW 4- SEQ # END-STATE.,....NAMES 1 @ 2 @ 3 OK 4- CD 5 6 ~D 7 8 @ 9 OK 10 CD 11 12 CD Event Tree fo Loss of Vital us - 4/R6

APPENDIX I I VI VI Event Tree for Bl (Unit 1 Blackout)

UNITY IB1W1 VW1 NB1W1 SB1W1 ZCHGW1 GB1W1 SEQ # END-STATE-Ni 1 @> 2 R5W1R6 3 CD 4 CD 5 CD 6 R5W1R6 7 @ 8 CD 9 CD B1W1R6 EVENT TREE

UNITY IB1W1 SEQ # END-STATE-NAMES 1 @ 2 T R5W1D6 3 CD 4 CD B1W1D6 EVENT TREE

UNITY IB1W2 VW2 NB1W2 SB1W2 2CHGW2 GB1W2 SEQ # END-STATE-Ni 1 @ 2 R5W2R6 3 CD 4 CD 5 CD 6 R5W2R6 7 @ 8 CD 9 CD 'i" VI 00 B1W2R6 EVENT TREE

UNITY IB1W2 NB1W2 SEQ # END-STATE-NAMES "1 @ 2 T ~5W2D6 3 4 CD 5 CD B1W2D6 EVENT TREE

UNITY IB1W3 VW3 NB1W3 2CHGW3 GB1W3 SEQ# END-STATE-NAMES 1 @ 2 R5W3R6 3 @ 4 CD 5 CD 6 R5W3R6 7 @ 8 CD B1W3R6 EVENT TREE

UNITY IB1W3 VW3 SEQ# END-STATE-NAMES 1 @> 2 R5W3R!O 3 @> 4- CD 5 CD 6 R5W3R10 7 @ 8 CD °' I B1W3R10 EVENT TREE

UNITY IB1W3 NB1W3 SB1W3 2CHGW3 SEQ # END-STATE-NAMES 1* @ 2 T R5W3D6 3 @ 4 @ 5 CD B1W3D6 EVENT TREE I O'I N

UNITY 1B1W4 VW4 SEQ # END-STATE-NAMES 1 @ 2 R5W4R6 3 @ 4- @ 5 CD 6 R5W4R6 7 @ 8 CD I ~ 81W4R6 EVENT TREE

UNITY IB1W4 VW4- NB1W4 2CHGW4 GB1W4 SEQ # END-STATE-NA:MES 1 @ 2 R5W4R10 3 @ 4 @ 5 CD 6 R5W4R10 7 @ 8 CD B1W4R10 EVENT TREE.

UNITY IB1W4 NB1W4 SEQ # END-STATE-NAMES 1 @ Z T R5W4D6 3 @ 4 @ 5 CD B1W4D6 EVENT TREE

APPENDIX I I O'I O'I Event Tree for Ll (loss of normal power on Unit 1)

UNITY . IL1W1 RL1W1 NL1W1 FL1W1 CL1W1 SEQ # L 1W106 LOSS OF OFFS~E POWER CAT. L1, WINDOW 1 DRAINED MAINTENANCE 1 2 3 4 CD 5 CD 6 7 CD 8 CD

UNITY IL1Wi RL1W1 VW1 NL1W1 SL1W1 FL1W1 GL1W1 CL1W1 SEQ # END-STATE-NA ES L iWF6 - LOSP L 1, WINOOW W1, POS R6 1 2 3 4: CD 5 CD 6 CD 7 8 CD 9 CD 10 CD -°' I 00 11 12 13 CD 14 CD 15 @ 16 17 CD 18 CD

UNITY IL1W2 RL1W2 NL1W2 SL1W2 FL1W2 CL1W2 SEQ # L 1W2D6 -- LOSP L 1, WINDOW W2, POS D6 1 @ 2 @ 3 @ ~ I 4- @ °' '° 5 CD 6 CD 7 8 @ 9 CD 10 CD

UNITY IL1W2 RL1W2 VW2 NL1W2 SL1W2 FL1W2 GL1W2 CL1W2 SEQ # END-STATE-NA ES L 1W2R6 _ _:_ LOSP L 1, WINDOW W2, POS R6 1 2 @ 3 4 CD 5 CD 6 CD 7 -I ....J 0 8 9 

                                                                    -10 11 CD CD CD 12   @

13 CD 14 CD 15 @ 16 17 CD 18 CD

UNITY IL1W3 RL1W3 NL1W3 SL1W3 FL1W3 SEQ # L 1W306 - - LOSP L 1, WINDOW W3, OS D 1 I 2 @ 3 @ 4 5 CD 6 7 8 CD _ _ _ _ _ _ J _ _ _ _ _ J __ _ _ _ _ _ _ _

UNITY I11W3 RL1W3 VW3 NL1W3 FL1W3 GL1W3 SEQ # END-STATE-NAMES L 1W3R10 LOSP L 1, WINDOW W3, POS 10 1 2 @ 3 4: CD 5 CD 6 @ 7 CD - I ....J N 8 9 10 11 CD CD 12 CD

UNITY 111W3 RL1W3 VW3 NL1W3 SEQ # END-STATE-NAMES L 1W3R6 -- LOSP L 1, WINDOW W3, POS R 1 2 @ 3 4 CD 5 CD 6 @ 7 CD 8 CD -I -..J e..,J 10 g @ CD 11 12 CD

UNITY IL1W4 RL1W4- NL1W4 SL1W4 FL1W4 SEQ # END-STATE-NAME L 1W406 -- LOSP. L 1, WINDOW W4, OS D 1 @ 2 @ 3 @ 4 @ 5 CD 6 7 @ 8 CD

UNirY I11W4. RL1W4 VW4 NL1W4 SEQ # END-STATE-NAMES L 1W4R 10 - - LOSP L 1, WINDOW W4, POS 10 1 @ 2 @ 3 @ 4- OK 5 CD 6 @ 7 OK 8 CD 9 @ 10 CD. 11 @ 12 CD

I UNITY I I11W4 I RL1W4 I VW4 I NL1W4 I FL1W4 I GL1W4 I SEQ # END-STATE-NAMES L 1W4R6 - - LOSP L 1, WINDOW W4, POS RID 1 @> 2 @> 3 @> I I 4- OK 5 CD 6 @> I I 7 OK 8 CD 9 @> -I ...J 0-, 10 11 12 CD CD

APPENDIXJ Fault Trees from Internal PRA Modified for Fire Events

AUXILIARY FEEDWATER POS 3-'-13 (AFW41) XA.-l!llA J'I-P-V-J~JA PJ-I>-V-JelA

AUXILIARY FEEDWA TER POS 3-13 (AFW42) PAILURB DP KCC-.I.Jl-2 E12 PI-P-V-151D FI-D-V-151B .AFW-WOV-PG-151B AF11'-WOV-PT-151B AF/f-UOV -CC-151 AFll'-M:OV -IIA.-151B

AUXILIARY FEEDWATER POS 3-13 (AFW43) IIHZ J'I-P-V-1~1C PI-D-V-101C APW-1,COV-PG-10.IC AFW-IIOV-PT-lelC APW-IIOV-OC-1~1 APW-IIOV-llA-1GlC

AUXILIARY FEEDWA TER POS 3-13 (AFW44) B.Je J'I-P-V-151D PI-D-V-1!i1D Anl'-HOV-PC-J.51D AFW-MIOV--¥r-15ID APW-MIOV-CC-151 Anr-MIIJV-XA-151D

AUXILIARY FEEDWA TER POS 3-13 (AFW45) ~ I '.Jt FI-P-V-15JE PI-D-V-15lB A.Y'l1-ll.O'V-PG-l.51E AFW-llO'V-PT-l5lB APW-llCV~-151 AVW-JIOV-llA-151B

AUXILlARY FEEDWATER TO 1 OF 3 SG (AFWS-1) (AFWS15) INSlFFICIENT OW THROUGH PIPE SEGMENT" PS81 AFWS17 FAULTS IN PIPE EGMENT PS82 PTRN 38 AFW-TNK-VF-CST AFW-CCF-LK-sn..£0 4KV1J I °' INSUFFICIENT T ST AlfD MAl!fTENA CIJ FLOW THRU PUMP ON Al'W MDP 3B DUE TO BACKFLOW MA-FW3B BACKFLOW Tl-ROUGH TDP FW2 AFTf-CKV-OO-CVH2

AUXILIARY FEEDWA TER POS 3-13 (AFW46) I -J E1B FI-P-V-1511' Fl-D-V-l5JP AFW-l40V-PG-151F AF'W-MOV-PT-151P APW-MOV-CC-151 AFll'-KOV-MA-151P

AUXILIARY FEEDWATER TO 1 OF 3 SG (AFWS-1) (AFWS17) NSlFFK:ENT FLOW TlfIDUGH Pf'E SEGt.ENT PS81 S17 

                                                                              ~

FAL~E CF 120 V FAlLTS N Pl'E FALUlE OF 4KV AC 5EGt.ENT P581 PTRN AV. DC BUS V. BUS 1H JA 1 CST AFW-TN<---\IF-csr AFW--ca=--u<-SJM3D E'IA. 4KV1H INSITTICENT FLOW T~U PUMP CE I DUE TO BACKFLOW 00 

                                                                                          .APlf--cKV-CC-fl!G77 lil-PW3A BACKFLOW                             BACKFLOW T~UGH MlP FW38                       Tl-ROUGH TIP FW2 ftFW-CKV--00---0(142 AFW-MDP-FS-FW:IS-P-P-PW3B         PI-D-P-FW3B

COMPONENT COQLING WATER SYSTEM FAULT TREES INSUFFICIENT CC WATER FROM UNIT 1 CC HEADER, CCW13 CCW--IF-Sll(1 ESIB1J CCW19 IIU.-EtB BIA Fl-$-1'-CCPII. FH'-P-CCPII. CCW41li'-FR-CCPII.

CHARGING PUMP A COOLING (CPCA) (CPC2) INSUFFICIENT FLOW THROUGH PIPE SEGMENT PS 101 t :,l and mainlena c:e FAU..TS IN PIPE INSUFF. SN SUPPLY COMMON CAUSE FAULTS IN PIPE on mdp sw!Ob SEGMENT PS101 FLOW FROM PIPE FALL.IRES IN PIPE FALURE OF 480V SEGMENT PS101 CONTD SEGMENT PS101 AC MCC 1J1-1 SEGe, PS3 OR PS4-CPC-ICC-FA-S\'VPBS MA-SW10B GON1813 EJ1 BACKFLOW THROUGH PS100 CPC-CCF-LF-STRl>.B CPC-CKV-00-CV 113 CPC-MDP-FR-SW 10A FI-S-P-S'W1QA. FI-P-P-SW1Q.\

HIGH PRESSURE INJECTION MANUAL (D2) (D2) HPI-CK\/-FT-CV225 CKV-CCf-fT-QDlG H'I-XI-E-FO-FOOLD INSUFFICIEITT r:JI,/ 1HROUGH PIPE SEGI.ENI" PS13 HP16A INSF C?C CH1B;SW LUBE OL, CC TO Scl>J... Goa.ER E1B CPCB EH1 

                                                                                                                      -FT-1B67D
                                                                                                                      -PC-'IB670 FALURE Of"
                                                                                                                      -fT-887CD 12<N AC P0\1£R 0 VTT.-L BUS H EJ1 HPl21                                                  E21D      W.-CH1B

r CHARGING PUMP A COOLING. (CPCA) (CPC1) INSUFFICENT FLOW lHROUGH PPE SEGt.ENT PS10 

  "-I N

I INSUFFICENT Fl.OIi n.ROUGH PS100 STRAtERS FAL~ OF 480V AC MCC 1H1-1 CPC-MJP-fR-SWn4. MDP SW11DA n( MAINTENANCE CPC-YDP-MA-SW1QA PI-S-P-SWUlA. PI-P-P-S1i'1DA

HIGH PRESSURE INJECTION MANUAL (D2) (D2HLG) Q(V~-fT-tfllG2 ll'Wlt.G Ell CPC8 EJ1 11'121

HIGH PRESSURE INJECTION EMERGENCY BORATION (HPI-EB) (04) E1B EH2 EJ2 PAGE 1 & 2

LOW PRESSURE INJECTION (LPI) (06) TBLUI SIS-ACT...f"l,-SlSB E1'. El801J EIB IL!.-1801!.1.

LOW PRESSURE INJECTION (LPI) (D6-C) 

                                                 ~fbw~
                                                 ~~                                                  -
                                                                                                     ~~

r~or-Pl>I~ J.PI--Dm-PO-CD.ZI 

                                                                              -                                 DI-IRIV-GJ-IIIIIIIC RWT-lNC--lf~

'i" ~ O'\ LPHl(V-FT-c\124-2 l.PI-DW-n-cva:z Ell CZ LPl-llll'-fs-s11 

                        ~-           FH'..P...QS                                  Fl-~      FH'-P-SIII   ~-SIii

Loss of LPI Flow Path(D6-CG I ....J 111.-SHJI

LOW PRESSURE INJECTION TO HOT LEGS (D630HLG) I 00 INSLf FLOW TO MOV1890B FROM LPI TRAN A Al'll W.NrENA.NCE ON LPI MJP Slit\ M<\-S11A

LOW PRESSURE

  • INJECTION TO HOT LEGS (D631HLG)

INSUP l'LOW TO II ¥1890A PROM LPI TRAIN A ST Al'O "6.NT~NC ON LPI M!P S11'\ MA-51111

LOW PRESSURE INJECTION TO HOT LEGS (D640HLG) NSUF FLOW TO M0\118900 FROM L f£AD SI TRAIN 8 N 0 INSLf" FLC'.'I TO t.0.'18908 FROM LP TRAN B ST ANl ~INTENAN ON LPI t.llP SIB W.-Sl1B

LOW PRESSURE INJECTION TO HOT LEGS (D641HLG-) JNSUF FLOW TO OV1890A FROM LO HEAD SI TRAIN I! D64 H...G INSUP FLOW' TO MOV 1890A FRON I.Pl TRAIN B At-0 MA.INTE~N ON LPI t.OP Sl18 W.-S113

HIGH PRESSURE RECIRCULATION (HPR-H2) (H2) INSUF FLOW FRM 3 Cf-RG PMPS IN Tl-£ RECIR MOOE INSlF FLOW TO INSUF FLOW TO CHRG SUCT t-0 FM TI-E CQD LEGS FRM LPSI MOVS1863A/B 3 CHRG PUMPS . I N N INSUFFICIENT FLOW INSUFFICIENT FLOW INSUFFICENT FROM LPR MOV FROM LPR MOV FLOW FROl.4 1863,\ a-wlGNl PUl.4P lrVP--C!*f'IC LPR-1-tlA INSlFFICENT FLOW FROM Q-1/\RGiNG PUl,f' MOP-CHE fPR--MDP-FR-A 181R MA-CH1A 4KV1H I-PR13 6 INSUF FLOW DUE TO BACKLEAKAGE HPI-CKV-FT -0/267 TI-RU MDP CH-1A 6 HPI-MDP4'S-CH18 HR IIS~=~f FI-P-P-CHP18 FHJ-P-cHP1B l'l-P-P-CHPlA MA-CHE HPR14 HPR15 PAGE 1

LOW PRESSURE RECIRCULATION

  • TO RCS (LPR-LH)

(HAS) BUMPPLUG LPR4 E4801H W.-SIIA L.PI--O<'/-OO--CV50 PAGE 1 LPI-MDP-PS-SI!B Fl-D-P-SI1B 11-P-P-SliB

HIGH PRESSURE INJECTION - AUTOMATIC (01) (HPl21)

  • INSUF FLOW FM MOP CH-13, 'IC DU TO BAa<FLOW I

N +- I-PI--O<V-OO-CV258 PAGE 4 HPI-MDP-:FR-1AflHR F1-P-P-CHP1A Fl-S-P-CHPiA

HIGH PRESSURE INJECTION AUTOMATIC (01) (HPl4) INSUF FLO# THROUGH PPE SEGMENT PS11 FLOW FAILURE Cf" 4KV AC FROM ~NG BUS 1i PUMP SUCTION I-EADER HPI-MDP-FR-tl\6HR PAGE 1 MA-CH1A 4KV1H HPl9

HIGH PRESSURE INJECTION MANUAL (02) (HPl4A) ..... INSUF FLOW I THROUGH PIPE N SEGMOO PS11 0\ HP4A INSF CPC CH1A.:SW FROM Cf-1.<\RGING TBLO FAILURE OF 4KV AC TO LUBE OL, CC TO FI-S-P-CHP1A. BUS 1H PUMP SUCTION FI-P-P-CHP1A. SEAL COOLER HEI\DER FI-S-V-1286A FI-S-V-1267A HPI-MDP-FR-~6HR 4-KV1H CPCA HPl9A KA-CHU. PAGE 1

HIGH PRESSURE INJECTION AUTOMATIC (Di) (HPI6) INSUFFICIENT FLOW THROUGH PIPE SEGMENT PS13 NO ACTLV\TION INSUF FLOW SIGNAL TO FROM Cl-l.!\RGING INSUFFICIENT Cf\11.RGING PUMP PUMP SUCTION FLOW THROUGH MOP 

'-<                                                                                                                            CH--1C IN PS13 I      MDP-CH'IC                                                 HEADER N
-.J HPl9
                                                                              !NSF CPC CH1C:SW               INSUF FLOW FM FAILURE OF 4KV AC        FALURE OF 120\/                TO LUBE OL, CC TO            MOP CH-18, 1C DUE BUS 1H                DC BUS V.                       SEAL COOLER                  TO BA.a<FLOW        HPI-MDP-FR-1C12H            FI-S-V-127Cl'.

HPI-CCF-FS-Cl-11BC FI-D-P-CtfC HPI-XHE--FD-PLLCK FI-P-P-CHP1C uv-PG-1270A OV-PG-1288C HPI-CKV-FT--0/276 4KV1H EtA. CPCC HPl21 FALURE OF 12DV AC POWER TO vrrAL BUS 1-1 SIS-ACT-FA-SISA. SIS-ACT-FA-SISB HPI-MOD-FT-101C E11 ldA-CH1C

HIGH PRESSURE INJECTION MANUAL (02) (HPl9A) N 00 I-PI--M:I\I-FT-11t5C 0110110~0 EH2 EJ2 EH2 E;J2 F1--o-v-11tse FH'-v-11,sc PAGE 3 F&D-4-tt1SE FH'-V-111SE

HIGH PRESSURE RECIRCULATION (HPR-H2) (HPR14) INSUF FLOW DUE TO BA.CKLEAKAGE I-RU MDP CH-1A 18 

                                                ~

I N 

\0 PAGE 2 HPI-CKV-00--0/258.

HPR-MDP-FH-A18HR FI-P-P-CHP1A FI-S-P-CHP1A

HIGH PRESSURE RECIRCULATION (HPR-H2) (HPR 15) INSUF FLOW DUE TO BACKLEAKAGE HRU MOP CH-1A 6 HR HPI-CKV-00-0./258 PAGE 3 HPI-MDP-FR-lABHR FI-P-P-CHP 1A FI-S-P-CHPlA

HIGH PRESSURE RECIRCULATION (HPR-H2) (HPR8) ~ lffi12 TR.4 

                                                 ~~I ST ABD MAlll'lERAl!CE ON BPI KllP CH1, sis...:,.cr-FA-S&.

HPR14 IPR1S iu..-cmc

LOW PRESSURE INJECTION TO HOT LEGS (LPIHLG) LPl300 FAURE CF 120V DC BUS 11. tbl2 LPI-CKV-oo-ot50 LPI-MDP-P9-SI1l! PI-D-P-SI1D FI-P-P-911B

LOW PRESSURE INJECTION TO HOT LEGS (LPIHLG) LPI301 FAR.URE OF 400V AC BUS 1i E4B011 INSlFFICIENT FLOW FM LHSI 1A DUE TO ~~OW LPI-CKV-OO-CV50 LPI-MDP-FS-SI1B FI-D-P-BllB FI-P-P-BI!B

LOW PRESSURE INJECTION TO HOT *LEGS* (LPIHLG) LPl400 f ALlllE OF 12.(N DC BUS 1B E4801J E1l test MA-SUB LPI-Cl(V-00-Cl/58 LPI-MDP-PS-SI1A P'I-D-P-SI1A PI-P-P-SUA

LOW PRESSURE INJECTION TO HOT LEGS (LPIHLG) LPI401 lbl5 

                                                                          -fT-rN4-68
                                                                          -PG-1864A
                                                                          --PC-1864B FI-S--V-18628 E1!

LPI-llDP--l'S-SliA l'I-D--i'-SJ1A 1"1--i'--i'-SIIA

LOW PRESSURE RECIRCULATION TO HPR (LPR-HH) (LPR-HH 1) t,JSLF FLCJ\11 FROM LPSI Pl,f> TRN A TO WtN 1863A INSlFFICENT FLOW FROM LPSI Pt.I' 1RN A lPR--1+[3 INSUF FLOW DUE TO BACKFLOW TI-RU MOP S111l MA-S11A PAGE 2 6 LPI-MDP-FS-BUB cS 0 PI-D-P-Sl!B PI-P-P-Sl1B

LOW PRESSURE RECIRCULATION TO HPR (LPR-HH) (L I UF FL FROM LPSI PM? TRN I 2)* B TO MCN 18638 INSUFFICIENT NSl.fFICIENT Tl-RU PS38 OR FLOW TI-ROUGH FLGW FROM LPSI FAllllRE TO ISa.. SEGI.ENT PS33 PTRN PMP TRN B 31 B LPR-1-1-18 FAILURE OF 12CN FAILURE OF 480\/ INSlF FLOW DLE DC BUS 1B AC BUS 1J TO BA.CKFLOW THROUGH MOP 511A LPI-O<V-FT --0/50 LPH.OP-FS-5113 LP1-MDP-FR-1361-R LPI-CCF-FS-5111,B Fl-~-S113 FI-P-P-S113 E1B E4801J t>>..-S113 PAGE 4 LPI-CKV-OO-CV58 LPI-MDP-FS-BI1A PI-D-P-SI1A FI-P-P-BI1A

LOW PRESSURE RECIRCULATION TO RCS (LPR-LH) (LPR 10) PIPE SEGMENT PS33 FAULTS INSUF FLOW DLE FALL.IRE CF 4BOJ lbl2 FALURE OF 12CN TO BACKLEAl<'\GE AC BUS\J DC BUS 1B THRU MOP SI,-_

r-srr LPlif-E:--FS-SI "I!

LPI FI-P-P-Sl"I! P1-XVM-PG-t4B LPI-MO\/-PG- 648 I v,l 00 LP 15 E4801J E1B MA.-S11B LPI-CKV-OO-CV58 c5 cS 0 LPI-MDP-FS-SIJA FI-D-P-SUA FI-P-P-SIJA

LPI TO HOT LEGS-RECIRCULATION MODE (HASHLG) LPR100 PIPE SEG).ENI" PS33 FAlLTS FAILLRE OF 120V tbll 1bl2 DC BUS 18 l--0(\l-fT --0/50 XVl.4-PG-XV4B 

                                                                        ~8~=~=18~~

E4801J E1B IM-Slll LPI-NDP-PS-SIIA FI-D-P-SllA PI-P-P-SIIA

LPI TO HOT LEGS-RECIRCULA Tl'EtJRMJ~DE (HASHLG) PIPE SEGMENT PS32 FAULTS lm1uf flow due Failure or 4BOV Failure or HlOV T ST AND MA.INTENA to backleakage AC Bus lH DC Bus 1A ON LPI l.{)P SI 14. thru MDP SI1B E4B01H EV.. MA.-Sl'IA. LPI-CKV--00-0/50 LPI-MDP-P'S-Sllll FI-D-P-Sllll FI-P-P-SI1B

LPI TO HOT- LEGS-RECIRCULATION MODE (HA-SHLG) 

                                                         ~~~1 Insur now due             Failure or -iBDV     Failure oC 120V" to be.ckleakage             AC :Bua 1H           DC Bue 1A thru MDP SUB E4801H LPI-CKV-00--0/00 IPI-Mi>P-FS-SI!B     FI-D-P-SUB       l'I-P-P-SI1B

PRIMARY PRESSURE RELIEF 2 OF 2 (P) (P) OPEN BOTH PORVS FOR FEED ANO BLEED INSUFFICIENT INSUFFICIENT S DON'T SBT PO A.OW THROL.X;H PIPE FLOW THROUGH PIPE ETTING AT 4-75 P SEGMOO PS130 SEGMENT PS131 IN POS 3-13 PPS-XHE-FO-PORVS PORV El.OCK 111...V POS M0\/1535 FALS IN 3-13 TI-£ CLOSED PO$ PPS-SOV-FT-1456 PPS-OP-SET-SD E18 HA-1456 HOUSE-POS313 PORV BLOa< VL V PORV BLOCK VLV MOV1535 FAILS TO MOV153S FAILS IN FAILURE OF 120V OPEN THE QOSED POS DC BUS 1t.. PPS-MOV-FC-1535 PPS-S0V-FT-1455C PPS-CCF-FT -PORV MA-1-'55C PORV El.OCK VLV FAILURE OF 480V MOV1536 FAILS TO AC MCC 1H1-2 OPEN PPS-MOV-FC-1536 EH2 FALURE OF 480V AC MCC 1J1-2

PRIMARY PRESSURE RELIEF

  • 1 OF 2 (P1)

(P1) tlSUFFICENT at/ "THROUGH PIPE SEG!.ENT" PS1.31 PPS-OP-SBT-SD H01JBE-P093l3 PORV BLOCK IJLV '1'1!8 MOV1536 FALS IN THE Q.OSED POS l!A-14~ PPS-MOV-FC-1535 PPS-M'.JV-FC-1536 lbl3 PAGE 1 & 2 FALLRE OF 4BOV AC t.tCC 1J1-2 P -CCF-FT-1~ PS-MOV-1536 FI-S-V-1536 EH2 EJ2

PRIMARY PRESSURE RELIEF ATWS (P2) (P2) FAil.iE OF 3 OF 3 9l¥S TO IHN PPS-SRY-FT-155SC ~SRV-FT-155B IIA.-J4M E1l PAGE 1 & 2 FALU£ OF ,4aa,J N:, MCC "H1-2 EH2

RHR11 RHR-XVM-PG-XV6 RHR-CKV-FT-Cl/11 Rrft-t.lJP-FS-RIRIA BACKFLOW THROUGH 0/5 RHR MOP 'Ill FALS TO RLN 24- HOURS RHR-MDl'-fR-A24HR RHR-CCF-FS-MDPAB 111-S-P-IUIP!A 1'1-P-P-BBP1A RHH-MDP-f5-Rffi1B FI-P-P-RBPlB FI-D-P-RBPJB 

                                               ~ W J..VE Laos at DC         LOSS OF CCW '10            XV12 i:t.UGGEO         Loss of Stub Bus 1A             RHR PUMP A.                                          Bus 1B E'III                 CClf3

r RHR11--S Loss of Operating Troin HOUSB-RHB5A 

                                                                   ~-XVM-PG-)(\16          ~--O<V-FT-C\/11             RHR-MDP-FS--RHRIA RHR~KV-00-Cl/5                  FI-S-P-RIIP1A.                               Rffi-MDP-FR-A24HR           RHR-CCf"-FS-MDPAB Loss of Stub Bus 1H CCW3B                                                ESTB1H RffHADP-FS-Rffi18 FI-D-P-RHPIB         PI-P-P-RHPIB                              RHR-XVM-PG-Xl/12

RHRB F RlfHIO\l--00--1605 B Fl-9-l'-IIBPJA PI-P-P-IIIIP1A lffH,i)P-FS--RHR'A

SG A PORV FAILURE FAILURE OF SG PORV SG A PORV SG A PORV CC FAILURE OF SG A PORV LOSS OF FAILURE OF SBMI-VITAL BU I FAILS TO OPEN PLUGGED SG A PORV BLOCKED INSTRUMENT AI .i::,. 00 TIA-CSD SEMI-YIT-BUS MSS-AOV-FT-101A MSS-AOV-PG-101.A MSS-CCF-FT-01ABC MSS-AOV.:.FC-101.A SG A SG A PORV UNAVAILABLE IN TEST OR MAINTBNANCE FIRE INDUCED SPURIOUS FAILURE MSS-AOV-MA-101A SG A SBCONDAR FI-D-V-101A SIDE DRAINED SGA-DRAINED-R

RHR8-S

  • RI-R-XI/M-PG-XV2 RHR-CKV~11 RIR-XVM-PG-XV6 1'1-9-P-RBPIA 1'1--P-P-BBPlA PI-D-P-RBPIB 1'1--P-P-BBPIB BHB-MDP-l!A-RBRlB

I 'Jl 0 TEL1 rhr-aov-co-1758 MAINTENANCE OF TE AND MAINTENAN rhr-xmv-ft-xv20 RHR PUMP B 0 HRH MOY 1720A rhr-xmv-ft-xv24-FI-D-P-RHP 1B FI-P-P-RHP1B HOUSE-RHR5A MA-RHR1B MA-1720A

SG B PORV FAILURE FAILURE OF SG PORV SG B PORV SG B PORV CC FAILURE OF SG B PORV LOSS 01' FAILS TO OPEN BLOCKED FAILURE OF PLUGGED SG B PORV INSTRUMENT Al SEMI-VITAL BUS TIA-CSD SEMI-VIT-BUS MSS-AOV-FT-101B MSS-AOV-PG-101B MSS-CCF-FT-01ABC MSS-AOV-FC-1018 FIRE INDUCED SG B SG B PORV SPURIOUS UNAVAILABLE IN TEST OR FAILURE MAINTENANCE FI-D-V-101A MSS-AOV-MA-101B SG B DRAINED SG-B-DRAINED-R

SG C PORV FAILURE FAILURE OF SG PORV SG C PORV SG C PORV CC l!'.A.ILURE OF SG C PORV LOSS OF FAILURE 01!' FAILS TO OPEN PLUGGED SG C PORV BLOCKED INSTRUMENT Al SEMI-VIT.AL BUS TIA-CSD SEMI-VIT-BUS

  • MSS-.AOV-FT-101C MSS-AOV-PG-101C MSS-CCF-FT-01ABC MSS-AOV-FC-101C FIRE INDUCED BG C SG C PORV SPURIOUS UN.AVAILABLE IN TEST OR FAILURE MAINTENAHCH FI-D-V-101A MSS-AOV-MA-1C1C SG C DRAINED SGC-DR.A.INED-R
  • COMPONENT ~OLING WATER (CCW1)
                                                                                 . - (W)

LOSS OF COM'OtENT COOLN:; WA1ER FALURE Of COCX..EO FLCJ\!I FAILURE OF FALLEE OF PUMP TRA.INS TO HEAT EXCW.NGER PROVIDE FLOW TRAINS NO FLOW NO FLOW FAILURE OF FALL.IRE OF THROUGH PUMP THROUGH PUMP HEAT EXCHANGER l'EAT EXCI-WJGER TRA.IN 1-CC-P-"ll. TRAIN 1-CC-P-18 E-1A E-18 FALURE OF 4 KV FAILURE OF 4 KV BACKFLOW AC STL8 BUS 1H AC STUB BUS 1J HROUGH 1-CC-P-1A ESTB1H ESTB1J l4A-E1B CON-MDP-FR-CCP1A. FI-S-P-CCP1A FI-P-P-CCPtA. PAGE 1 & 2 FI-P-P-CCP1A FI-S-P-CCP1A CCW-MIJP-FR-CCP"ll.

Loss of RHR POSs 3-13 FI-S-V-1700 FI-S-V-1701 lnsuff Flow from Segment PS9 Disch to Loo 3 FI-S-V-1720A FI-S-V-1720B RHR3-S T ST AND MAINTENANC CHECK VALVE Loss of Power lnsuff Flow ON RHR MOV 1720 CV si 130 FAILS at MCC1H1-2 Thru Segment TO OPEN PS 7, HX Disch Hdr MA-1720A EH2 RHR4-S ACC-CKV-FT-D/130

HIGH PRESSURE INJECTION MANUA1 (D2) (HPI6A) INSUFFICIENT FLOW THROUGH PIPE SEGMENT PS13 INSUF FLOW INSUFFICIENT INSF CPC CH1C:SW FROM CHARGING FLOW THROUGH FAILURE OF 4KV AC FALURE OF 120V TO LUBE OIL, CC TO - PUMP SUCTION SEGMENT PS13 PTRN BUS 1H DC BUS 1A. SEAL COOLER HPI-MOV-PG-1270A HEADER B HPI-CCF-FS-CH1BC I FI-S-V-1270A Vt Vt HPl9A 4KV1H EtA. CPCC FROM CHARGING FAILURE OF 

                                     -                           120V AC POWER              TE T AND MAINTEN     CE PUMP DUE TO             HPI-MOV-PG-1286C                                             ON HPI MDP   CH1C BACKFLOW                                            TO VITAL BUS 1-1
                                  ~ti~~8f-=l<<-=-BH~

HP1-M0D-FT-101C Fl-S-V-1286C HPl21 E11 MA-CH1C

Appendix K Input for Scenario Initiating Event Uncertainty Analysis

Appendix K.1 Algebraic Expressions for Fire Scenario Initiating Events

  • K-1

FIRE=* El* DURATI0N-R6 *REFUEL* PROB-WlR6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-R6 *REFUEL* PROB-W2R6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-R6 *REFUEL* PR0B-W3R6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-R6-* REFUEL* PROB-W4R6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-D6 *DR-MT* PROB-WlD6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-D6 *DR-MT* PROB-W2D6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-D6 *DR-MT* PROB-W3D6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATI0N-D6 *DR-MT* PROB-W4D6

  • INVYR *BUSL* INV20
  • DAME18 +

El* DURATION-RlO *REFUEL* FRAC-POSlO

  • PROB-W3Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

El* DURATION-RlO *REFUEL* FRAC-POSlO

  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR *BUSL* INV20
  • DAME18 +

E2

  • DURATION-RlO **REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

E2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TFL
  • INV19 *DAMES+

E2

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR *BUSL* INV20
  • DAME18 +

E3

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

E3

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E3

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • I I
                                    .1(-2
  • TFL
  • INV19
  • DAME18 +

EJ

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

EJ

  • DU~TI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

EJ

  • DURATION-D6.* DR-MT* PROB-WlD6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

EJ

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E3

  • DURATION-D6
  • DR~MT
  • PROB-W3D6
  • INVYR
  • TFL
  • INV19 *DAMES+

E3

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAME18 +

EJ

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18 +

EJ

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W4Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W1D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R10 *REFUEL* FRAC-POS10
  • PROB-W3Rl0
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R10 *REFUEL* FRAC-POS10
  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19
  • DAME18 * :SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W1D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB~W4Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

E4

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEPl +

E4

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR *
  • K-3

BUSL* INV20

  • DAME18
  • HEPl +

E4

  • DURATION-R6 *REFUEL* PROB-W3R6
  • INVYR
  • BUSL* INV20 *.DAME18
  • HEP1 +

E4

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEP1 +

E4

  • DURATION-D6.* DR-MT* PROB-W1D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEP1 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEP1 +

E4

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEP1 +

E4

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEPl +

E4

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W3R10
  • INVYR
  • BUSL
  • INV20
  • DAME18
  • HEPl +

E4

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4R10
  • INVYR
  • BUSL* INV20
  • DAME18
  • HEPl +

E4

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19 *DAMES* HEPl +

E4

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E4

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • TFL
  • INV19
  • DAME18 *'HEPl +

ES* DURATI0N-R6 *REFUEL* PROB-WlR6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATION-R6 *REFUEL* PROB-W2R6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATI0N-R6 *REFUEL* PROB-W3R6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

E5

  • DURATION-R6 *REFUEL* PROB-W4R6
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATI0N-D6 *DR-MT* PROB-WlD6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATI0N-D6 *DR-MT* PROB-W2D6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATION-D6 *DR-MT* PROB-W3D6

  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATION-D6 *DR-MT* PROB-W4D6

  • INVYR
  • BUSL* .INV20
  • DAME18
  • SPUR123 +

ES* DURATI0N-R10 *REFUEL* FRAC-POSlO

  • PROB-W3R10
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATION-RlO *REFUEL* FRAC-POSlO

  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAME18
  • SPUR123 +

ES* DURATI0N-R6 *REFUEL* PROB-W1R6

  • INVYR
  • TFL
  • INV19
  • DAME18
  • SPUR123 +

ES* DURATI0N-R6 *REFUEL* PROB-W2R6

  • INVYR
  • K-4.

1.

  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-D6 .* DR-MT* PROB-WlD6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4R10
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • SPUR123 +

E5

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • BUSL* INV20
  • DAMElS ~ HEPl +

E5

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • BUSL* INV20
  • DAMElS
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W3R6
  • INVYR
  • TFL
  • INV19 *DAMES* HEPl +

E5

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR
  • TFL
  • INV19
  • DAME18
  • HEPl +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

E5

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • TFL
  • INV19
  • DAMElS
  • HEPl +

ES* DURATI0N-R6 *REFUEL* PROB-WlR6

  • INVYR
  • LLSWGR +

ES* DURATI0N-R6 *REFUEL* PROB-W2R6

  • INVYR
  • LLSWGR +

ES* DURATI0N-R6 *REFUEL* PR0B-W3R6

  • TNVVR
  • LLSWGR +

I(-5

EB* DURATION-R6 *REFUEL* PR0B-W4R6

  • INVYR
  • LLSWGR +

EB* DURATION-D6 *DR-MT* PR0B-W1D6

  • INVYR
  • LLSWGR +

EB* DURATION-D6 *DR-MT* PR0B-W2D6

  • INVYR
  • LLSWGR +

ES* DURATION-D6 *DR-MT* PR0B-W3D6

  • INVYR
  • LLSWGR +

ES* DURATION-D6-* DR-MT* PR0B-W4D6

  • INVYR
  • LLSWGR +

ES* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W3Rl0
  • INVYR
  • LLSWGR +

ES* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W4Rl0
  • INVYR
  • LLSWGR + .

E9

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • SPUR4
  • CABSW * ~9CAB
  • ONESIXTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-D6
  • DR-MT
  • PR0B**W2D6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W3Rl0
  • INVYR
  • SPUR4.
  • CABSW
  • DAME9CAB ~ ONESIXTY +

E9

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W4Rl0
  • INVYR
  • SPUR4
  • CABSW
  • DAME9CAB
  • ONESIXTY +

E9

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL_
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

~9

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURAT.ION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • SPUR4
  • TRASWPWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B~W1D6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • SPUR4
  • K-6

TRASWSD

  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • SPUR4
  • TRASWSD *.LGOIL; DAME9TRA
  • THREETWENTY +

E9

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3Rl0
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

E9

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • SPUR4
  • TRASWSD
  • LGOIL
  • DAME9TRA
  • THREETWENTY +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATI0N-R6 *REFUEL* PR0B~W3R6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-D6
  • D~-MT
  • PR0B-W1D6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FdUR33 +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-RlO *REFUEL~ FRAC-POSlO
  • PR0B-W3R10
  • INVYR
  • SPUR5
  • CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • SPURS* CABSW
  • DAMCABElO
  • FOUR33 +

ElO

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR *SPURS*'

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3R10
  • INVYR
  • SPURS* LGOIL
  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4R10
  • INVYR
  • SPURS* LGOIL
  • DAMTRAElOLG
  • FOUR20
  • TRASWPWSD +

ElO *'DURATI0N-R6 *REFUEL* PR0B-W1R6

  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATI0N~R6 *REFUEL* PR0B-W3R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • SPUR5
  • K-7

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATION-D6 *DR-MT* PROB-WJD6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR *SPURS*

LGOIL

  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATION-R10 *REFUEL* FRAC-POSlO
  • PROB-WJRlO
  • INVYR
  • SPURS* LGOIL
  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4R10
  • INVYR
  • SPURS* LGOIL
  • DAMTRAElOLG
  • FOUR20
  • TRASWSD +

ElO

  • DURATION-R6 *REFUEL* PROB-WlR6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

E10

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

E10

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

E10

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR *SPURS*

TRASWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

ElO

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-WJRlO
  • INVYR
  • SPURS* TRASWSD
  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W4Rl0
  • INVYR
  • SPURS* TRASWSD
  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-R6 *REFUEL* PROB-WJR6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • D~RAElOLG
  • TW036 +

E10

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

E10 * 'DURATI0N-D6 *DR-MT* PR0B-W2D6

  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-D6 *DR-MT* PROB-WJD6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR *SPURS*

TRASWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

E10

  • DURATI0N-R10 *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • SPURS* TRASWSD
  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4R10
  • INVYR
  • SPURS* TRASWSD
  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATI0N-R6 *REFUEL* PROB-WlR6
  • INVYR *SPURS*

TRASWPWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *SPURS*

TRASWPWpD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *SPURS*

TRASWPWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR *SPURS*

TRASWPWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *SPURS*

TRASWPWSD

  • DAMTRAE10SM
  • ONE18 * /LGOIL +

ElO

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR *SPURS*

1(-8

  • TRASWPWSD
  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION~D6 *DR-MT* PROB-W3D6
  • INVYR *SPURS*

TRASWPWSD

  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-06 *DR-MT* PROB-W4D6
  • INVYR *SPURS*

TRASWPWSD

  • DAMT!tAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-R10 *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR SPURS* TRASWPWSD
  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4Rl0
  • INVYR
  • SPURS* TRASWPWSD
  • DAMTRAElOSM
  • ONE18 * /LGOIL +

ElO

  • DURATION-R6 *REFUEL* PROB-WlR6
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-R6 *REFUEL* PROB-W2R6
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-R6 *REFUEL* PROB-W3R6
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-R6 *REFUEL* PROB-W4R6
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-D6 *DR-MT* PROB-Wl06
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO *'DURATION-06 *DR-MT* PROB-W2D6

  • INVYR *SPUR~*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • PURATION-D6 *DR-MT* PROB-W306
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR *SPURS*

TRASWPWSD

  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W3Rl0
  • INVYR
  • SPURS* TRASWPWSD
  • LGOIL
  • DAMTRAElOLG
  • TW036 +

ElO

  • DURATION-RlO *REFUEL* FRAC-~OSlO
  • PROB-W4Rl0
  • INVYR
  • SPURS* TRASWPWSD
  • LGOIL
  • DAMTRAElOLG
  • TW036 +

Ell* DURATION-R6 *REFUEL* PROB-WlR6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W2R6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATI0N-R6 *REFUEL* PROB-W3R6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W4R6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-D6 *DR-MT* PROB-WlD6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-D6 *DR-MT* PROB-W2D6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-D6 *DR-MT* PROB-W3D6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-D6 *DR-MT* PROB-W4D6

  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-RlO *REFUEL* FRAC-POS10

  • PROB-W3Rl0
  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-RlO *REFUEL* FRAC-POS10

  • PROB-W4Rl0
  • INVYR
  • BUSSMPWSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W1R6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W2R6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W3R6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATION-R6 *REFUEL* PROB-W4R6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATION-D6 *DR-MT* PROB-WlD6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATION-06 *DR-MT* PROB-W2D6

  • TNUVD
  • l(-9

BUSSMSD

  • INV20 *THREE* INV7 +

Ell* DURATI0N-D6 *DR-MT* PROB-W3D6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATI0N-D6 *DR-MT* PR0B-W4D6

  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

Ell* DURATI0N-R10 *REFUEL* FRAC-POS10

  • PR0B-W3R10
  • INVYR
  • BUSSMSD
  • INV20
  • THREE.* INV7 +

Ell* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W4R10
  • INVYR
  • BUSSMSD
  • INV20 *THREE* INV7 +

El2

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • THRQUART *UPS+

E12

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • THRQUART *UPS+

El2

  • DURATI0N-D6 *DR-MT* PR0B-W406
  • INVYR
  • THRQUART *UPS+

El2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3Rl0
  • INVYR
  • THRQUART *UPS+

El2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • THRQUART *UPS+

E12

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATI0N-R6
  • l_U:FUEL
  • PR0B-W2R6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *FOUR* TFL
  • INV19 +

Ei2

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR *FOUR* TFL
  • INV19 +

E12

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR *FOUR* TFL
  • INV19 +

El2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3R10
  • INVYR
  • FOUR* TFL
  • INV19 +

E12*

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4R10
  • INVYR
  • FOUR* TFL
  • INV19 +

E13A

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR *
'.'WO* BUSSMPWSD
  • INV20*+

E13A

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

E13A

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3Rl0
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • TWO* BUSSMPWSD
  • INV20 +

El3A

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR *TWO* BUSSMSD
  • INV20 +

El3A

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *TWO* BUSSMSD
  • INV20 +

El3A

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *TWO* BUSSMSD
  • INV20 +

El3A

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *TWO* BUSSMSD
  • INV20 +

El3A

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR *TWO* BUSSMSD
  • INV20 +

ElJA

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR *TWO* BUSSMSD
  • INV20 +

ElJA

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR *TWO* BUSSMSD
  • INV20 +

K-10

ElJA

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR *TWO* BUSSMSD
  • INV20 +

ElJA

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TWO* BUSSMSD
  • INV20 T ElJA
  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • TWO
  • BUSSMSD * 'INV2 0 +

ElJA

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR *TWO* TFSM
  • INV19 +

ElJ~

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *TWO* TFSM
  • INV19 +

~lJA

  • DURATI0N-R6* REFUEL* PR0B-W3R6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATI0N~D6 *DR-MT* PR0B-W4D6
  • INVYR *TWO* TFSM
  • INV19 +

ElJA

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TWO* TFSM
  • INV19 +

ElJA

  • DURATION~RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • TWO* TFSM
  • INV19 .+

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • BUSSMPWSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • BUSSMSD
  • INV20 +

El3B

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • BUSSMPWSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATION-D6. *DR-MT* PROB-W3D6
  • INVYR
  • BUSSMSD
  • INV20 +

K-11

Nl

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • BUSSMSD
  • INV20 +

Nl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-WJRlO
  • INVYR
  • BUSSMSD.* INV20 +

Nl

  • DURATION~RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • BUSSMSD
  • INV20 +

N2

  • DURATION-R6 .*REFUEL* PR0B-W1R6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-R6 *REFUEL* PROB-WJR6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-R6 *REFUEL* PROB-W4R6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-D6 *DR-MT* PROB-WJD6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-D6 *DR-MT* PROB-W4D6
  • INVYR *TWO* BUSL* INV20 +

N2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-WJRlO
  • INVYR
  • TWO* BUSL* INV20 +

N2

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-W4R10
  • INVYR
  • TWO* BUSL* INV20 +

NJ* DURATI0N-R6 *REFUEL* PROB-W1R6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-R6 *REFUEL* PROB-W2R6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-R6 *REFUEL* PROB-WJR6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-R6 *REFUEL* PROB-W4R6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-D6 *DR-MT* PROB-WlD6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-D6 *DR-MT* PROB-W2D6

  • INVYR
  • LLSWGR +

NJ* DURATI0N-D6 *DR-MT* PROB-WJD6

  • INVYR
  • LLSWGR +

NJ* DURATION-D6 *DR-MT* PROB-W4D6

  • INVYR
  • LLSWGR +

NJ* DURATION-RlO *REFUEL* FRAC-POSlO

  • PROB-WJRlO
  • INVYR
  • LLSWGR +

NJ* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W4R10
  • INVYR
  • LLSWGR +

CVl

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATION-R6 *REFUEL* PR0B-WJR6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • DAMCV1CAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-D6
  • DR-M'r
  • PROB-WJD6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl **DURATION-RlO *REFUEL* FRAC-POSlO

  • PROB-WJRlO
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • DAMCVlCAB
  • CABSW
  • ONE4J7 +

CVl

  • DURATI0N-R6 *REFUEL* PROB-W1R6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *REFUEL* PROB-W2R6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-R6 *REFUEL* PR0B-WJR6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCV1TRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PROB-W1D6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • K-12
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl *DURATION-Rio* REFUEL* FRAC-POS10

  • PR0B-W3R10 TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR *
  • INVYR
  • TRASWPWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *'REFUEL* PR0B-W2R6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CVl

  • DURATION-RlO *.REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • TRASWSD
  • LGOIL
  • DAMCVlTRA
  • EIGHT90 +

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW03*2 +

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • CABCT
  • DAMCTlCAB
  • TW032 +

CTl

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR *
 . TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL
  • FIVE +

CTl

  • DURATI0N-D6 *DR-MT* PROB-W2D6
  • INVYR
  • K-13

TRACTPWSD

  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10 TRACTPWSD
  • FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR *
  • INVYR
  • TRACTPWSD
  • FOR~Y5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • TRACTSD.* FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B~W4R6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRALG
  • LGOIL *FIVE+

CTl

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • TRACTPWSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PROB-W4R10
  • INVYR
  • TRACTPWSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • 1(-14
  • TRACTSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • TRACTSD
  • FORTYS
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-D6 *DR-MT* PR0B-W4D
  • INVYR
  • TRACTSD
  • FORTYS--* DAMCTlTRASM *THREE* /LGOIL +

CTl *DURATION-Rio* REFUEL* FRAC-POS10

  • PR0B-W3R10
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CTl

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • TRACTSD
  • FORTY5
  • DAMCTlTRASM *THREE* /LGOIL +

CT2

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-R6.* REFUEL* PR0B-W4R6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR *HALF* PUMPPWSD +

CT2

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR *HALF** PUMPPWSD +

CT2

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • HALF* PUMPPWSD +

CT2

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • HALF *.PUMPPWSD +

CT2

  • DURATION-R6 REFUEL* PR0B-W1R6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR *HALF* PUMPSD +

CT2

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • HALF* PUMPSD +

CT2

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • HALF* PUMPSD +

Ml* DURATION-R6 *REFUEL* PR0B-W1R6

  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-R6 *REFUEL* PR0B-W2R6

  • INVYR
  • MlS
  • SPURM1 +

Ml* DURATION-R6 *REFUEL* PR0B-W3R6

  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-R6 *REFUEL* PR0B-W4R6

  • INVYR
  • MlS
  • SPURM1 +

Ml* DURATION-D6 *DR-MT* PR0B-W1D6

  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-D6 *DR-MT* PR0B-2D6

  • INVYR
  • MlS
  • SPURM1 +

Ml* DURATION-D6 *DR-MT* PR0B-W3D6

  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-D6 *DR-MT* PROB-W4D6

  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W3Rl0
  • INVYR
  • MlS
  • SPURMl +

Ml* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W4Rl0
  • INVYR
  • MlS
  • SPURMl +

M3

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION~D6 *DR-MT* PR0B-W2D6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION-D6 *DR-MT* PROB-W3D6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • M3S
  • SPURM3 +

M3

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • M3S
  • SPURM3 +

M4

  • DURATI0N-R6* *REFUEL* PR0B-W1R6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATI0N-R6.* REFUEL* PR0B-W3R6
  • INVYR
  • M4S
  • SPURM4 +
  • K-15

M4

  • DURATI0N-R6 *REFUEL* PROB-W4R6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATI0N-D6 *DR-MT* PROB-WlD6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATI0N-D6 *DR-MT* PROB-WJD6
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATI0N-D6-* DR-MT* PROB-W4D6 ~ INVYR
  • M4S
  • SPURM4 +

M4

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PROB-WJRlO
  • INVYR
  • M4S
  • SPURM4 +

M4

  • DURATION-RlO
  • REFUEL.* FRAC-POSlO
  • PROB-W4R10
  • INVYR
  • M4S
  • SPURM4 +

MB* DURATI0N-R6 *REFUEL* PROB-W1R6

  • INVYR
  • MBS
  • SPURMB +

.MB* DURATI0N-R6 *REFUEL* PROB-W2R6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-R6 *REFUEL* PROB-WJR6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-R6 *REFUEL* PROB-W4R6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-D6 *DR-MT* PROB-W1D6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-D6 *DR-MT* PROB-W2D6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-D6 *DR-MT* PROB-WJD6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATI0N-D6-* DR-MT* PROB-W4D6

  • INVYR
  • MBS
  • SPURMB +

MB* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W3R10
  • INVYR
  • MBS
  • SPURMB +

MB* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W4Rl0
  • INVYR
  • MBS
  • SPURMS +

MlJ

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • MlJS
  • SPURM13 +

M13

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATI0N-D6 *DR-MT* PR0B-W1D6
  • INVYR * *MlJS
  • SPURM13 +

MlJ

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATI0N-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATI0N-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • MlJS
  • SPURM13 +

MlJ

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W3R10
  • INVYR
  • M13S
  • SPURM13 +

MlJ

  • DURATION-RlO *REFUEL* FRAC-POSlO
  • PR0B-W4Rl0
  • INVYR
  • M13S
  • SPURM13 +

MA* DURATI0N-R6 *REFUEL* PROB-WlR6

  • INVYR *MAS+

MA* DURATI0N-R6 *REFUEL* PR0B-W2R6

  • INVYR *MAS+

MA* DURATI0N-R6 *REFUEL* PR0B-W3R6

  • INVYR *MAS+

MA* DURATI0N-R6 *REFUEL* PR0B-W4R6

  • INVYR *MAS+

MA* DURATI0N-D6 *DR-MT* PR0B-W1D6

  • INVYR *MAS+

MA* DURATI0N-D6 *DR-MT* PR0B-W2D6

  • INVYR *MAS+

MA* DURATION-D6 *DR-MT* PR0B-W3D6

  • INVYR *MAS+

MA* DURATI0N-D6 *DR-MT* PR0B-W4D6

  • INVYR *MAS+

MA* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W3Rl0
  • INVYR
  • MAS +

MA* DURATION-RlO **REFUEL* FRAC-POSlO

  • PR0B-W4Rl0
  • INVYR
  • MAS.+

MC* DURATI0N-R6 *REFUEL* PR0B-W1R6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-R6 *REFUEL* PR0B-W2R6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-R6 *REFUEL* PR0B-W3R6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-R6 *REFUEL* PR0B-W4R6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-D6 *DR-MT* PR0B-W1D6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-D6 *DR-MT* PR0B-W2D6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-D6 *DR-MT* PR0B-W3D6

  • INVYR
  • MCS
  • SPURMC +

MC* DURATI0N-D6 *DR-MT* PR0B-W4D6

  • INVY
  • MCS
  • SPURMC +

MC* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W3R10
  • INVYR
  • MCS
  • SPURMC +

MC* DURATION-RlO *REFUEL* FRAC-POSlO

  • PR0B-W4R10
  • INVYR
  • MCS
  • SPURMC +
.E6
  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATI0N-R6 *REFUEL* PR0B-W2R6 ~ INVYR
  • MCCLG
  • INV34
  • DAME18
  • K-16
  • SPUR12 +

E6

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATION-D6 **DR-MT* PROB-WlD6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +*

E6

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • SPUR12 +

E6

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • MCCLG
  • INV34
  • DAMElB
  • SPUR12 +

E6

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • MCCLG
  • INV34
  • DAMElB
  • SPUR12 +

E6

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • MCCLG
  • INV34
  • DAMElB
  • HEPl +

E6

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • MCCLG
  • INV34
  • DAMElB
  • HEPl +

E6

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATION-D6 *DR-MT* PR0B-W3D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR
  • MCCLG
  • INV34
  • DAME18
  • HEPl +

E6

  • DURATION~RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • MCCLG
  • INV34
  • DAMElB
  • HEPl +

E6

  • DURATION-RlO *REFUEL* FRAC-POS10 ~ PR0B-W4Rl0
  • INVYR
  • MCCLG
  • INV34
  • DAME18.:. HEPl +

E7

  • DURATION-R6 *REFUEL* PR0B-W1R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +

E7

  • DURATI0N-R6 *REFUEL* PR0B-W2R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +

E7

  • DURATION-R6 *REFUEL* PR0B-W3R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +

E7

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +

E7

  • DURATION-D6 *DR-MT* PR0B-W1D6
  • INVYR *TWO* TFL
  • INV19
  • DAMElB
  • SPUR1234 +

E7

  • DURATION-D6 *DR-MT* PROB-W2D6
  • INVYR *TWO* TFL
  • INV19
  • DAMElB
  • SPUR1234 +.

E7

  • DURATI0N-D6 *DR-MT* PROB-W3D6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +.

E7

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR *TWO* ~FL* INV19
  • DAME18
  • SPUR1234 +

E7

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3R10
  • INVYR
  • TWO* TFL
  • INV19
  • DAME18
  • SPUR1234 +*

E7

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • TWO* TFL
  • tNV19
  • DAME18
  • SPUR1234 +

E7

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATION-R6 *REFUEL* PR0B-W4R6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +
  • E7
  • DURATION-D6 *DR-MT* PROB-WlD6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATI0N-D6 *DR-MT* PR0B-W2D6
  • INVYR *TWO* TFL
  • INV19
  • DAME18 *
  • K-17

HEPl + E7 ~ DURATI0N-D6 *DR-MT* PR0B-W3D6

  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATION-D6 *DR-MT* PR0B-W4D6
  • INVYR *TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATION-RlLO
  • REFUEL
  • FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • TWO* TFL
  • INV19
  • DAME18
  • HEPl +

E7

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4R10
  • INVYR
  • TWO* TFL
  • INV19
  • DAME18
  • HEPl +

MG* DURATI0N-R6 *REFUEL* PR0B-W1R6

  • INVYR
  • MGS +

MG* DURATI0N-R6 *REFUEL* PR0B-W2R6

  • INVYR
  • MGS +

MG* DURATI0N-R6 *REFUEL* PR0B-W3R6

  • INVYR
  • MGS +

MG* DURATI0N-R6 *REFUEL* PR0B-W4R6

  • INVYR
  • MGS +

MG* DURATI0N-D6 *DR-MT* PR0B-W1D6

  • INVYR
  • MGS +

MG* DURATI0N-D6 *DR-MT* PR0B-W2D6

  • INVYR
  • MGS +

MG* DURATI0N-D6 *DR-MT* PR0B-W3D6

  • NVYR
  • MGS +

MG* DURATION-D6 *DR-MT* PR0B-W4D6

  • INVYR
  • MGS +

MG* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W3R10
  • INVYR
  • MGS +

MG* DURATION-RlO *REFUEL* FRAC-POS10

  • PR0B-W4R10
  • INVYR
  • MGS +

MH

  • DURATI0N-R6 *REFUEL* PR0B-W1R6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATION-R6 *REFUEL* PR0B-W2R6
  • INVYR
  • MHS
  • SPURMII +

MH

  • DURATI0N-R6 *REFUEL* PR0B-W3R6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATI0N-R6 *REFUEL* PR0B-W4R6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATI0N-D6 *DR-MT* PROB-W1D6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATION-D6 *DR-MT* PR0B-W2D6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATI0N-D6 *DR-MT** PR0B-W3D6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATI0N-D6 *DR-MT* PROB-W4D6
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W3Rl0
  • INVYR
  • MHS
  • SPURMH +

MH

  • DURATION-RlO *REFUEL* FRAC-POS10
  • PR0B-W4Rl0
  • INVYR
  • MHS
  • SPURMH.

K-18

Appendix K.2 Uncertainty Data for Variables in Appendix K.1 K-19

Variable Name Distribution* Mean Value Uncertainty** Corr. Class 1 DR-MT L 1. 200E+OOO 3.220E+OOO 2 DURATI0N~D6 L 2.550E+002 8.970E+OOO 3 DURATION-RIO L 4.440E+002 2.030E+001 4 DURATI0N-R6 L 2.380E+002 7.850E+OOO 5 FRAC-POS10 L 5.000E-001 3.000E+OOO 6 PR0B-W1D6 L 1.170E-001 1.000E+OOO 7 PR0B-W1R10 L +O.OOOE+OOO l.OOOE+OOO 8

  • PR0B-W1R6 L 1. 700E-002 1.000E+OOO 9 PR0B-W2D6 L 4.360E-001 l.OOOE+OOO 10 PR0B-W2Rl0 L +O.OOOE+OOO l.OOOE+OOO 11 PR0B~W2R6 L 5.430E-001 1.000E+OOO 12 PR0B-W3D6 L 3*. 750E-001 l.OOOE+OOO 13 PR0B-W3R10 L 1.600E-002 l.OOOE+OOO 14 PR0B-W3R6 L 4.lOOE-001 1.000E+OOO 15 PR0B-W4D6 L 7.200E-002 l.OOOE+OOO 16 PR0B-W4R10 L 9.840E~001 1.000E+OOO 17 PR0B-W4R6. L J.400E-002 1.000E+OOO 18 REFUEL L 6.000E-001 1.460E+OOO 19 BUSL L 1.270E-003 7.105E+OOO 20 INV20 L 5.000E-002 1.000E+OOO 21 TFL L 2.178E-003 4.741E+OOO 22 INV19 L 5.260E-002 l.OOOE+OOO 23 SPUR123 L 3.000E-001 3.000E+OOO 24 HEPl L 4.700E-001 l.500E+OOO 25 DAME18 u 6.600E-001 1.000E+OOO 26 LLSWGR L 5.160E-006 5.880E+OOO 27 SPUR4 L 1.000E-001 3.000E+OOO 28 CABSW L 3.420E-008 7.539E+OOO 1234 29 DAME9CAB u 7.800E-001 l.OOOE+OOO 30 ONESIXTY
  • L 1.600E+002 l.OOOE+OOO 31 TRASWPWSD L l.150E-007 6.944E+OOO 32 LGOIL u 3.000E-001 6.000E-001 33 DAME9TRA u 8.400E-001 1.000E+OOO 34 THREETWENTY L 3.200E+002 1.000E+OOO 35 TRASWSD L 3.490E-007 8.684E+OOO 36 SPURS L 1.000E-001 3.000E+OOO 37 DAMCABElO u 6.800E-001 l.OOOE+OOO 38 FOUR33 L 4.330E+002 1.000E+OOO 39 DAMTRAElOLG u 8.400E-001 l.OOOE+OOO 40 FOUR20 L 4.200E+002 l.OOOE+OOO 41 ONE18 L 1.180E+002 1.000E+OOO 42 TW036 L 2.360E+002 1.000E+OOO 43 BUSSMPWSD L 3.395E-003 9.040E+OOO 44 INV7 L 1.430E-001 1.000E+OOO 45 BUSSMSD L 1. 770E-003 7.690E+OOO 46 HALF L 5.000E-001 1.000E+OOO 47 UPS L 1.741E-003 7.379E+OOO 48 FOUR L 4.000E+OOO l.OOOE+OOO 50 TWO L 2.000E+OOO 1.000E+OOO 51 TFSM L 2.948E-003 3.822E+OOO 52 DAMCVlCAB u 6.500E-001 1.000E+OOO 53 ONE437 L 1. 437E+003 1.000E+OOO 54 DAMCVlTRA u 7.JOOE-001 1.000E+OOO
  • 55 EIGHT90 L 8.904E+002 1.000E+OOO 56 CABCT L 3.420E-008 7.539E+OOO 1234 57 DAMCTlCAB u 8.600E-001 1.000E+OOO K-20

- 60 61 62 63 TW032 TRACTPWSD FORTY5 DAMCTlTRALG FIVE TRACTSD L L L u L L 2.323E+002 2.190E-007 4.500E+001 8.400E-001 5.000E+OOO

1. 210E-006 1.000E+OOO 7.564E+OOO 1.000E+OOO 1.000E+OOO 1.000E+OOO 3.784E+OOO 64 DAMCTlTRASM u 6.600E-001 1.000E+OOO 65 THREE L 3.000E+OOO 1.000E+OOO 66 PUMPPWSD L 9.418E-004 1.235E+001 67 PUMPSD L 7.877E-003 3.263E+OOO 68 INVYR L 1.141E-004 1.000E+OOO 69 SPUR12 L 2.000E-001 3.000E+OOO 70 SPUR1234 L 3.lOOE-001 3.000E+OOO 71 M1S L 2.040E-004 5.684E+OOO 72 SPURMl L l.OOOE-001 3.000E+OOO 73 M3S L 1.490E-004 5.684E+OOO 74 SPURM3 L 1.000E-001 3.000E+OOO 75 M4S L 2.460E-005 5.6S4E+OOO 76 SPURM4 L 1.000E-001 3.000E+OOO 77 MSS L 1. 730E-005 5.6S4E+OOO 78 SPURM8 L 1.000E-001 3.000E+OOO 79 M13S L 7.470E-006. 5.6S4E+OOO 80 SPURM13 L 1.000E-001 3.000E+OOO 81 MAS L 2.690E-004 5.6S4E+OOO 82 MCS L 5.9SOE-005 5.6S4E+OOO 83 SPURMC L 1.000E-001 3.000E+OOO 84 THRQUART L 7.500E-001 1.000E+OOO 5 MCCLG L 6.163E-004 7~370E+OOO INV34 L 2.940E-002 1.000E+OOO MGS L 1.070E-004 5.6S4E+OOO 88 MHS L 1.370E-0.04 S.684E+OOO 89 SPURMH L 1.000E-001 3.000E+OOO 90 DAMTRAE10SM u 6.600E-001 1.000E+OOO 91 El L 1.000E+OOO 1.000E+OOO 92 E2 L 1.000E+OOO 1.000E+OOO 93 E4 L 1.000E+OOO l.OOOE+OOO 94 ES L 1.000E+OOO 1.000E+OOO 95 E9 L l.OOOE+OOO 1.000E+OOO 96 ElO L 1.000E+OOO 1.000E+OOO 97 Ell L 1.000E+OOO l.OOOE+OOO 98 El2 L l.OOOE+OOO 1.000E+OOO 99 E13A L 1.000E+OOO 1.000E+OOO 100 E13B L 1.000E+OOO 1.000E+OOO 101 N2 L 1. OOOE+OOO l.OOOE+OOO 102 CVl L 1.000E+OOO l.OOOE+OOO 103 CTl L 1.000E+OOO 1.000E+OOO 104 CT2 L 1.000E+OOO 1.000E+OOO 105 Ml L 1.000E+OOO 1.000E+OOO 106 M3 L 1.000E+OOO 1.000E+OOO 107 M4 L 1.000E+OOO 1.000E+OOO 108 MS L 1.000E+OOO 1.000E+OOO 109 M13 L 1.000E+OOO 1.000E+OOO 110 MA L l.OOOE+OOO 1.000E+OOO 111 MC L 1.000E+OOO 1.000E+OOO 112 E6 L 1.000E+OOO 1.000E+OOO 113 E7 L 1.000E+OOO 1.000E+OOO 114 MG L 1.000E+OOO 1.000E+OOO MH L 1.000E+OOO 1. OOOE+OOO stands for lognormal, U stands for uniform K-21
    • error factor for a lognormal distribution, upper bound for a uniform distribution K-22

Appendix K.3 Description of Variables K-23

Variable*. Description El-E13B, CTl, scenario designators CT2, CVl, Ml-Ml3, MA-MH INVYR inverse of a year in hours*1, i.e. 1./8766. /hr prefix DURATION duration (in hrs) of a particular POS DR-MT, REFUEL frequency (/yr) of the type of outage FRAC-POSlO fraction of refueling outages with POSlO prefix PROB probability of a particular POS-window combo prefix BUS frequency (/yr) of a type of el. bus fires prefix TF freq. (/yr) of a type of transformer fires UPS freq. (/yr) of a UPS fire prefix PUMP *freq. (/yr) of a (RHR) pump fire prefix MCC suffix LG suffix SM freq. (/yr) of an MCC fire denotes a large fire of certain class denotes a small fire of certain class suffix SD denotes a fire can occur only in shutdown suffix PWSD denotes a fire occuring both at power & s/d prefix CAB used in frequency (/yr) of a cable fire (followed by a location designator) prefix TRA used in frequency (/yr) of a transient fire (followed by a location designator, followed by a type of operation designator (SD or PWSD) SW, CT location designators, switchgear room or containment prefix DAM damage fraction (followed by a scenario designator, followed by CAB for cable fire or TRA for transient fire, followed by LG for a large fire or SM for a small fire) LLSWGR frequency (/yr) of a very large and smoky switchgear fire K-24

  • Variable* Description prefix SPUR conditional probability of a given combination of spurious equipment operation (given a fire)

HEP probability of failure of a certain type of operator action MXS where 'X' is an alphanumeric character, frequency (/yr) of a certain location fire in the main control room LGOIL fraction of transient fire due to large oil fires

  • K-25
  • Appendix L Fire Scenario Initiating Event Histograms Histogram names are of the form 'FAXYZN', where, 'AXYZ' refers to the scenario designator, and the trailing digit, 'N', refers to a particular PCS-window combination, in accordance with the following table:

N Window-PCS 1 W1R6 2 W2R6 3 W3R6 4 W4R6 5 W1D6 6 W2D6 7 W3D6 8 W4D6 9 W3Rl.O 10 W4R10

  • Name : FCTll Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format : Percent Probability Percent 1

2.070E-010 0.40 8 5.040E-009 8.40 15 1.230E-007 5.40 2 3.260E-010 0.20 9 7.950E-009 10.40 16 l.940E-007 2.20 3 5.150E-010 0.40 10 1.250E-008 13.20 17 3.060E-007 2.60 4 8.120E-010 1.60 11 1.980E-008 13.80 18 4.820E-007 1.60 5 1.280E-009 2.40 12 3.120E-008 11.80 19 7.610E-007 o.oo 6 2.020E-009 4.80 13 4.930E-008 8.20 20 1. 200E-006 0.40 7 3.190E-009 6.00 14 7.780E-008 6.20 Name .. FCTllO Format : Percent Probability Percent Probability Percent Probability Percent 1 1.460E-009 0.60 8 9.220E-008 8.40 15 5.830E-006 3.00 2 2.640E-009 0.20 9 1. 670E-007 12.40 16 1.050E-005 2.20 3 4.770E-009 2.00 10 3.0lOE-007 11.80 17 1.910E-005 2.60 4 8.620E-009 2.60 11 5.450E-007 12.20 18 3.450E-005 1.00 5 1.560E-008 4.20 12 9.850E-007 8.20 19 6.230E-005 0.60 6 2.820E-008 7.40 13 1. 780E-006 5.80 20 l.130E-004 0.60 7 5.lOOE-008 7.00 14 3.220E-006 7.20 Name : FCT12 Format : Percent Probability Percent Probability Percent Probability Percent 6.600E-009 0.40 8 1.610E-007 8.40 15 3.920E-006 5.40 l.040E-008 0.20 9 2.540E-007 10.40 16 6.190E-006 2.20 3 1. 640E-008 0.40 10 4.0lOE-007 13.20 17 9.760E-006 2.60 4 2.600E-008 1.60 11 6.320E-007 13.80 18 1.540E-005 1.60 5 4.lOOE-008 2.40 12 9.980E-007 11.80 19 2.430E-005 0.00 6 6.460E-008 4.80 13 1. 570E-006 8.20 20 3.840E-005 0.40 7 l.020E-007 6.00 14 2.480E-006 6.20 Name . FCT13 Format : Percent Probability Percent Probability Percent Probability=Percent 1 4.990E-009 0.40 8

1. 210E-007 8.40 15 2.960E-006 5.40 2 7.870E-009 0.20 9 1. 920E-007 10.40 16 4.670E-006 2.20 3 1. 240E-008 0.40 10 3.030E-007 13.20 17 7.370E-006 2.60 4 1. 960E-OQ8 1.60 11 4. 770E-007 13.80 18 1.160E-005 1.60 5 3.090E-008 2.40 12 7.530E-007 11.80 19 1. 840E-005 o.oo 6 4.880E-008 4.80 13 l.190E-006 8.20 20 2.900E-005 0.40 7 7.700E-008 6.00 14 1. 880E-006 6.20 1994/01/27 23:28:44 page 1 L-1

Name . FCT14 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 4.lJOE-010 0.40 8 l.OlOE-008 8.40 15 2.450E-007 5.40 2 6.520E-010 0.20 9 l.590E-008 10.40 16 3.870E-007 2.20 3 l.OJOE-009 0.40 10 2.510E-008 13.20 17 6.llOE-007 2.60 4 1. 620E-009 1.60 11 3.960E-008 13.80 18 9.640E-007 1.60 5 2.560E-009 2.40 12 6.250E-008 11.80 19 l.520E-006 o.oo 6 4.050E-009 4.80 13 9.860E-008 8.20 20 2.400E-006 0.40 7 6.380E-009 6.00 14 l.560E-007 6.20 Name . FCT15 Format . Percent Probability Percent Probability Percent Probability Percent 1 6.860E-010 0.20 8 2.590E-008 6.80 15 9.750E-007 8.60 2 l.150E-009 0.20 9 4.350E-008 11.00 16 1. 640E-006 4.80 3 l.940E-009 0.60 10 7.JOOE-008 9.00 17 2.750E-006 3.20 4 3.250E-009 0.40 11 1. 230E-007 10.60 18 4.620E-006 1.40 5 5.460E-009 1.40 12 2.060E-007 13.40 19 7.760E-006 1.40 6 9.170E-009 2.00 13 3.460E-007 10.20 20 l.JOOE-005 0.80 7 1. 540E-0°08 3.40 14 5.810E-007 10.60 Name .. FCT16 Format . Percent Probability Percent Probability Percent Probability 1 2.560E-009 0.20 8 9.640E-008 6.80 15 3.640E-006 8.6 2 4.300E-009 0.20 9 1. 620E-007 11.00 16 6.llOE-006 4.80 3 7.220E-009 0.60 10 2.720E-007 9.00 17 l.030E-005 3.20 4 1.210E-008 0.40 11 4.570E-007 10.60 18 l.720E-005 1.40 5 2.040E-008 1.40 12 7.670E-007 13.40 19 2.890E-005 1.40 6 3.420E-008 2.00 13 l.290E-006 10.20 20 4.860E-005 0.80 7 5.740E-008 3.40 14 2.160E-006 10.60 Hame .. FCT17 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.200E-009 0.20 8 8.290E-008 6.80 15 J.lJOE-006 8.60 2 J.700E-009 0.20 9 l.390E-007 11.00 16 5.250E-006 4.80 3 6.210E-009 0.60 10 2.340E-007 9.00 17 8.820E-006 3.20 4 1. 040E-008 0.40 11 3.930E-007 10.60 18 l.480E-005 1.40 5 1. 750E-008 1.40 12 6.600E-007 13.40 19 2.490E-005 1.40 6 2.940E-008 2.00 13 l.llOE-006 10.20 20. 4.180E-005 0.80 7 4.940E-008 3.40 14 l.860E-006 10.60 1994/01/27 23:28:44 page 2 L-2

  • Name . FCT18 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 4.220E-Ol0 . 0.20 8 l.590E-008 6.80 15 6.000E-007 8.60 2 7.090E-010 0.20 9 2.670E-008 11.00 16 l.OlOE-006 4.80 3 1.190E-009 0.60 10 4.490E-008 9.00 17 1.690E-006 3.20 4 2.000E-009 0.40 11 7.540E-008 10.60 18 2.840E-006 1.40 5 3.360E-009 1.40 12 1.270E-007 13.40 19 4.780E-006 1.40 6 5.650E-009 2.00 13 2.130E-007 10.20 20 8.020E-006 0.00 7 9.480E-009 3.40 14 3.570E-007 10.60 Name . FCT19 Format . Percent Probability
          .,...,.. Percent         Probability Percent        Probability Percent 1  2.370E-Oll 0.60     8 1.500E-009 8.40 15 9.470E-008 3.00 2  4.290E-Oll          0.20     9   2.710E-009      12.40 16   1. 710E-007      2.20 3  7.750E-Oll          2.00    10   4.900E-009      11.80 17   3.lOOE-007       2.60 4  1.400E-010          2.60    11   8.860E-009      12.20 18   5.600E-007       1.00 5  2.530E-010          4.20    12   l.600E-008       0.20 19   l.OlOE-006       0.60 6  4.580E-010          7.40    13   2.900E-008       5.80 20   l.830E-006       0.60 7  8o290E-010          7.00    14   5.240E-008       7.20 Name  .. FCT21                                               Format  .. Percent Probability Percent              Probability Percent        Probability Percent 3.690E-009 0.20     8
8. 720E-008 8.20 15 2.060E-006 6.40 5.790E-009 o.oo 9 l.370E-007 8.40 16 3.240E-006 4.00 3 9.lOOE-009 0.60 10 2.lSOE-007 9.20 17 5.090E-006 3.40 4 1.430E-008 0.40 11 3.380E-007 11.20 18 8.000E-006 1.00 5 2.250E-008 1.20 12 5.310E-007 12.20 19 1.260E-005 0.40 6 3.530E-008 3.00 13 8.350E-007 12.20 20 l.970E-005 1.40 7 5.550E-008 5.00 14 1. 310E-006 11.60 Name . FCT210 Format . Percent Probability Percent Probability Percent Probability'Percent 1

4.710E-008 0.60 8 3.SSOE-006 10.60 15 2.670E-004 3.20 2 8.720E-008 1.80 9 6.580E-006 13.40 16 4.960E-004 1.40 3 1.620E-007 2.40 10 1. 220E-005 11.00 17 9.190E-004 1.20 4 3.000E-007 3.80 11 2.260E-005 10.00 18 1. 700E-003 0.20 5 5.560E-007 4.80 12 4.190E-005 9.00 19 3.160E-003 0.40 6 1. 030E-006 7.40 13 7.770E-005 5.80 20 5.860E-003 0.20 7 1.910E-006 0 .* 40 14 1.440E-004 4.40 1994/01/27

  • 23:28:44 page 3
  • L-3

Name . FCT22 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format : Percent Probability Percent 1 l.lBOE-007 0.20 B 2.7BOE-006 8.20 15 6.590E-005 6.40 2 l.BSOE-007 o.oo 9 4.380E-006 8.40 16 1. OJOE-004 4.00 3 2.910E-007 0.60 10 6.870E-006 9.20 17 1. 630E-004 3.40 4 4.570E-007 0.40 11 1.080E-005 11.20 18 2.550E-004 1.00 5 7.lBOE-007 1.20 12 1.700E-005 12.20 19 4.0lOE-004 0.40 6 l.lJOE-006 3.00 13 2.670E-005 12.20 20 6.JlOE-004 1.40 7 1.770E-006 5.00 14 4.190E-005 11.60 Name .. FCT23 Format . Percent Probability Percent Probability Percent Probability Percent 1 8.890E-008 0.20 8 2.lOOE-006 8.20 15 4.970E-005 6.40 2 l.400E-007 o.oo 9 3.JOOE-006 8.40 16 7.810E-005 4.00 3 2.190E-007 0.60 10 5.190E-006 9.20 17 1. 230E-004 3.40 4 3.450E-007 0.40 11 B.150E-006 11.20 18 1. 930E-004 1.00 5 5.420E-007 1.20 12 l.280E-005 12.20 19 3.0JOE-004 0.40 6 8.510E-007 3.00 13 2.010E-005 12.20 20 4.760E-004 1.40 7 l.340E-006 5.00 14 3.160E-005 11.60 Name . FCT24 Format . Percent Probability Percent Probability Percent Probability 1 7.370E-009 0.20 8

1. 740E-007 8.20 15 4.120E-006 6.

2 l.160E-008 o.oo 9 2.740E-007 8.40 16 6.480E-006 4.0 3 1.820E-008 0.60 10 4.300E-007 9.20 17 l.020E-005 3.40 4 2.860E-008 0.40 11 6.760E-007 11.20 18 l.600E-005 1.00 5 4.490E-008 1.20 12 1. 060E-006 12.20 19 2.SlOE-005 0.40 6 7.060E-008 3.00 13 l.670E-006 12.20 20 3.950E-005 1.40 7 l.llOE-007 5.00 14 2.620E-006 11.60 Name . FCT25 Format : Percent Probability Percent Probability Percent Probability'Percent 1 2.470E-008 0.40 8 8~840E-007 8.60 15 3.160E-005 6.80 2 4.120E-008 0.20 9 1.470E-006 8.60 16 5.270E-005 5.00 3 6.870E-OOB 0.20 10 2.460E-006 12.00 17 8.780E-005 2.60 4 l.140E-007 1.20 11 4.090E-006 12. 20 18 1. 460E-004 1.00 5 1. 910E-007 1.80 12 6.820E-006 10.00 19 2.440E-004 0.60 6 3.180E-007 3.00 13 l.140E-005 10.80 20 4.070E-004 0.20 7 5.JOOE-007 4.80 14 l.900E-005 10.00 1994/01/27 23:28:44 page 4 L-4

  • Name . FCT26 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

9.210E-008 0.40 8 3.290E-006 8.60 15 1.180E-004 6.80 2 1.540E-007 0.2.0 9 5.490E-006 8.60 16 1.960E-004 5.00 3 2.560E-007 0.20 10 9.150E-006 12.00 17 3.270E-004 2.60 4 4,270E-007 1.20 11 1. 530E-005 12.20 18 5.450E-004 1.00 5 7.llOE-007 1.80 12 2.540E-005 10.00 19 9.090E-004 0.60 6 1.190E-006 3.00 13 4.240E-005 10.80 20 1. 520E-003 0.20 7 1.980E-006 4.80 14 7.060E-005 10.00 Name . FCT27 Format : Percent Probability Percent Probability Percent Probability Percent l 7.920E-008 0.40 8 2.830E-006 8.60 15 1. OlOE.-004 6.80 2 1. 320E-007 0.20 9 4.720E-006 8.60 16 1. 690E-004 5.00 3 2.200E-007 0.20 10 7.870E-006 12. 00 17 2.810E-004 2.60 4 3.670E-007 1.20 11 1. 310E-005 12. 20 18 4.690E-004 1.00 5 6.120E-007 1.80 12 2.190E-005 10.00 19 7.820E-004 0.60 6 l,020E-006 3.00 13 3.640E-005 10.80 20 l.JOOE-003 0.20 7 l.700E-006 4.80 14 6.080E-005 10.00 Name . FCT28 Format : Percent Probability Percent Probability Percent Probability Percent 1.520E-008 0.40 8 5.440E-007 8.60 15 1.940E-005 6.80 2.540E-008 0.20 9 9.060E-007 8.60 16 3.240E-005 5.00 4.230E-008 0.20 10 l.510E-006 12.00 17 5.400E-005 2.60 7.040E-008 1.20 11 2.520E-006 12.20 18 9.0lOE-005 1.00 1.170E-007 1.80 12 4.200E-006 10.00 19 l.500E-004 0.60 1.960E-007 3.00 13 7.000E-006 10.80 20 2.500E-004 0.20 3.260E-007 4.80 14 1.170E-005 10.00 Name . FCT29 Format . Percent Probability Percent Probability Percent Probability'Percent 1 7.650E-010 0.60 8 5.770E-008 10.60 15 4.350E-006 3.20 2 1. 420E-009 1.80 9 1.070E-007 13.40 16 8.060E-006 1.40 3 2.630E-009 2;40 10 1.980E-007 11.00 17 1.490E-005 1.20 4 4.880E-009 3.80 11 3.680E-007 10.00 18 2.770E-005 0.20 5 9,040E-009 4.80 12 6.820E-007 9.00 19 5.140E-005 0.40 6 1.680E-008 7.40 13 l.260E-006 5,80 20 9.520E-005 0.20 7 3.llOE-008 8.40 14 2.340E-006 4.40 1994/01/27 23:28:44 page 5 L-5

HISTOGRAM DETAIL REPORT Name . FCVll Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 8.860E-Oll 0.60 8 ----------- 2.370E-009 6.80 15 6.340E-008 6.00 2 1.420E-010 0.20 9 3.790E-009 8.80 16 1.0lOE-007 4.00 3 2.270E-010 2.00 10 6.060E-009 13.20 17 1.620E-007 2.20 4 3.620E-010 1.20 11 9.690E-009 11.00 18 2.590E-007 2.00 5 5.800E-010 3.00 12 1.550E-008 10.20 19 4.140E-007 0.40 6 9.270E-010 4.80 13 2.480E-008 11.00 20 6.620E-007 0.20 7 1.480E-009 5.80 14 3.960E-008 6.60 Name . FCVllO Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 4.510E-010 0.40 8 3.620E-008 8.80 15 2.900E-006 5.00 2 8.440E-010 1.40 9 6.770E-008 10.60 16 5.430E-006 2.80 3 1.580E-009 1.00 10 l.270E-007 12.00 17 l.020E-005 2.40 4 2.950E-009 2.00 11 2.370E-007 10.00 18 1.900E-005 1.00 5 5.530E-009 4.80 12 4.430E-007 9.60 19 3.560E-005 0.80 6 1. 030E-008 4.60 13 8.300E-007 9.60 20 6.660E-005 0.60 7 1. 930E-008 6.80 14 1.550E-006 5.80 Name . FCV12 Format . Percent Probability Percent Probability Percent Probability 1 2.830E-009 0.60 8 ----------- 7.570E-008 6.80 15 ----------- 2.020E-006 6.0 2 4.530E-009 0.20 9 1.210E-007 8.80 16 3.240E-006 4.00 3 7.240E-009 2.00 10 l.940E-007 13.20 17 5.170E-006 2.20 4 1.160E-008 1.20 11 3.lOOE-007 11.00 18 S.270E-006 2.00 5 1.S50E-008 3.00 12 4.950E-007 10.20 19 1.320E-005 0.40 6 2.960E-008 4.80 13 7.910E-007 11.00 20 2.120E-005 0.20 7 4.730E-008 5.80 14 l.270E-006 6.60 Name . FCV13 Format . Percent Probability Percent Probability Percent Probability 'Percent 1 2.140E-009 0.60 8 5.710E-008 6.80 15 l.530E-006 6.00 2 3.420E-009 0.20 9 9.140E-008 a.so 16 2.440E-006 4.00 3 5.470E-009 2.00 10 1.460E-007 13.20 17 3.910E-006 2.20 4 8.740E-009 1.20 11 2.340E-007 11.00 18 6.250E-006 2.00 5 1.400E-008 3.00 12 3.740E-007 10.20 19 9.990E-006 0.40 6 2.230E-008 4.80 13 5.970E-007 11.00 20 1.600E-005 0.20 7 3.570E-008 5.80 14 9.550E-007 6.60 1994/01/27 23:28:44 page 6 L-6

  • Name . FCV14 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent l 1. 770E-Ol0 0.60 8 4.740E-009 6.80 15 -----------

l.270E-007 6.00 2 2.830E-010 0.20 9 7.580E-009 8.80 16 2.030E-007 4.00 3 4.530E-010 2.00 10 l.210E-008 13.20 17 3.240E-007 2.20 4 7.250E-010 1.20 11 1. 940E-008 11.00 18 5.180E-007 2.00 5 l.160E-009 3.00 12 3.lOOE-008 10.20 19 8.280E-007 0.40 6 l.850E-009 4.80 13 4.950E-008 11.00 20 l.320E-006 0.20 7 2.960E-009 5.80 14 7.920E-008 6.60 Name . FCV15 Format . Percent Probability Percent Probability Percent Probability Percent l 3.390E-010 0.40 8 l.940E-008 7.80 15 1.llOE-006 5.00 2 6.050E-010 1.00 9 3.460E-008 8.80 16 1.980E-006 2.80 3 1.080E-009 0.20 10 6.160E-008 12.80 17 3.520E-006 1.40 4 1.920E-009 1.00 11 l.lOOE-007 14.20 18 6.280E-006 0.60 5 J.420E-009 2.00 12 l.960E-007 14.20 19 l.120E-005 1.00 6 6.lOOE-009 4.40 13 3.490E-007 8.20 20 1.990E-005 0.20 7 1. 090E-008 6.40 14 6.220E-007 7.60 Name . FCV16 Format . Percent Probability Percent Probability Percent Probability Percent 1.260E-009 0.40 8 7.230E-008 7.80 15 4.130E-006 5.00 2.250E-009 1.00 9 1. 290E-007 8.80 16 7.360E-006 2.80 3 4.020E-009 0.20 10 2.JOOE-007 12.80 17 1.310E-005 1.40 4 7.160E-009 1.00 11 4.090E-007 14.20 18 2.340E-005 0.60 5 1.280E-008 2.00 12 7.290E-007 14.20 19 4.170E-005 1.00 6 2.270E-008 4.40 13 1. 300E-006 8.20 20 7.430E-005 0.20 7 4.050E-008 6~40 14 2.320E-006 7.60 Name . FCV17 Format . Percent Probability Percent Probability Percent Probability 'Percent l 1.090E-009 0.40 8 6.220E-008 7.80 15 3.550E-006 5.00 2 l.940E-009 1.00 9 l.llOE-007 8.80 16 6.330E-006 2.80 3 3.450E-009 0.20 10 1.970E-007 12.80 17 1.lJOE-:-005 1.40 4 6.160E-009 1.00 11 3.520E-007 14.20 18 2.0lOE-005 0.60 5 l.lOOE-008 2.00 12 6.270E-007 14.20 19 3.590E-005 1.00 6 1.960E-008 4.40 13 1.120E-006 8.20 20 6.390E-005 0.20 7 3.490E-008 6.40 14 1.990E-006 7.60 1994/01/27 23:28:44 page 7 L-7

HISTOGRAM DETAIL REPORT Name .. FCV18 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.090E-010 0.40 8 l.190E-008 7.80 15 6.820E-007 5.00 2 3.720E-010 1.00 9 2.130E-008 a.so 16 1. 220E-006.J 2.80 3 6.630E-010 0.20 10 3.790E-008 12.80 17 2.170E-006 1.40 4 1.lBOE-009 1.00 11 6.760E-008 14.20 18 3.860E-006 0.60 5 2.llOE-009 2.00 12 1.200E-007 14.20 19 6.890E-006 1.00 6 3.760E-009 4.40 13 2.150E-007 8.20 20 1.230E-005 0.20 7 6.690E-009 6.40 14 3.830E-007 7.60 Name . FCV19 Format . Percent Probability Percent Probability Percent Probability Percent 1 7.330E-012 0.40 8 5.BSOE-010 8.80 15 4.720E-008 5.00 2 1.370E-Oll 1.40 9 l.lOOE-009 10.60 16 8.840E-008 2.80 3 2.570E-Oll 1.00 10 2.060E-009 12.00 17 l.650E-007 2.40 4 4.800E-Oll 2.00 11 3.850E-009 10.00 18 3.090E-007 1.00 5 8.980E-Oll 4.80 12 7.210E-009 9.60 19 5.790E-007 0.80 6 l.680E-010 4.60 13 1. 350E-008 9.60 20 1.0BOE-006 0.60 7 3.150E-010 6.80 14 2.520E-008 5.80 Name . FElOl Format . Percent Probability Percent Probability Percent Probability 1 2.930E-012 0.20 8 1.390E-010 7.60 15 6.600E-009 6. 2 5.080E-012 o.oo 9 2.410E-010 12.60 16 1.150E-008 2.0 3 8.810E-012 0.40 10 4.190E-010 11.20 17 1. 990E-008 2.40 4 1.530E-Oll 2.40 11 7.270E-010 11.20 18 3.450E-008 1.00 5 2.660E-Oll 2.60 12 l.260E-009 14.20 19 5.990E-008 0.00 6 4.610E-Oll 2.60 13 2.190E-009 9.40 20 1.040E-007 0.20 7 8.000E-011 5.60 14 3.800E-009 7.60 Name . FE1010 Format . Percent Probability Percent Probability Percent Probability'Percent 1 4.620E-Oll 1.20 8 3.420E-009 9.40 15 2.520E-007 3.80 2 8.550E-Oll 1.00 9 6.320E-009 10.80 16 4.670E-007 1.60 3 1.580E-010 2.60 10 1.170E-008 11.40 17 8.630E-007 2.20 4 2.920E-010 2.80 11 2.160E-008 10.00 18 1.600E-006 1.40 5 5.400E-010 4.40 12 3.990E-008 8.00 19 2.950E-006 0.80 6 9.990E-010 4.40 ' 13 7.380E-008 8.20 20 5.450E-006 0.80 7 l.850E-009 7.80 14 l.360E-007 7.40 1994/01/27 23:28:44 page 8 L-8

  • Name . FE102 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

9.340E-011 0.20 8 4.440E-009 7.60 15 2.110E-007 6.80 2 1. 620E-010 o.oo 9 7.700E-009 12.60 16 3.660E-007 2.00 3 2.820E-010 0.40 10 1.340E,-008 11.20 17 6.350E-007 2.40 4 4.890E-010 2.40 11 2.320E-008 11.20 18 1.100E-006 1.00 5 8.480E-010 2.60 12 4.030E-008 14.20 19 1.910E-006 o.oo 6 1. 470E-009 2.60 13 6.990E-008 9.40 20 3.320E-006 0.20 7 2.560E-009 5.60 14 1. 210E-007 7.60 Name . FE103 Format . Percent Probability Percent Probability Percent Probability Percent 1 7.050E-Oll 0.20 8 3.350E-009 7.60 15 l.590E-007 6.80 2 1. 220E-010 0.00 9 5.810E-009 12.60 16 2.760E-007 2.00 3 2.130E-010 0.40 10 l.OlOE-008 11.20 17 4.790E-007 2 .40 4 3.690E-010 2.40 11 1. 750E-008 11.20 18 8.320E-007 1.00 5 6.400E-010 2.60 12 3.040E-008 14.20 19 1.440E-006 o.oo 6 l.110E-009 2.60 13 5.280E-008 9.40 20 2.510E-006 0.20 7 l.930E-009 5.60 14 9.160E-008 7.60 Name : FE104 Format . Percent .Probability Percent Probability Percent Probability Percent 5.SSOE-012 0.20 8 2.780E-010 7.60 15 1.320E-008 6.80 2 1. 020E-Oll o.oo 9 4.820E-010 12.60 16 2.290E-008 2.00 3 1. 760E-011 0.40 10 8.370E-010 11.20 17 3.970E-008 2.40 4 3.060E-011 2.40 11 l.450E-009 11.20 18 6.900E-008 1.00 5 5.310E-Oll 2.60 12 2.520E-009 14.20 19 1.200E-007 o.oo 6 9.220E-Oll 2.60 13 4.380E-009 9.40 20 2.0SOE-007 0.20 7 1.600E-010 5.60 14 7.600E-009 7.60 Name . FE105 Format . Percent Probability Percent Probability Percent Probability'Percent 1

1. 660E-Oll
                  .0.40  8 l.310E-009 7.60 15
1. 030E-007 3.40 2 3.090E-Oll 0.40 9 2.440E-009 11.20 16 1. 930E-007 2.60 3 5.770E-Oll 0.60 10 4.550E-009 16.40 17 3.590E-007 2.00 4 l.080E-010 1.20 11 8.500E-009 12.40 18 6.710E-007 0.60 5 2.0lOE-010 1.80 12 l.590E-008 10.60 19 1.250E-006 0.60 6 3.750E-Ol0 3.60 13 2.960E-008 10.40 20 2.340E-006 0.20 7 7.0lOE-010 5.40 14 5.530E-008 8.60 1994/01/27 23:28:44 page 9 L-9

HISTOGRAM DETAIL REPORT Name . FE106 Format . Percent Probability Percent Probability Percent Probability Percent l ----------- 6.180E-Oll 0.40 8 4.870E-009 7.60 15 3.840E-007 3.40 2 l.lSOE-010 0.40 9 9.090E-009 11.20 16 7.170E-007 2.60 3 2.lSOE-010 0.60 10 1. 700E-008 16.40 17 1. 340E-006 2.00 4 4.020E-010 1.20 11 3.170E-008 12.40 18 2.SOOE-006 0.60 5 7.490E-010 1.80 12 5.910E-008 10.60 19 4.660E-006 0.60 6 1.400E-009 3.60 13 1. lOOE-007 10.40 20 8.710E-006 0.20 7 2.610E-009 5.40 14 2.060E-007 8.60 Name . FE107 Format . Percent Probability Percent Probability Percent Probability Percent l 5.310E-011 0.40 8 4.190E-009 7.60 15 3.310E-007 3.40 2 9.920E-Oll 0.40 9 7.820E-009 11.20 16 6.170E-007 2.60 3 1.BSOE-010 0.60 10 1.460E-008 16.40 17 l.150E-006 2.00 4 *3.450E-010 1.20 11 2.720E-008 12.40 18 2.150E-006 0.60 5 6.450E-010 1.80 12 5.090E-008 10.60 19 4.0lOE-006 0.60 6 1.200E-009 3.60 13 9.490E-008 10.40 20 7.490E-006 0.20 7 2.250E-009 5.40 14 1.770E-007 8.60 Name . FE108 Format . Percent Probability Percent Probability Percent Probability 1 ----------- l.020E-Oll 0.40 8 8.0SOE-010 7.60 15 6.350E-008 3.4 2 1.900E-Oll 0.40 9 1.SOOE-009 11.20 16 1.lSOE-007 2.60 3 3.SSOE-011 0.60 10 2.800E-009 *16.40 17 2.210E-007 2.00 4 6.630E-Oll 1.20 11 5.230E-009 12.40 18 4.lJOE-007 0.60 5 1.240E-010 1.80 12 9.760E-009 10.60 19 7.700E-007 0.60 6 2.310E-010 3.60 13 1.820E-008 10.40 20 1.440E-006 0.20 7 4.310E-010 5.40 14 3.400E-008 8.60 Name : FE109 Format . Percent Probability Percent Probability Percent Probability'Percent 1 7.520E-013 1.20 8 5.SSOE-011 9.40 15 4.lOOE-009 3.80 2 l.390E-012 1.00 9 1.030E-010 10.80 16 7.590E-009 1.60 3 2.570E-012 2.60 10 1.900E-010 11.40 17 1.400E-008 2.20 4 4.750E-012 2.80 11 3.SlOE-010 10.00 18 2.590E-008 1.40 5 8.780E-012 4.40 12 6.490E-010 8.00 19 4.800E-008 a.so . .6 1. 620E-Oll 4.40 13 .1.200E-009 8.20 20 8.870E-008 a.so 7 3.000E-011 7.80 14 2.220E-009 7.40 1994/01/27 23:28:44 page 10 L-10

  • Name . FEll Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 -----------

l.OlOE-011 0.20 8 ----------- 4.240E-010 7.40 15 -----------

1. 790E-008 6.20 2 l.720E-Oll 0.20 9 7.240E-010 7.00 16 3.060E-008 4.40 3 2.930E-Oll 0.60 10 1.240E-009 12.20 17 5.220E-008 3.40 4 5.000E-011 1.00 11 2.llOE-009 14.00 18 8.900E-008 1.60 5 8.530E-Oll 2.80 12 3.600E-009 12.40 19 l.520E-007 0.60 6 l.460E-Ol0 3.20 13 6.150E-009 8.80 20 2.590E-007 0.60 7 2.490E-010 4.40 14 l.050E-008 9.00 Name . FEllO Format . Percent Probability Percent Probability Percent Probability Percent 1 -----------

8.910E-Oll 0.40 8 ----------- 8.380E-009 7.80 15 ----------- 7.870E-007 4.60 2 l.710E-010 0.60 9 l.600E-008 11.80 16 1.510E-006 4.20 3 3.260E-010 1.20 10 3.070E-008 12.20 17 2.880E-006 1.40 4 6.250E-010 1.40 11 5.870E-008 11.60 18 5.520E-006 1.60 5 1.200E-009 5.60 12 l.120E-007 9.00 19 l.060E-005 0.40 6 2.290E-009 4.60 13 2.150E-007 7.40 20 2.020E-005 1.00 7 4.380E-009 4.40 14 4.llOE-007 8.80 Name .. FElll Format . Percent Probability Percent Probability Percent Probability Percent 7.070E-Oll 0.40 8 2.180E-009 8.40 15 ----------- 6.750E-008 6.20 2 l.150E-010 0.60 9 3.570E-009 10.20 16 l.lOOE-007 4.20 3 1.SSOE-010 0.20 10 5.820E-009 14.40 17 1.800E-007 1.00 4 3.0SOE-010 2.20 11 9.500E-009 10.40 18 2.930E-007 1.40 5 5.020E-Ol0 2.40 12 1.550E-008 10. 80 . 19 4.790E-007 0.40 6 8.200E-010 4.20 13 2.530E-008 8.80 20 7.820E-007 0.20 7 l.340E-009 6.40 14 4.130E-008 7.20 Name . FE!l.110 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.980E-010 0.40 8 ----------- 3.420E-008 10.20 15 ----------- 3.920E-006 3.60 2 5.870E-010 0.40 9 6.730E-008 13.00 16 7.710E-006 2.20 3 l.160E-009 0.40 10 l.320E-007 15.00 17 l.520E-005 1.40 4 2.270E-009 2.60 11 2.610E-007 11.60 18 2.990E-005 0.40 5 4.480E-009 4.40 12 . 5.130E-007 7.20 19 5.890E-005 0.60 6 8.820E-009 5.00 13 l.OlOE-006 9.00 20 l.160E-004 0.60 7 l.740E-008 5.60 14 1. 990E-006 6.40 1994/01/27 '23:28:44 page 11 L-11

Name . FE112 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 2.260E-009 0.40 8 6.980E-008 8.40 15 2.160E-006 6.20 2 3.690E-009 0.60 9 l.140E-007 10.20 16 3.520E-006 4.20 3 6.020E-009 0.20 10 l.860E-007 14.40 17 5.740E-006 1.00 4 9.830E-009 2.20 11 3.040E-007 10.40 18 9.370E-006 1.40 5 l.600E-008 2.40 12 4.950E-007 10.80 19 1.530E-005 0.40 6 2.620E-008 4.20 13 8.090E-007 8.80 20 2.500E-005 0.20 7 4.270E-008 6.40 14 l.320E-006 7.20 Name :" FE113 Format . Percent Probability Percent Probability Percent Probability Percent 1 l.710E-009 0.40 8 5.270E-008 8.40 15 l.630E-006 6.20 2 2.780E-009 0.60 9 8.600E-008 10.20 16 2.660E-006 4.20 3 4.550E-009 0.20 10 l.400E-007 14.40 17 4.340E-006 1.00 4 7.420E-009 2.20 11 2.290E-007 10.40 18 7.0BOE-006 1.40 5 1.210E-008 2.40 12 3.740E-007 10.80 19 l.160E-005 0.40 6 l.980E-008 4.20 13 6.llOE-007 8.80 20 1.890E-005 0.20 7 3.230E-008 6.40 14 9.970E-007 7.20 Name . FE114 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.410E-010 0.40 8 4.370E.;.009 8.40 15 1.350E-007 6.20 2 2.310E-010 0.60 9 7.130E-009 10.20 16 2.200E-007 4.20 3 3.770E-010 0.20 10 1.160E-008 14.40 17 3.590E-007 1.00 4 6.150E-010 2.20 11 l.900E-008 10.40 18 S.870E-007 1.40 5 l.OOOE-009 2.40 12 3.lOOE-008 10.80 19 9.SBOE-007 0.40 6 1. 640E-009 4.20 13 5.060E-008 a.so 20 l.560E-006 0.20 7 2.680E-009 6.40 14 8.260E-008 7.20 Name . FEllS Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.440E-010 0.20 8 l.020E-008 4.40 15 4.300E-007 7.40 2 4.160E-010 0.20 9 1. 750E-008 8.20 16 7.330E-007 3.40 3 7.090E-010 0.20 10 2.980E-008 10.60 17 l.250E-006 4.60 4 l.210E-009 0.40 11 5.0BOE-008 10.40 18 2.130E-006 4.20 5 2.060E-009 2.00 12 8.660E-008 10.60 19 3.640E-006 1.40 6 3.520E-009 2.20 13 l.480E-007 11.ao 20 6.200E-006 *0.60 7 6.000E-009 4.80 14 2.520E-007 12.40 1994/01/27 23:28:44 page 12 L-12

HISTOGRAM DETAIL REPORT Name . FE116 Format : Percent Probability Percent Probability Percent Probability Percent l 9.090E-Ol0 0.20 8 ----------- 3.BlOE-008 4.40 15 ----------- l.600E-006 7.40 2 l.550E-009 0.20 9 6.510E-008 8.20 16 2.730E-006 3.40 3 2.640E-009 0.20 10 l.llOE-007. 10.60 17 4.660E-006 4.60 4 4.510E-009 0.40 11 l.890E-007 10.40 18 7.940E-006 4.20 5 7.690E-009 2.00 12 3.230E-007 10.60 19 l.360E-005 1.40 6 l.310E-008 2.20 13 5.510E-007 11.80 20 2.310E-005 0.60 7 2.240E-008 4.80 14 9.390E-007 12.40 Name . FE117 Format . Percent Probability Percent Probability Percent Probability Percent 1 7.820E-010 0.20 8 3.280E-008 4.40 15 l.380E-006 7.40 2 1. 330E-009 0.20 9 5. 600E-OOB

  • 8.20 16 2.350E-006 3.40 3 2.270E-009 0~20 10 9.540E-008 10.60 17 4.0lOE-006 4.60 4 3.BBOE-009 0.40 11 l.630E-007 10.40 18 6.830E-006 4.20 5 6.610E-009 2.00 12 2.780E-007 10.60 19 l.170E-005 1.40 6 l.130E-008 2.20 13 4.740E-007 11.80 20 l.990E-005 0.60 7 l.920E-008 4.80 14 *8.080E-007 12.40 Name : FEllB* Format . Percent Probability Percent Probability Percent Probability Percent l.SOOE-010 0.20 8 6.300E-009 4.40 15 -----------

2.640E-007 7.40 2.560E-010 0.20 9 l.070E-008 8.20 16 4.SlOE-007 3.40 3 4.370E-010 0.20 10 1. 830E-008 10.60 17 7.690E-007 4.60 4 7.450E-010 0.40 11 3.130E-008 10.40 18 l.310E-006 4.20 5 1.270E-009 2.00 12 5.330E-008 10.60 19 2.240E-006 1.40 6 2.170E-009 2.20 13 9.090E-008 11.80 20 3.820E-006 0.60 7 3.690E-009 4.80 14 l.550E-007 12.40 Name .. FE119 Format . Percent

  • Probability Percent Probability Percent Probability'Percent 1

4.850E-012 0.40 8 5.560E-010 10.20 15 ----------- 6.370E-008 3.60 2 9.540E-012 0.40 9 1.090E-009 13.00 16 l.250E-007 2.20 3 l.880E-Oll 0.40 10 2.150E-009 15.00 17 2.470E-007 1.40 4 3.700E-Oll 2.60 11 4.240E-009 11.60 18 4.860E-007 0.40 5 7.280E-Oll 4.40 12 8.350E-009 7.20 19 9.570E-007 0.60 6 1.430E-010 5.00 13 1.640E-008 9.00 20 l.880E-006 0.60 7 2.820E-010 5.60 14 3.240E-008 6.40 1994/01/27 23:28:44 page 13 L-13

HISTOGRAM DETAIL REPORT Name . FE12 Format . Percent Probability Percent Probability Percent Probability Percent 1 3.210E-010 0.20 8 l.360E-008 7.40 15 5.720E-007 6.20 2 5.480E-010 0.20 9 2.310E-008 7.00 16 9.760E-007 4.40 3 9.350E-010 0.60 10 3.950E-008 12.20 17 l.670E-006 3.40 4 l.600E-009 1.00 11 6.740E-008 14.00 18 2.840E-006 1.60 5 2.730E-009 2.80 12 l.150E-007 12.40 19 4.850E-006 0.60 6 4.650E-009 3.20 13 l.960E-007 8.80 20 8.290E-006 0.60 7 7.940E-009 4.40 14 3.350E-007 9.00 Name . FE121 Format . Percent Probability Percent Probability Percent Probability Percent 1 9.370E-010 0.40 8 3.400E-008 8.40 15

1. 230E-006 4.40 2 1. 570E-009* o.oo 9 5.680E-008 11.20 16 2.060E-006 3.80 3 2.610E-009 0.40 10 9.490E-008 13.00 17 3.440E-006 0.80 4 4.370E-009 0.60 11 1.580E-007 12.00 18 5.750E-006 0.60 5 7.290E-009 1.80 12 2.650E-007 11.60 19 9.600E-006 0.60 6 l.220E-008 4.40 13 4.420E-007 10.40 20 l.600E-005 0.20 7 2.040E-008 6.00 14 7.380E-007 9.40
                                                              . Percent
                                                                     ~==~~-

Name : FE1210 Format Probability Percent Probability Percent Probability 1 ----------- 9.060E-009 1.00 8 5.230E-007 7.40 15 ----------- 3.020E-005 5.4 2 l.620E-008 0.60 9 9.330E-007 10.60 16 5.390E-005 3.2 3 2.890E-008 1.00 10 l.670E-006 8.80 17 9.610E-005 3.00 4 5.lSOE-008 2.00 11 2.970E-006 11.20 18 1. 720E-004 0.80 5 9.190E-008 3.00 12 5.310E-006 9.60 19 J.060E-004 1.40 6 l.640E-007 5.40 13 9.470E-006 10.80 20 5.470E-004 1.40 7 2.930E-007 6.40 14 1.690E-005 7.00 Name . FE122 Format . Percent Probability Percent Probability Percent Probability' Percent 1 2.990E-008 0.40 8 l.090E-006 8.40 15 3.940E-005 4.40 2 5.000E-008 o.oo 9 1.SlOE-006 11.20 16 6.SSOE-005 3.80 3 8.350E-008 0.40 10 3.030E-006 13.00 17 l.lOOE-004 0.80 4 1. 390E-007 0.60 11 5.060E-006 12.00 18 1. 840E-004 0.60 5 2.330E-007 1.80 12 8.450E-006 11.60 19 3.070E-004 0.60 6 3.890E-007 4.40 *13 l.410E-005 10.40 20 5.120E-004 0.20 7 6.500E-007 6.00 14 2.360E-005 9.40 1994/01/27 23:28~44 page 14 L-14

  • Name . FE123 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 2.260E-008 0.40 8 8.200E-007 8.40 15 2.970E-005 4.40 2 3.770E-008 o.oo 9 l.370E-006 11.20 16 4.970E-005 3.80 3 6.310E-008 0.40 10 2.290E-006 13.00 17 8.300E-005 0.80 4 1.050E-007 0.60 11 3.820E-006 12.00 18 l.390E-004 0.60 5 1. 760E-007 1.80 12 6.380E-006 11.60 19 2.310E-004 0.60 6 2.940E-007 4.40 13 l.070E-005 10.40 20 3.870E-004 0.20 7 4.910E-007 6.00 14 1. 780E-005 9.40 Name . FE124 Format . Percent Probability Percent _,. __________

Probability Percent Probability Percent 1 l.870E-009 0.40 8 6.800E-008 8.40 15 2.470E-006 4.40 2 3.130E-009 o.oo 9 l.140E-007 11.20 16 4.120E-006 3.80 3 5.230E-009 0.40 10 l.900E-007 13.00 17 6.880E-006 0.80 4 8.730E-009 0.60 11 3.170E-007 12.00 18 l.150E-005 0.60 5 1. 460E-008 1.80 12 5.290E-007 11.60 19 l.920E-005 0.60 6 2.440E-008 4.40 13 8.840E-007 10.40 20 3.210E-005 0.20 7 4.070E-008 6.00 14 1.480E-006 9.40 Name . FE125 Format . Percent Probability Percent Probability Percent Probability Percent l.OSOE-008 0.60 8 4.SSOE-007 7.00 15 ----------- l.970E-005 4.40 l.800E-008 0.40 9 7.790E-007 14.80 16 3.370E-005 2.40 3 3.080E-008 0.20 10 1. 340E-006 11.20 17 5.780E-005 2.00 4 5.280E-008 2.40 11 2.290E-006 10.20 18 9.900E-005 o.oo 5 9.050E-008 4.00 12 3.920E-006 8.60 19 l.700E-004 0.40 6 l.550E-007 5.80 13 6.710E-006 11.60 20 2.900E-004 0.20 7 2.660E-007 6.60 14 1.150E-005 7.20 Name . FE126 Format . Percent Probability Percent Probability Percent Probability ~ercent 1 3.920E-008 0.60 8

1. 700E-006 7.00 15 7.340E-005 4.40 2 6.710E-008 0.40 9 2.900E-006 14.80 16 l.260E-004 2.40 3 l.150E-007 0.20 10 4.980E-006 11.20 17 2.150E-004 2.00 4 l.970E-007 2.40 11 8.520E-006 10.20 18 3.690E-004 o.oo 5 3.370E-007 4.00 12 1. 460E-005 8.60 19 6.320E-004 0.40 6 5.780E-007 5.80 13 2.500E-005 11.60 20 l.OSOE-003 0.20 7 9.900E-007 6.60 14 4.280E-005 7.20 1994/01/27 23:28:44 page 15 L-15

HISTOGRAM DETAIL REPORT Name .. FE127 Format .. Percent Probability Percent Probability Percent Probability Percent 1 3.370E-008 0.60 8 ----------- 1.460E-006 7.00 15 6.310E-005 4.40 2 5.770E-008 0.40 9 2.500E-006 14.80 16 1.080E-004 2.40 3 9.890E-008 0.20 10 4.280E-006 11.20 17 1.850E-004 2.00 4 1.690E-007 2.40 11 7.330E-006 10.20 18 3.l?OE-004 o.oo 5 2.900E-007 4.00 12 1.260E-005 8.60 19 5.430E-004 0.40 6 4.970E-007 5.80 13 2.150E-005 11.60 20 9.310E-004 0.20 7 8.510E-007 6.60 14 3.680E-005 7.20 Name : FE128 Format . Percent Probability Percent Probability Percent Probability Percent 1 6.470E-009 0.60 8 2.800E-007 7.00 15

1. 210E-005 4.40 2 1.llOE-008 0.40 9 4.800E-007 14.80 16 2.080E-005 2.40 3 1.900E-008 0.20 10 8.220E-007 11.20 17 3.560E-005 2.00 4 3.250E,;,.008 2.40 11 1.410E-006 10.20 18 6.090E-005 o.oo 5 5.570E-008 4.00 12 2.410E-006 8.60 19 1. 040E-004 0.40 6 9.540E-008 5.80 13 4.130E-006 11.60 20 1.790E-004 0.20 7 l.630E-007 6.60 14 7.070E-006 7.20 Name . FE129 Format . Percent Probability Percent Probability Percent Probability 1

1.470E-010 1.00 8 8.500E-009 7.40 15 4.910E-007 5.4 2 2.630E-010 0.60- 9 l.520E-008 10.60 16 8.760E-007 3.20 3 4.690E-010 1.00 10 2.710E-008 8.80 17 1.560E-006 3.00 4* 8.380E-010 2.00 11 4.830E-008 11.20 18 2.790E-006 0.00 5 l.500E-009 3.00 12 8.630E-008 9.60 19 4.98oE:..oo6 1~40 6 2.670E-009 5.40 13 1. 540E-007 10.00 20 8.890E-006 1.40 7 4.760E-009 6.40 14 2.750E-007 7.00 Name . FE13 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.420E-010 0.20 8

1. 020E-008 7.40 15 4.320E-007 6.20 2 4.140E-010 0.20 9
  • 1. 750E-008 7.00 16 7.370E-007 4.40 3 7.060E-010 0.60 10 2.980E-008 12.20 17 l.260E-006 3.40 4 1.210E-009 1.00 11 5.090E-008 14.00 18 2.150E-006 1.60 5 2.060E-009 2.80 12 8.680E-008 12.40 19 3.660E-006 0.60 6 3.510E-009 3.20 13 1.480E-007 a.so 20 6.250E-006 0.60 7 5.990E-009 4.40 14 2.530E-007 9.00 1994/01/27 23:28:44 page 16 L-16

HISTOGRAM DETAIL REPORT Name . FE13Al Format . Percent Probability Percent Probability Percent Probability Percent 1 

  -*1.840E-009       0.40    8 3.150E-008 11.00  15 5.380E-007 6.80 2    2.760E-009       1.00    9   4.720E-008      10.00  16   8.070E-007        3.40 3    4.lSOE-009       2.20   10   7.090E-008      12.40  17   l.210E-006        0.80 4    6.220E-009       2.40   11   l.060E-007       9.00  18   1. 820E-006       1.40 5    9.330E-009       3.60   12   1.590E-007       9.60  19   2.720E-006        0.80 6    1.400E-008       3.40
  • 13 2.390E-007 7.80 20 4.090E-006 0.40 7 2.lOOE-008 8.40 14 3.590E-007 5.20 Name .. FE13A10 Format : Percent Probability Percent Probability Percent Probability Percent 1

4.000E-009 0.20 8 3.160E-007 10.00 15 2.490E-005 4.40 2 7.460E-009 0.20 9 5.890E-007 12.00 16 4.650E-005 2.40 3 1. 390E-008 1.80 10 l.lOOE-006 12.60 17 8.670E-005 1.00 4 2.600E-008 2.00 11 2.050E-006 11.60 18 1. 620E""'.004 1.40 5 4.850E-008 3.20 12 3.830E-006 8.40 19 3.020E-004 1.00 6 9.060E-008 4.20 13 7.150E-006 9.60 20 5.640E-004 0.60 7 1.690E-007 6.60 14 1. JJOE-005 6.80 Name . FE13A2 Format 

                                                                    . Percent Probability Percent           Probability Percent         Probability Percent 5.890E-008 0.40    8 l.OlOE-006 11.00  15 1.720E-005 6.80 2    8.830E-008       1.00    9   1.510E-006      10.00  16   2.580E-005        3.40 3    1.320E-007       2.20   10   2.260E-006      12 .40 17   3.870E-005        0.80
4. l.990E-007 2.40 11 3.400E-006 9.00 18 5.800E-005 1.40 5 2.980E-007 3.60 12 5.090E-006 9.60 19 8.700E-005 0.80 6 4.470E-007 3.40 13 7.640E-006 7.80 20 1. 310E-004 0.40 7 6.710E-007 8.40 14 l.150E-005 5.20 Name . FE13A3 Format . Percent Probability Percent Probability P_ercent Probability'Percent 1

4.440E-008 0.40 8 7.590E-007 11.00 15

1. JOOE-005 6.80 2 6.670E-008 1.00 9 l.140E-006 10.00 16 l.950E-005 3.40 3 l.OOOE-007 2.20 10 1. 710E-006 12.40 17 2.920E-005 0.80 4 l.500E-007 2.40 11 2.560E-006 9.00 18 4.380E-005 1.40 5 2.250E-007 3.60 12 3.850E-006 9.60 19 6.570E-005 0.80 6 3.370E-007 3.40 13 5.770E-006 7.80 20 9.860E-005 0.40 7 5.060E-007 8.40 14* 8.650E-006 5.20 1994/01/27 "23:28:44 page 17 L-17

HISTOGRAM DETAIL REPORT Name . FE13A4 Format . Percent Probability Percent Probability Percent Probability Percent 1 3.690E-009 0.40 8 6.300E-008 11.00 15 1.080E-006 6.80 2 5.530E-009 1.00 9 9.450E-008 10.00 16 1.610E-006 3.40 3 8.290E-009 2.20 10 1.420E-007 12.40 17 2.420E-006 0.80 4 1.240E-008 2.40 11 2.130E-007 9.00 18 3.630E-006 1.40 5 1. 870E-008 3.60 12 3.190E-007 9.60 19 5.450E-006 0.80 6 2.BOOE-008 3.40 13 4.780E-007 7.80 20 8.170E-006 0.40 7 4.200E-008 8.40 14 7.170E-007 5.20 Name . FE13A5 Format  : Percent Probability Percent Probability Percent Probability Percent 1 2.BSOE-009 0.20 8 l.310E-007 9.00 15 ----------- 6.000E-006 6.60 2 4.930E-009 o.oo 9 2.260E-007 10.20 16 1.040E-005 4.40 3 8.510E-009 a.so 10 3.900E-007 9.60 17 1.790E-005 3.20 4 1.470E-008 0.40 11 6.740E-007 12.60 18 3.090E-005 1.80 5 2.540E-008 0.80 12 l.160E-006 12.40 19 5.340E-005 o.oo 6 4.390E-008 2.60 13 2.0lOE-006 13.40 20 9.220E-005 0.20 7 7.570E-008 4.40 14 3.470E-006 7.40 Name : FE13A6 Format . Percent Probability Percent Probability Percent Probability Percen 1 ----------- 1.060E-008 0.20 8 ----------- 4.870E-007 9.00 15 ----------- 2.230E-005 6.6 2 1.840E-008 o.oo 9 8.420E-007 10.20 16 3.860E-005 4.40 3 3.170E-008 0.80 10 l.450E-006 9.60 17 6.670E-005 3.20 4 5.480E-008 0.40 11 2.510E-006 12.60 18 l.lSOE-004 1.80 5 9.460E-008 0.80 12 4.340E-006 12.40 19 l.990E-004 o.oo 6 1.630E-007 2.60 13 7.490E-006 13.40 20 3.430E-004 0.20 7 2.820E-007 4.40 14 1.29oE..:oos 7.40 Name .. FE13A7 Format : Percent Probability Percent Probability Percent Probability'Percent 1 ----------- 9.150E-009 0.20 8 4.190E-007 9.00 15 l.920E-005 6.60 2 1.580E-008 o.oo 9 7.240E-007 10.20 16 3.320E-005 4.40 3 2.730E-008 0.80 10 1.250E-006 9.60 17 5.730E-005 3.20 4 4.710E-008 0.40 11 2.160E-006 12.60 18 9.900E-005 1.80 5 8.140E-008 0.80 12 3.730E-006 12.40 19 1. 710E-004 o.oo 6 1.410E-007 2.60 13 6.440E-006 13.40 20 2.950E-004 0.20 7 2.430E-007 4.40 14 1. llOE-005 . 7.40 1994/01/27 23:28:44 page 18 L-18

HISTOGRAM DETAIL REPORT Name . FE13AS Format . Percent Probability Percent Probability Percent Probability Percent 1

1. 760E-009 0.20 8 8.0SOE-008 9.00 15 -----------

3.690E-006 6.60 2 3.030~-009 o.oo 9 1. 390E-007 10.20 16 6.370E-006 4.40 3 5.240E-009 o.eo 10 2.400E-007 9.60 17 l.lOOE-005 3.20 4 9.050E-009 0.40 11 4.lSOE-007 12.60 18 l.900E-005 1.80 5 1.560E-008 o.so 12 7.160E-007 12.40 19 3.2SOE-005 o.oo 6 2.700E-008 2.60 13 1.240E-006 13.40 20 5.670E-005 0.20 7 4.660E-008 4.40 14 2.140E-006 7.40 Name . FE13A9 Format . Percent Probability Percent Probability Percent Probability Percent 1 6.500E-Oll 0.20 8 5.130E-009 10.00 15 4.050E-007 4.40 2 l.210E-010 0.20 9 9.SSOE-009 12.00 16 7.560E-007 2.40 3 2.260E-010 1.80 10 1. 790E-008 12.60 17 l.410E-006 1.00 4 4.230E-Ol0 2~00 11 3.340E-008 11.60 18 2.630E-006 1.40 5 7.890E-010 3.20 12 . 6. 230E-008 8.40 19 4.910E-006 1.00 6 l.470E-009 4.20 13 1.160E-007 9.60 20 9.170E-006 0.60 7 2.750E-009 6.60 14 2.170E-007 6.80 Name : FE13Bl Format : Percent Probability Percent Probability Percent Probability Percent 1.650E-010 0.40 8 ----------- 5.lOOE-009 8.40 15 ----------- l.570E-007 6.20 2 2.700E-010 0.60 9 B.330E-009 10.20 16 2.570E-007 4.20 3 4.400E-010 0.20 10 1.360E-008 14.40 17 4.200E-007 1.00 4 7.190E-010 2.20 11 2.220E-008 10.40 18 6.850E-007 1.40 5 1.170E-009 2.60 12 3.620E-008 10.80 19 l.120E-006 0.40 6 1.920E-009 4.00 13 5.910E-008 a.so 20 l.820E-006 0.20 7 3.130E-009 6.40 14 9.650E-008 7.20 Name . FE13Bl0 Format . Percent Probability Percent Probability Percent Probability:Percent 1 6.960E-010

  • 0.40' 8 7.980E-008 10.20 15 9.l60E-006 3.60 2 l.370E-009 0.40 9 1.570E~007 13.00 16 1.BOOE-005 2.20 3 2.700E-009 0.40 10 3.lOOE-007 15.00 17 3.550E-005 1.40 4 5.310E-009 2.60 11 6.090E-007 11.60 18 6.990E-005 0.40 5 l.050E-008 4.40 12 1.200E-006 7.20 19 l.380E-004 0.60 6 2.060E-008 5.00 13 2.360E-006 9.00 20 2.710E-004 0.60 7 4.060E-008 5.60 14 4.650E-006 6*. 40 1994/01/27 23:28:44 page 19 L-19

HISTOGRAM DETAIL REPORT Name . FE13B2 Format . Percent Probability Percent Probability Percent Probability Percent 1 5.280E-009 0.40 8 l.630E-007 8.40 15 5.030E-006 6.20 2 8.620E-009 0.60 9 2.660E-007 10.20 16 8.210E-006 4.20 3 1.410E-008 0.20 10 4.340E-007 14.40 17 1.340E-005 1.00 4 2.300E-008 2.20 11 7.090E-007 10.40 18 2.190E-005 1.40 5 3.750E-008 2.60 12 1.160E-006 10.80 19 3.570E-005 0.40 6 6.120E-008 4.00 13 l.890E-006 a.so 20 5.830E-005 0.20 7 9.990E-008 6.40 14 3.0SOE-006 7.20 Name . FE13BJ Format . Percent Probability Percent Probability Percent Probability PeJ:'cent 1 3.990E-009 0.40 8 l.230E-007 8.40 15 J.SOOE-006 6.20 2 6.510E-009 0.60 9 2.0lOE-007 10.20 16 6.200E-006 4.20 3 l.060E-008 0.20 10 3.280E-007 14.40 17 1.0lOE-005 1.00 4 1. 730E-008 2.20 11 5.350E-007 10.40 18 1.650E-005 1.40 5 2.SJOE-008 2.60 12 8.730E-007 10.80 19 2.?00E-005 0.40 6 4.620E-008 4.00 13 1.430E-006 a.so 20 4.400E-005 0.20 7 7.540E-008 6.40 14 2.JJOE-006 7.20 Name-: FE13B4 Format . Percent Probability Percent Probability Percent Probability 1 3.JlOE-010 0.40 8 l.020E-008 s*.40 15 3.150E-007 6.2 2 5.400E-010 0.60 9 l.670E-008 10.20 16 5.140E-007 4.20 3 8.SlOE-010 0.20 10 2.720E-008 14.40 17 8.390E-007 1.00 4 1. 440E-009 2.20 11 4.440E-008 10.40 18 1. 370E-006 1.40 5 2.350E-009 2.40 12 7.240E-008 10.80 19 2.240E-006 0.40 6 J.SJOE-009 4.20 13 l.180E-007 8.80 20 3.650E-006 0.20 7 6.250E-009 6.40 14 1.930E-007 7.20 Name . FE13B5 Format .. Percent Probability Percent Probability Percent Probability'Percent 1 5.700E-010 0.20 8 2.390E-008 4.40 15 1.000E-006 7.40 2 9.710E-010 0.20 9 4.080E-008 8.20 16 1.710E-006 3.40 3 l.660E-009 0.20 10 6.950E-008 10.60 17 2.920E-006 4.60 4 2.SJOE-009 0.40 11 l.190E-007 10.40 18 4.9SOE-006 4.20 5 4.820E-009 2.00 12 2.020E-007 10.80 19 8.490E-006 1.40 6 8.220E-009 2.20 13 3.450E-007 11.80 20 1. 450E-005 0.60 7 l.400E-008 4.80 14 5.SSOE-007 12.20 1994/01/27 23:28:44 page 20 L-20

HISTOGRAM DETAIL REPORT Name . FE13B6 Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 2.120E-009 0.20 8 8.910E-008 4.40 15 3.740E-006 7.40 2 3.620E-009 0.20 9 1. 520E-007 8.20 16 6.370E-006 3.40 3 6.170E-009 0.20 10 2.590E-007 10.60 17 1.090E-005 4.60 4 1.0SOE-008 0.40 11 4.420E-007 10.40 18 1.850E-005 4.20 5 l.800E-008 2.00 12 7.530E-007 10.80 19 3.160E-005 1.40 6 3.060E-008 2.20 13 l.290E-006 11.80 20 5.390E-005 0.60 7 5.220E-008 4.80 14 2.190E-006 12.20 Name .. FE13B7 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.830E-009 0.20 8 7.660E-008 4.40 15 3.210E-006 7.40 2 3.llOE-009 0.2.0 9 1. 310E-007 . 8.20 16 5.480E-006 3.40 3 5.310E-009 0.20 10 2.230E-007 10.60 17 9.350E-006 4.60 4 9.0SOE-009 0.40 11 3.*sooE-001 10.40 18 1.590E-005 4.20 5 1.540E-008 2.00 12 6.480E-007 10~80 19 2.720E-005 1.40 6 2.630E-008 2.20 13 l.llOE-006 11.80 20 4.640E-005 0.60 7 4.490E-008 4.80 14 l.880E-006 12.20 Name . FE13B8 Format .. Percent Probability Percent Probability Percent Probability Percent 3.500E-010 0.20 8 1.470E-008 4.40 15 6.170E-007 7.40 2 5.980E-010 0.20 9 2.SlOE-008 8.20 16 1.050E-006 3.40 3 1.020E-009 0.20 10 4.280E-008 10.60 17* 1.800E-006 4.60 4 1. 740E-009 0.40 11 7.300E-008 10.40 18 3.060E-006 4.20 5 2.970E-009 2.00 12 1. 240E-007 10.80 19 5.220E-006 1.40 6 S.060E-009 2.20 13 2.120E-007 11.80 20 8.910E-006 0.60 7 8.620E-009 4.80 14 3.620E-007 12.20 Name . FE13B9 Format . Percent Probability Percent Probability Percent Probability'Percent 1 -----------

1. lJOE-011 0.40 8
1. JOOE-009 10.20 15 1.490E-007 3.60 2 2.230E-Oll 0.40 9 2.560E-009 13.00 16 2.930E-007 2.20 3 4.390E-Oll 0.40 10 5.030E-009 15.00 17 S.770E-007 1.40 4 8.640E-Oll 2.60 11 9.910E-009 11.60 18 1.140E-006 0.40 5 1.700E-010 4.40 12 l.950E-008 7.20 19 2.240E-006 0.60 6 3.350E-Ol0 5.00 13 3.840E-008 9.00 20 4.400E-006 0.60 7 6.590E-010 5.60 14 7.560E-008 6.40 1994/01/27 23:28:44 page 21 L-21

HISTOGRAM DETAIL REPORT Name FE14 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.0lOE-011 0.20 8 ----------- 8.480E-010 7.40 15 3.580E-008 6.20 2 3.430E-Oll 0.20 9 1.450E-009 7.00 16 6.llOE-008 4.40 3 5.860E-Oll 0.60 10 2.470E-009 12.20 17 1.040E-007 3.40 4 1.000E-010 1.00 11 4.220E-009 14.00 18 1.780E-007 1.60 5 1. 710E-010 2.80 12 7.200E-009 12.40 19 3.040E-007 0.60 6 2.910E-010 3.20 13 1.230E-008 8.80 20 5.190E-007 0.60 7 4.970E-010 4.40 14 2.lOOE-008 9.00 Name .. FE15 Format .. Percent Probability Percent Probability Percent ___ _, _____ Probability Percent 1 6.020E-Oll 0.20 8 ----------- 3.170E-009 6.20 ----------- 15 l.660E-007 6.60 2 1. 060E-010 . 0.20 9 5.580E-009 9.00 16 2.930E-007 3.80 3 1.870E-010 o.oo 10 9.820E-009 7.80 17 5.160E-007 3.80 4 3.290E-010 0.80 11 1. 730E-008 12.20 18 9.090E-007 2.60 5 5.800E-010 3.00 12 3.050E-008 13.00 19 1.600E-006 2.00 6 1. 020E-009 2.40 13 5.370E-008 9.60 20 ,2.820E-006 1.00 7 l.SOOE-009 4.40 14 9.450E-008 11.40 Name . FE16 Format.: Percent Probability Percent Probability Percent Probability Percen 1 2.250E-Ol0 0.20 8 1.180E-008 6.20 15 6.200E-007 6.6 2 3.950E-010 0.20 9 2.080E-008 9.00 16 1.090E-006 3.80 3 6.960E-010 o.oo 10 3.660E-008 7.80 17 1.920E-006 3.80 4 l.230E-009 0.80 11 6.450E-008 12.20 18 3.390E-006 2.60 5 2.160E-009 3.00 12 1.140E-007 13.00 19 5.970E-006 2.00 6 3.SOOE-009 2.40 13 2.000E-007 9.60 20 1.050E-005 1.00 7 6.700E-009 4.40 14 3.520E-007 11.40 Name : FE17 Format . Percent Probability Percent Probability Percent Probability'Percent 1 l.930E-010 0.20 8 ----------- 1~020E-008 6.20 15 ----------- 5.340E-007 6.60 2 3.400E-010 0.20 *g 1.790E-008 9.00 16 9.400E-007 3.80 3 5.990E-010 o.oo 10 3.150E-008 7.80 17 1.660E-006 3.80 4 1.050E-009 0.80 11 5.550E-008 12.20 18 2.920E-006 2.60 5 l.860E-009 3.00 12 9.770E-008 13.00 19 5.lJOE-006 2.00 6 3.270E-009 2.40 13 1. 720E-007 9.60 20 9.040E-006 1.00 7 5.760E-009 4.40 14 3.030E-007 11.40 1994/01/27 23:28:44' page 22 L-22

  • Name . FE18 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format : . Percent Probability Percent 1

3.710E-Oll 0.20 8 l.950E-009 6.20 15 l.020E-007 6.60 2 6.530E-Oll 0.20 9 3.430E-009 9.00 16 l.SOOE-007 3.80 3 l.150E-010 o.oo 10 6.050E-009 7.80 17 3.180E-007 3.80 4 2.030E-010* 0.80 11 l.060E-008 12.20 18 5.600E-007 2.60 5 3.570E-Ol0 3.00 12 l.880E-008 13.00 19 9.860E-007 2.00 6 6.280E-010 2.40 13 3.300E-008 9.60 20 l.740E-006 1.00 7 l.llOE-009 4.40 14 5.820E-008 11.40 Name . FE19 Format . Percent Probability Percent Probability Percent Probability Percent 1 1. 450E-012 0.40 8 1. 360E-010 8.00 15 l.280E-008 4.60 2 2.770E-012 0.60 9 2.610E-010 11.80 16 2.450E-008 4.20 3 5.310E-012 1.20 10 4.990E-010 12.20 17 4.690E-008 1.40 4 1. 020E-Oll 1.40 11 9.540E-010 11.60 18 8.970E-008 1.60 5 1.940E-Oll 5.60 12 1. 830E-009 9.00 19 1. 720E-007 0.40 6 3.720E-Oll 4.60 13 3.500E-009 7.40 20 3.290E-007 1.00 7 7.120E-Oll 4.20 14 6.690E-009 8.80 Name . FE21 Format . Percent

  • Probability Percent _______ ___

Probability 

                                    ,. Percent     Probability Percent 2
   -;:;;~;=~~~ -------

1.160E-010 0.20 0.20 8 9 l.850E-009 2.940E-009 6.60 10.40 15 16 4.710E-008 7.480E-008 7.20 7.20 3 1.840E-010 o.oo 10 4.670E-009 8.20 17 l.190E-007 3.20 4 2.920E-010 0.60 11 7.420E-009 11.60 18 1.890E-007 1.80 5 4.630E-010 1.40 12 l.180E-008 10.60 19 2.990E-007 1.20 6 7.360E-010 4.80 13 1. 870E-008 9.40 20 4.750E-007 0.20 7 1.170E-009 3.60 14 2.970E-008 11.60 Name . FE210 Format . Percent Probability Percent Probability Percent Probability' Percent 1 2.170E-010 0.20 8 2.500E-008 7.40 15 2.880E-006 1.00 2 4.280E-010 0.00 9 4.930E-008 10.20 16 5.680E-006 2.20 3 8.430E-010 1.00 10 9.710E-098 13.00 17 l.120E-005 1.60 4 1.660E-009 1.40 11 l.910E-007 13.40 18 2.210E-005 1.40 5 3.270E-009 2.00 12 3.770E-007 11.40 19 4.340E-005 0.60 6 6.450E-009 3.00 13 7.430E-007 10.60 20 8.560E-005 0.60 7 1.270E-008 5.60 14 1. 460E-006 7.40 1994/01/27 23:28:44 page 23

  • L-23

Name . FE22 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 2.330E-009 0.20 8 5.920E-008 6.60 15 l.510E-006 7.20 2 3.700E-009 0.20 9 9.400E-008 10.40 16 2.390E-006 7.20 3 5.870E-009 o.oo 10 l.490E-007 8.20 17 3.790E-006 3.20 4 9.320E-009 0.60 11 2.370E-007 11.60 18 6.020E-006 1.80 5 . 1. 480E-008 1.40. 12 3.760E-007 10.60 19 9.560E-006 1.20 6 2.350E-008 4.80 13 5.970E-007 9.40 20 1. 520E-005 0.20 7 3.730E-008 3.60 14 9.480E-007 11.60 Name . FE23 Format . Percent Probability Percent Probability Percent Probability Percent 1 l.760E-009 0.20 8 4.470E-008 6.60 15 1.140E-006 7.20 2 2.790E-009 0.20 9 7.lOOE-008 10.40 16 l.800E-006 7.20 3 4.430E-009 o.oo 10 l.130E-007 8.20 17 2.860E-006 3.20 4 7.040E-009 0.60 11 1.790E-007 11.60 18 4.550E-006 1.80 5 l.120E-008 1.40 12 2.840E-007 10.60 19 7.220E-006 1.20 6 1. 770E-008 4.80 13 4.510E-007 9.40 20 l.150E-005 0.20 7 2.820E-008 3.60 14 7.160E-007 11.60 Name . FE24 Format . Percent 1 2 3 Probability Percent l.460E-010 2.320E-010 3.680E-010 0.20 0.20 o.oo 8 9 10 Probability Percent 3.710E-009 5.890E-009

9. 34.0E-009 6.60 10.40 8.20 15 16 17 Probability 9.420E-008 1.500E-007 2.370E-007
~===-

7.2 7.20 3.20 4 5.840E-010 0.60 11 l.480E-008 11.60 18 3.770E-007 1.80 5 9.270E-010 1.40 12 2.350E-008 10.60 19 5.980E-007 1.20 6 l.470E-009 4.80 13 3.740E-008 9.40 20 9.500E,;..007 0.20 7 2.340E-009 3.60 14 5.930E-008 11.60 Name . FE25 Format . Percent Probability Percent Probability Percent Probability'Percent 1 ----------- 4.370E-Ol0 0.20 8 l.450E-008 5.40 15 4.850E-007 7.40 2 7.210E-010 0.20 9 2.400E-008 6.60 16 8.000E-007 7.40 3 l.190E-009 0.20 10 3.960E-008 9.60 17 1. 320E-006 4.00 4 1.960E-009 0.40 11 6.540E-008 10.00 18 2.180E-006 3.00 5 3.240E-009 1.80 12 l.OSOE-007 13.60 19 3.590E-006 1.80 6 5.340E-009 8.820E-009 4.20 3.80 13 14

1. 780E-007 2.940E-007 11.00 8.60 20 5.930E-006 0.00 1994/01/27 23:28:44 page 24 L-24

HISTOGRAM DETAIL REPORT Name . FE26 Format . Percent Probability Percent Probability Percent Probability Percent l

l. 630E-009 0.20 8 -----------

5.420E-008 5.40 15 ----------- l.810E-006 7.40 2 2.690E-009 0.20 9 8.950E-008 6.60 16 2.980E-006 7.40 3 4.430E-009 0.20 10 l. 480E-007 9.60 17 4.920E-006 4.00 4 7.310E-009 0.40 11 2.440E-007 10.00 18 8.120E-006 3.00 5 l. 210E-008

  • l.80 12 4.020E-007 13.60 19 l.340E-005 1_.80 6 l.990E-008 4.20 13 6.630E-007 11.00 20 2.210E-005 0.80 7 3.290E-008 3.80 14 l.090E-006 8.60 Name . FE27 Format . Percent Probability Percent Probability Percent Probability Percent 1

1.400E-009 0.20 8 4.660E-008 5.40 15 1.550E-006 7.40 2 2.310E-009 0.20 9 7.700E-008 6.60 16 2.560E-006 7.40 3 3.810E-009 0.20 10 l.270E-007 9.60 17 4.230E-006 4.00 4 6.290E-009 0.40 11 2.lOOE-007 10.00 18 6.980E-006 3.00 5 1. 040E-008 1.80 12 3.460E-007 13.60 19 1.lSOE-005 1.80 6 1. 710E-008 4.20 13 5. 7 lOE-007

  • 11.00 20 1. 900E-005
  • 0.80 7 2.830E-008 3.80 14 9.410E-007 8.60 Name . FE2B Format .. Percent Probability Percent Probability Percent Probability Percent 2.690E-010 0.20 8 8.950E-009 5.40 15
                                                      ----------~

2.9BOE-007 7.40 4.430E-010 0.20 9 l.4BOE-008 6.60 16 4.920E-007 7.40 3 7.320E-010 0.20 10 2.440E-008 9.60 17 8.120E-007 4.00 4 1.210E-009 0.40 11 4~020E-008 10.00 18 l.340E-006 3.00 5 1.990E-009 1.80 12 6.640E-008 13.60 19 2.210E-006 1.80 6 3.290E-009 4.20 13 l.lOOE-007 11.00 20 3.650E-006 0.80 7 5.430E-009 3.80 14 l. SlOE-007 8.60 Name . FE29 Format . Percent Probability Percent Probability Percent Probability'Percent l 3.530E-012 0.20 8 4.070E-010 7.40 15 4.690E-008 7.00 2 6.960E-012 o.oo 9 8.020E-010 10.20 16 9.240E-008 2. 20* 3 l. 370E-Oll 1.00 10 l.580E-009 13.00 17 1.820E-007 1.60 4 2. 700E-Oll 1.40 11 3.llOE-009 13.40 18 3.590E-007 1.40 5 5.320E-Oll 2.00 12 6.130E-009 11.40 19 7.060E-007 0.60 6 1.0SOE-010 3.00 13 l.210E-008 10.60 20 l. 390E-006 0.60 7 2.070E-010 5.60 14 2.380E-008 7.40 1994/01/27 23:28:44 page 25 L-25

Name . FE41 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format : Percent Probability Percent 1 4.990E-Oll 0.20 8 1.270E-009 6.80 15 3.240E-008 8.60 2 7.930E-Oll o.oo 9 2.020E-009 9.00 16 5.150E-008 5.20 3 1.260E-010 0.40 10 3.210E-009 6.00 17 8.170E-008 4.60 4 2.000E-010 0.40 11 5.090E-009 13.40 18 1.300E-007 2.00 5 3.180E-010 a.so 12 8.090E-009 10.20 19 2.060E-007 0.60 6 5.040E-010 5.80 13 1.280E-008 10.40 20 3.270E-007 1.20 7 8.0lOE-010 3.00 14 2.040E-008 11.40 Name . FE410 Format . Percent Probability Percent Probability Percent Probability Percent 1

1. 310E-010 0.20 8 2.050E-008 11.40 15 3.210E-006 4.00 2 2.690E-010 o.oo 9 4.220E-008 9.40 16 6.610E-006 1.60 3 5.540E-010 0.60 10 8.690E-008 14.00 17 1. 360E-005 1.20 4 1.140E-009 1.20 11 1. 790E-007 14.80 18 2.SOOE-005 1.00 5 2.350E-009 2.40 12 3.680E-007 11.60 19 5.770E-005 0.60 6 4.840E-009 4.00 13 7.580E-007 9.20 20 l.190E-004 0.20 7 9.960E-009 4.40 14 l.560E-006 8.20 Name . FE42 Format . Percent Probability Percent Probability Percent Probability Percent 1

l.590E-009 0.20 8 4.060E-008 6.80 15 1.0JOE-006 8.6 2 2.530E-009 o.oo 9 6.450E-008 9.00 16 1.640E-006 5.2 3 4.020E-009 0.40 10 1. 020E-007 6.00 17 2.610E-006 4.60 4 6.390E-009 0.40 11 l.630E-007 13.40 18 4.150E-006 2.00 5 1.0lOE-008 0.80 12 2.580E-007 10.20 19 6.580E-006 0.60 6 l.610E-008 5.80 13 4.lOOE-007 10.40 20 l.OSOE-005 1.20 7 2.560E-008 3.00 14 6.520E-007 11.40 Name . FE43 Format . Percent Probability Percent Probability Percent Probability' Percent 1 1.200E-009 0.20 8 3.070E-008 6.80 15 7.810E-007 8.60 2 1.910E-009 o.oo 9 ,4.870E-008 9.00 16 1.240E-006 5.20 3 3.040E-009 0.40 10 7.740E-008 6.00 17 1.970E-006 4.60 4 4.820E-009 0.40 11 1. 230E-007 13.60 18 3.130E-006 2.00 5 7.660E-009 a.so 12 1.950E-007 10.00 19 4.970E-006 0.60 6 1.220E-008 5.80 13 3.lOOE-007 10.40 20 7.890E-006 1.20 7 1.930E-008 3.00 14 4.920E-007 11.40 1994/01/27 23:28:44 page 26 L-26

  • Name . FE44 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 9.980E-Oll 0.20 8 -----------

2.540E-009 6.80 15 6.480E-008 8.60 2 1.590E-010 o.oo 9 4.040E-009 9.00 16 l.030E-007 5.20 3 2.520E-010 0.40 10 6.410E-009 6.00 17 1. 630E-007 4.60 4 4.000E-010 0.40 11 1.020E-008 13.40 18 2.590E-007 2.00 5 6.350E-010 0.80 12 1.620E-008 10.20 19 4.120E-007 0.60 6 1.0lOE-009 5.80 13 2.570E-008 10.40 . 20 6.540E-007 1.20 7 1.600E-009 3.00 14 4.080E-008 11.40 Name .. FE45 Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 4.220E-010 0.20 8 1.610E-008 7.00 15 

                                                       -i----------

6.lSOE-007 7.60 2 7.lOOE-010 0.40 9 2.710E-008 9.80 16 1.030E-006 3.40 3 1.190E-009 0.40 10 4.560E-008 10.40 17 1. 740E-006 4.00 4 2.0lOE-009 1.00 11 7.670E-008 11.00 18 2.930E-006 1.20 5 3.3BOE-009 3.60 12 l.290E-007 13.00 19 4.920E-006 0.60 6 5.690E-009 3.80 lJ 2.170E-007 9.20 20 B.290E-006 0.20 7 9.570E-009 6.00 14 3.650E-007 7.20 Name : FE46 Format . Percent Probability Percent Probability Percent Probability Percent 1.570E-009 0.20 8 6.000E-008 7.00 15 ----------- 2.290E-006 7.60 2.640E-009 0.40 9 1.0lOE-007 9.80 16 3.8SOE-006 3.40 3 4.450E-009 0.40 10 1.700E-007 10.40 17 6.480E-006 4.00 4 7.490E-009 1.00 11 2.860E-007 11.00 18 l.090E-005 1.20 5 l.260E-008 3.60 12 4.810E-007 13.00 19 l.840E-005 0.60 6 2.120E-008 3.80 13 8.090E-007 9.20 20 3.090E-005 0.20 7 3.570E-008 6.00 14 l.360E-006 7.20 Name: FE47 Format . Percent Probability Percent Probability Percent Probability'Percent 1 ----------- 1.350E-009 0.20 8 ----------- S.160E-008 7.00 15 1.970E-006 7.60 2 2.270E-009 0.40 9 8.680E-008 9.80 16 3.310E-006 3.40 3 3.830E-009 0.40 10 1.460E-007 10.40 17 S.SBOE-006 4.00 4 6.440E-009 1.00 11 2.460E-007 11.00 18 9.JBOE-006 1.20 5 l.080E-008 3.60 12 4.140E-007 13.00 19 l.SBOE-005 0.60 6 1. 820E-008 3.80 13 6.960E-007 9.20 20 2.660E-005 0.20 7 3.070E-008 6.00 14 1.170E-006 7.20 1994/01/27 23:28:44 page 27 L-27

HISTOGRAM DETAIL REPORT Name : FE48 Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 2.600E-010 0.20 8 ----------- 9.910E-009 7.00 15 ------------ 3.780E-007 7.60 2 4.370E-010 0.40 9 1.670E-008 9.80 16 6.360E-007 3.40 3 7.350E-010 0.40 10 2.SOOE-008 10.40 17 l.070E-006 4.00 4 1.240E-009 1.00 11 4.720E-008 11.00 18 1.SOOE-006 1.20_ 5 2.0SOE-009 3.60 12 .7. 940E-008 13.00 19 3.030E-006 0.60 6 3.SOOE-009 3.80 13 1.340E-007 9.20 20 S.lOOE-006 0.20 7 5.890E-009 6.00 14 2.250E-007 7.20 Name . FE49 I Format . Percent Probability Percent Probability -Percent Probability Percent 1 2.lJOE-012 0.20 8 3.330E-010 11.40 15 ----------- 5.220E-008 4.00 2 4.JSOE-012 o.oo 9 6.860E-010 9.40 16 l.070E-:007 1.60 3 9.020E-012 0.60 10 1.410E-009 14.00 17 2.210E-007 1.20 4 l.860E-Oll 1.20

  • 11 2.910E-009 14.80 18 4.560E-007 1.00 5 3.820E-Oll 2.40 12 5.990E-009 11.60 19 9.380E-007 0.60 6 7.860E-Oll 4.00 13 l.230E-008 9.20 20 l.930E-006 0.20 7 1.620E-010 4.40 14 2.540E-008 8.20 Name . FE61 Format . Percent Pr'obabili ty Percent Probability Percent Probability Percent 1

2.230E-012 0.20 8 l.200E-010 9.00 15 ----------- 6.420E-009 5.6 2 3.940E-012 0.20 9 2.llOE-010 9.80 16 l.130E-008 1.20 3 6.970E_.012 0.40 10 3. 730E-.010 13.40 17 2.000E-008 1.40 4 1.230E-011 2.40 11 6.600E-010 10.20 18 3.540E-008 o.so 5 2.170E-Oll 2.80 12 l.160E-009 10.00 19 6.250E-008 0.40 6 3.840E-Oll 5.60 13 2.060E-009 11.20 20 l.lOOE-007 0.20 7 6.780E-Oll 9.60 14 3.630E-009 5.60 Name . FE610 Format . Percent Probability Percent Probability Percent Probability Fercent 1 7.610E-012* 0.20 8 1.560E-009 9.80 15 ----------- 3.200E-007 3.60 2 1. 630E-Oll 0.20 9 3.340E-009 13.20 16 6.SSOE-007 1.60 3 3.480E-Oll 0.80 10 7.140E-009 10.80 17 1.460E-006 1.00 4 7.450E-Oll 2.00 11 l.530E-008 13.80 18 3.130E-006 0.80 5 l.590E-010 2.00 12 3.270E-008 10.40 19 6.700E-006 0.20 6 3. 410E-010

  • 5.60 13 6.990E-008 9.00 20 1.430E-OOS 0.40 7 7.JOOE-010 a.so 14 l.500E-007 5.80 1994/01/27 23:28:44 page 28 L-28
  • Name .. FE62 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 7.130E-Oll 0.20 8 3.820E-009 9.00 15 2.050E-007 5.60 2 1.260E-010 0'.20 9 6.750E-009 9.80 16 3.620E-007 1.20 3* 2.220E-010 0.40 10 l.190E-008 13.40 17 6.400E-007 1.40 3.930E-010 2.40 11 2.llOE-008 10.20 18 l.130E-006 0.80 5 6.940E-010 2.80 12 3.720E-008 10.00 19 2.000E-006 0.40 6 1. 230E-009 5.60 13 6.570E-008 1L20 20 3.520E-006 0.20 7 2.170E-009 9.60 14 l.160E-007 5.60 Name .. FE63 Format .. Percent Probability Percent Probability Percent Probability Percent 1

5.3BOE-Oll 0.20 8 2.890E-009 9.00 15 1.550E-007 5.60 2 9.510E-Oll 0.20 9 5.lOOE-009 9.80 16 2.730E-007 1.20 3 l.680E-010 0.40 10 9.000E-009 13 .40 17 4.830E-007 1.40 4 2.970E-010 2.40 11 1. 590E-008 10.20 18 8.530E-007 0.80 5 5.240E-010 2.80 12 2.BlOE-008 10.00 19 1.SlOE-006 0.40 6 9.250E-010 5.60 13 4.960E-008 11.20 20 2.660E-006 0.20 7 1. 630E-009 9.60 14 8.760E-008 5.60 Name : FE64 Format . Percent Probability Percent Probability Percent Probability Percent 4.470E-012 0.20 8 2.390E-010 9.00 15 1.280E-008 5.60 7.890E-012 0.20 9 4.230E-010 9.80 16 2.2,oE-=oos 1.20 3 l.390E-Oll 0.40 10 7.470E-010 13.40 17 4.000E-008 1.40 4 2.460E-Oll 2.40 11 1. 320E-009 10.20 18 7.070E-008 o.ao 5 4. 340E-Oll 2.80 12 2.330E-009 10.00 19 1.250E-007 0.40 6 7.670E-Oll 5.60 13 4.llOE-009 11.20 20 2.210E-007 0.20. 7 1. 360E-010 9.60 14 7.270E-009 5.60 Name .. FE65 Format . Percent Probability Percent Probability Percent Probability'Percent 1 9.660E-012 0.20 8 ----------- 8.400E-010 5.80 15 7.300E-008 5.40 2 l.830E-Oll 0.20 9 1.590E-009 10.80 16 1.380E-007 2.00 3 3.460E-Oll 1.80 10 3.0lOE-009 13 .40 17 2.620E-007 1.40 4 6.550E-Oll 0.80 11 5.690E-009 14.00 18 4.950E-007 1.00 5 1.240E-010 2.00* 12 1.0BOE-008 12 .40 19 9.370E-007 o.oo 6 2.340E-010 3.60 13 2.040E-008 10.80 20 1.770E-006 0.40 7 4.440E-010 6.60 14 3.860E-008 7.40 1994/01/27 23:28:44 page 29 L-29

HISTOGRAM DETAIL REPORT Name . FE66 Format . Percent Probability Percent Probability Percent Probability Percent 1 3 .. 600E-Oll 0.20 8 3.130E-009 5.80 15 2.720E-007 5.40 2 6.SlOE-011 0.20 9 5.920E-009 10.80 16 5.150E-007 2.00 3 l.290E-010 1.80 *10 l.120E-008 13.40 17 9.750E-007 1.40 4 2.440E-010 0.80 11 2.120E-008 14.00 18 l.840E-006 1.00 5 4.620E-010 2.00 12 4.0lOE-008 12.40 19 3.490E-006 o.oo 6 8.740E-010 3.60 13 7.600E-008 10.80 20 6.610E-006 0.40 7 1.650E-009 6.60 14 l.440E-007 7.40 Name . FE67 Format . Percent Probability Percent Probability Percent Probability Percent 1 3.090E-Oll 0.20 8 2.690E-009 5.80 15 2.340E-007 5.40 2 5.860E-Oll 0.20 9 5.090E-009 10.80 16 4.430E-007 2.00 3 1.llOE-010 1.80 10 9.640E-009 13.40 17 8.380E-007 1.40 4 2.lOOE-010 0.80 11 1. 820E-008 14.00 18 l.590E-006 1.00 5 3.970E-010 2.00 12 3.450E-008 12.40 19 3.000E-006 o.oo 6 7.510E-010 3.60 13 6.540E-008 10.80 20 5.680E-006 0.40 7 1.420E-009 6.60 14 l.240E-007 7.40 Name . FE68 Format . Percent Probability Percent Probability Percent Probability Percent 1 5.940E-012 0.20 8 5.170E-010 5.80 15 4.490E-008 5. 2 l.120E-011 0.20 9 9.780E-010 10.80 16 8.510E-008 2.0 3 2.130E-Oll 1.80 10 l.850E-009 13.40 17 l.610E-007 1.40 4 4.030E-Oll a.so 11 3.SOOE-009 14.00 18 3.050E-007 1.00 5 7.620E-Oll 2.00 12 6.630E-009 12.40 19 5.770E-007 o.oo 6 1.440E-010 3.60 13 1. 250E-008 10.80 20 1.090E-006 0.40 7 2.730E-010 6.60 14 2.370E-008 7.40 Name . FE69 Format . Percent Probability Percent Probability Percent Probability'Percent 1 1.240E-013 0.20 8 2.540E-Oll 9.80 15 5.200E-009 3.60 2 .2. 650E-013 0.20 9 5.430E-Oll 13.20 16 1.llOE-008 1.60 3 5.660E-013 0.00 10 l.160E-010 10.80 17 2.380E-008 1.00 4 l.210E-012 2.00 11 2.480E-010 13.80 18 5.090E-008 0.80 5 2.590E-012 2.00 12 5.JlOE-010 10.40 19 1. 090E-007 0.20 6 5.550E-012 5.60 13 1. l40E-009 9.00 20 2.330E-007 0.40 7 1.190E-Oll a.so 14 2.430E-009 5.80 1994/01/27 23:28:44 page 30 L-30

,.Name . FE71 HISTOGRAM DETAIL REPORT Format : Percent Probability.,.._ Percent Probability Percent Probability Percent

1. S.600E-Oll 0.20 8 l.760E-009
                                                      -------6.20 15 5.560E-008 7.40 2   9.160E-Oll            0.20      9   2.890E-009     10.60     16     9.090E-008        5.20 3   l.500E-010            0.20     10   4.720E-009     10.20     17     1.490E-007        3.00 4   2.450E-010            1.40     11   7.730E-009     10.80     18     2.440E-007        0.40 5   4.020E-010            2.40     12   1. 270E-008    10.00     19     3.990E-007        0.80 6   6.580E-010            4.00     13   2.070E-008     10.00     20     6.530E-007        0.60 7   1.080E-009            6.20     14   3.390E-008     10.20 Name   . FE710                                                      Format : Percent Probability Percent                 Probability Percent           Probability Percent

_ _ _ CD _ _ _ 

    ----~------      -------            -----------                   ------------

1 1. 350E-010 0.20 8 2.200E-008 7.20 15 3.570E-006 5.60 2 2.800E-010 0.20 9 4.550E-008 12.20 16 7.390E-006 2.00 3 5.800E-010 0.80 10 9.420E-008 13.20 17 1. 530E-005 1.60 4 1.200E-009 1. 20 11 1.950E-007 13.00 18 3.160E-005 0.80 5 2.480E-009 a.so 12 4.030E-007 12.00 19 6.550E-005 0.40 6 5.140E-009 4.20 13 8.340E-007 9.40 20 1. 360E-004 0.40 7 1.060E-008 7.40 14 . 1. 730E-006 7.40 Name . FE72 Format : Percent - Probability Percent Probability Percent Probability Percent .,..

1. 790E-009 0.20 8 5.630E-008 6.20 15
1. 770E-006 7.40 2.930E-009 0.20 9 . 9. 220E-008 10.60 16 2.900E-006 5.20 3 4.790E-009 0.20 10 l.SlOE-007 10.20 17 4.760E-006 3.00 4 7.840E-009 1.40 11 2.470E-007 10.80 18 7.780E-006 0.40 5 1.280E-008 2.40 12 4.040E-007 10.00 19 1. 270E-005 0.80 6 2.lOOE-008 4.00 13 6.620E-007 10.00 20 2.090E-005 0.60 7 3.440E-008 6.20 14 1.080E-006 10.20 Name . FE73 Format : Percent Probability . Percent* Probability Percent Probability Percent

_ _ _ a. _ _ _ 1 l.350E-009 0.20 8 4.250E-008 6.20 15 l.340E-006 7.40 2 2.210E-009 0.20 9 6.960E-008 10.60 16 2.190E-006 5.20 3 3.620E~009 0.20 10 l.140E-007 10.20 17 3.590E-006 3.00 4 5.920E-009 1.40 11 1.870E-007 10.80 18 5.880E-006 0.40 5 9.690E-009 2.40 12 3.050E-007 10.00 19 9.620E-006 0.80 6 l.590E-008 4.00 13 5.000E-007 10.00 20 l.580E-005 0.60 7 2.600E-008 6.20 14 8.180E-007 10.20 1994/01/27 23:28:44 page 31 L-31

Name . FE74 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 1.120E-Ol0 0.20 8 3.530E-009 6.20 15 1.llOE-007 7.40 2 1.830E-010 0.20 9 5.770E-009 10.60 16 1. 820E-007 5.20 3 3.000E-010 0.20 10 9.450E-009 10.20 17 2.980E-007 3.00 4 4.910E-010 1.40 11 1.550E-008 10.80 18 4.870E-007 0.40 5 8.040E-010 .2. 40 12 2.530E-008 10.00 19 7.980E-007 0.80 6 1. 320E-009 4.00 13 4.140E-008 10.00 20 1~310E-006 0.60 7 2.150E-009 6.20 14 6.780E-OOB 10.20 Name . FE75 Format . Percent Probability Percent Probability Percent Probability Percent 1 8.480E-010 0.40 8 2.640E-008 8.00 15 8.220E-007 5.80 2 1.390E-009 0.40 9 4.310E-008 10.40 16 1. 340E-006 6.00 j 2.270E-009 1.80 10 7.050E-008 8.40 17 2.190E-006 2.00 4 3.700E-009 3.00 11 1.150E-007. 10.60 18 3.590E-006 1.00 5 6.050E-009 4.60 12 1.880E-007 10.60 19 5.860E-006 0.60 6 9.890E-009 5.20 13 3.0SOE-007 7.60 20 9.580E-006 0.60 7 1.620E-008 6.20 14 5.030E-007 6.80 Name . FE76 Format . Percent 1 2 3 4

  • Probability Percent 3.160E-009 5.170E-009 8,440E-009
1. 380E-008 0.40 0.40 1.80 3.00 8

9 10 11 Probability Percent 9.840E-008 1.610E-007 2.630E-007 4.290E-007 8.00 10.40 8.40 10.60 15 16 17_ 18 Probability 3.060E-006 5.000E-006 8.180E-006 1.340E-005 

                                                                           ~=~=-

5. 6.0 2.00 1.00 5 2.250E-008 4.60 12 7.020E-007* 10.60 19 2.180E-005 0.60 6 3.680E-008 5.20 13 1 *.150E-006 7.60 20 3.570E-:005 0.60 7 6.020E-OOB 6.20 14 l.870E-006 6.80 Name . FE77 Format .. Percent Probability Percent

  • Probability Percent Probability 1Percent 1

2.720E-009 0.40 8 8.460E-008 8.00 15 2.630E-006 5.80 2 4.440E-009 0.40 9 1. 380E-007 10.40 16 4.300E-006 6.00 3 7.260E-009 1.80 10 2.260E-007 8.40 17 7.0JOE-006 2.00 4 1.190E-008. 3.00 11 3.690E-007 10.60 18 1.150E-005 1.00 5 1.940E-008 4.60 12 6. 040E-007

  • 10.60 19 1.BSOE-005 0.60 6 3.170E-008 5.20 13 9.860E-007 7.60 20 3.070E-005 0.60 7 5.lSOE-008 6.20 14 1.610E-006 . 6.80 1994/01/27 23:28:44 page 32 L-32
  • Name .. FE78 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

5.220E-010 0.40 8 1.620E-OOB 8.00 15 

                                                          ------~----

5.060E-007 5.80 2 8.530E-010 0.40 9 2.660E-OOB 10.40 16 8.260E-007 6.00 3 1. 390:E-009 1.80 10 4.340E-OOB 8.40 17 1.350E-006 2.00 4 2.280E-009 3.00 11 7.090E-008 10.60 18 2.210E-006 1.00 5 3.720E-009 4.60 12 1.160E-007 10.60 19 3.610E-006 0.60 6 . 6. OBOE-009 5.20 13 l.890E-007 7.60 20 5.890E-006 .0.60 7 9.940E-009 6.20 14 3.090E-007 6.80 Name . FE79 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.200E-012 0.20 8 3.5BOE-010 7.20 15 5.SlOE-008 5.60 2 4.560E-012 0.20 9 7.400E-010 12.20 16 1. 200E-007 2.00 3 9.430E-Ol2 a.so 10 1. 530E-009 13.20 17 2.490E-007 1.60 4 1.950E-Oll 1.20 11 3.170E-009 13.00 18 5.150E-007 a.so 5 4.040E-Oll a.so 12 6.560E-009 12. 00. 19 1.060E-006 0.40 6 8.350E-Oll 4.20 13 1.360E-OOB 9.40 20 2.200E-006 0.40 7 1.730E-010 7~40 14 2.SlOE-008 7.40 Name . FEBl Format . Percent Probability Percent Probability Percent Probability Percent 2.270E-Ol2 0.20 8 9.090E-Oll 7.40 15 3.630E-009 6.60 2 3.850E-012 0.60 9 1.540E-010 13.20 16 6.150E-009 2.20 3 6.520E-012 0.60 10 2.610E-010 9.80 17 1. 040E-008 1.20 4 1. lOOE-011 0.60 11 4.420E-010 12.60 18 1.760E-008 0.20 5 1.870E-Oll 3.20 12 7.480E-010 11.so 19 2.990E-008 0.60 6 3.170E-Oll 4.80 13 1.270E-009 9.60 20 5.060E-008 0.60 7 5. 370E-Oll .6.40 14 2.140E-009 7.80 Name . FE810 Format . Percent Probability Percent Probability Percent Probability 'Percent 1 4.040E-Oll

  • 1.20 8 2.lSOE-009 9.40 15 l.lSOE-007 3.00 2 7.140E-Oll 1.20 9 3.850E-009 8.00 16 2.0SOE-007 3.00 3 1. 260E-010 3.00 10 6.BlOE-009 11.80 17 3.670E-007 3.00 4 2.230E-010 3.40 11 1. 200E-008 9.20 18 6.500E-007 2.20 5 3.940E-010 '4.60 12 2.130E-008 8.40 19 1.150E-006 0.60 6 6.970E-010 7.60 13 3.760E-008 7.00 20 2.030E-006 0.40 7 1.230E-009 6.20 14 6.650E-008 6.80 1994/01/27 23:28:44 page 33 L-33

Name . FE82 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 7.260E-Oll 0.20 8 2.900E-009 7.40 15 1.160E-007 6.60 2 1.230E-010 0.60 9 4.920E-009 13.20 16 1.970E-007 2.20 3 2.080E-010 0.60 10 8.330E-009 9.80 17 3.330E-007 1.20 4 3.530E-Ol0 0.60 11 1.410E-008 12.60 18 5.640E-007 0.20 5 5.9BOE-010 3.20 12 2.390E-OOB 11.80 19 9. 550E-007

  • 0.60 6 1.0lOE-009 4.80 13 4.0SOE-008 9.60 20 1.620E-006 0.60 7 1.710E-009 6.40 14 6.850E-008 7.80 Name . FE83 0

Format .. Percent Probability Pe.rcent Probability Percent Probability Percent 1 5.4BOE-Oll 0.20 8 2.190E-009 

                                          ------- 7.40 15 8.760E-008            6.60 2  9.280E-Oll      0.60    9   3.710E-009        13.20  16   l.480E-007            2.20 3  l.570E-010      0.60   10   6.290E-009          9.80 17   2.510E-007            1.20 4  2.660E-010      0.60   11   1.060E-OOB        12.60  18   4.260E-007            0.20 5  4.510E-010      3.20   12   1. 800E-008       11.80  19   7.210E-007            0.60 6  7.640E-Ol0      4.80   13   3.050E-008          9.60 20   1.220E-006            0.60 7  1.290E-009      6.40   14   5.170E-008          7.80
     .                                                             .. Percent
                                                                           ~~==~*

Name FE84. Format Probability Percent Probability Percent Probability 1 4.550E-012 0.20 8 1.820E-010 

                                          ------- 7.40 15
  • 7.260E-009 6.6 2 7.700E-012 0.60 9 3.080E-010 13.20 16 l.230E-008 2.20 3 1.JOOE-011 0.60 10 5.210E-010 9.80 17 2.0BOE-008 1.20 4 2.210E-Oll 0.60 11 8.830E-010 12.60 18 3.SJOE-008 0.20 5 3.740E-Oll 3.20 12 1.490E-009 11.80 19 5.980E-008 0.60 6 6.330E-Oll ,4.80 13 2.530E-009 9.60 20 l.OlOE-007 0.60 7 l.070E-010 6.40 14 4.290E-009 7.80 Name . FESS Format . Percent Probability Percent _..,. _____

Probability Percent Probability'Percent 1 3.990E-Oll 1.00

  • 8
1. 460E-009 9.40 15 5.310E-008
                                                                           -------4.00 2  6.680E-Oll      0.80     9  2.440E-009         10.40 16   8.880E-008            3.00 3  l.120E-010      0.80   10   4.070E-Q09         11.80 17. 1.490E-007            0.80 4  1.870E-Ol0      3.40   11   6.810E-009         11.60 18   2.480E-007            1.00 5  3.120E-010      5.20   12   l.140E-008          8.60 19   4.150E-007            0.40 6  5.210E-Ol0      7.60   13   1.900E-008          6.20 20   6.940E-007            1.00 7  8.710E-010      6.60   14   3.lBOE-008          6.40 1994/01/27                   23:28:44                          page         34 L-34

HISTOGRAM DETAIL REPORT Name " FE86 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.490E-010 1.00 8 5.4JOE-009 9.40 15 1.980E-007 4.00 2 2.490E-010 0.80 9 9.0BOE-009 10.40 16 3.310E-007 3.00 3 4.160E-010 0.80 10 1. 520E-008 11.80 17 5.530E-007 0.80 4 6.950E-010 3.40 11 2.540E-008 11.60 18 9.250E-007 1.00 5 l.160E-009 5.20 12 4.240E-008 8.60 19 l.SSOE-006 0.40 6 1.940E-009 7.60 13 7.090E-008 6.20 20 2.590E-006 1.00 7 3.250E-009 6.60 14 l.lBOE-007 6.40 Name . FE87 Format : . Percent Probability Percent P~obability Percent .,. Probability Percent 1 l.280E-010 1.00 8 4.670E-009 9.40 15

1. 700E-007 4.00 2 2.140E-010 0.80 9 7.SlOE-009 10.40 16 2.850E-007 3.00 3 3.580E-010 0.80 10 1. JOOE-008 11.80 17 4.760E.,;.007 0.80 4 5.980E-010 3.40 11 2.lSOE-008 11.60 18 7.960E-007 1.00 5 l.OOOE-009 5.20 12 3.650E-008 8.60 19 1. JJOE-00.6 0.40 6 l.670E-009 7.60 13 6.lOOE-008 6.20 20 2. 220E-00.6 1.00 7 2.790E-009 6.60 14 1. 020E-007 6.40 Name . FESS Format .. Percent Probability Percent Probability Percent Probability Percent 2.460E-Oll 1.00 8 8.970E-010 9.40 15 3.270E-008
                                                                       ------GO 4.00 2  4.llOE-011      0.80  9 l.500E-009       10.40    16   5.470E-008         3.00 3  6.870E-Oll. 0.80 10 2.510E-009       11.80    17   9.140E-008         o.so 4  1. lSOE-010     3.40 11 4;190E-009       11.60    18   l.530E-007         1.00 5  1. 920E-010     5.20 12
  • 7.000E-009 8.60 19 2.SSOE-007 0.40 6 3.210E-010 7.60 13 l.170E-008 6.20 20 4.270E-007 1.00 7 5.360E-010 6.60 14 l.960E-008 6.40 Name . FE89 Format : Percent I

Probability Percent Probability Percent Probability'Percent 1 6.560E-013 1.20 8 3.540E-Oll 9.40 15 1.910E-009 3.00 2 l.160E-012 1.20 9 6.260E-Oll s.oo 16 3.380E-009 3.00 3 2.0SOE-012 3.00 10 l.llOE-010 11.80 17 5.980E-009 3.00 4 3.630E-012 3.40 11 1.960E-010 9.20 18 l.060E-008 2.20 5 6.410E-012 4.60 12 3.460E-010 8.40 19 l.870E-008 0.60 6 l.lJOE-011 7.60 13 6.120E-010 7.00 20 3.JOOE-008 0.40 7 2,. OOOE-011 6.20 14 l.OSOE-009 6.80 1994/01/27 23:28:44 page 35 L-35

HISTOGRAM DETAIL REPORT Name .. FE91 Format . Percent Probability Percent Probability Percent Probability Percent 1

1. 310E-012 0.40 8 5.960E-Oll a.oo 15 2.710E-009 5.00 2 2.270E-012 0.60 9 1. 030E-010 10.20 16 4.670E-009 3.00 3 3.910E-012 1.80 10 l.770E-010 11.20 17 8.050E-009 1.80 4 6.740E-012 0.80 11 3.060E-010 13."20 18 l.390E-008 a.so 5 l.160E-Oll 3.00 12 5.280E-010 10.60 19 2.390E-008 0.40 6 2.000E-011 4.80 13 9.lOOE-010 9.20 20 4.130E-008 0.20 7 3.460E-Oll a.so 14 1. 570E-009 6.20 Name . FE910 Format . Percent Probability Percent Probability Percent Probability Percent 1

7.330E-012 0.60 8 9.SlOE-010 9.20 15

1. 310E-007 4.00 2 1.470E-Oll 0.20 9 l.970E-009 11.80 16 2.640E-007 2.00 3 2.970E-Oll 1.20 10 3.970E-009 11.00 17 5.320E-007 1.40 4 5.980E-Oll 3.20 11 8.000E-009 12.40 18 l.070E-006 1.20 5 l.200E-010 4.20 12 1. 610E-008 11.80 19 2.160E-006 0.40 6 2.420E-010 5.80 13 3.240E-008 5.20 20 4.340E-006 0.40 7 4.870E-010 7.80 14 6.520E-008 6.20 Name . FE92 Format . Percent Probability Percent
                    .       Probability Percent        Probability Percen 1

4.200E-Oll 0.40 8 1.900E-009 a.oo 15 8.640E-008 5.0 2 7.240E-Oll 0.60 9 3.280E-009 10.20 16 1. 490E-007 3.00 3 1.250E-010 1.80 10 5.660E-009 11.20 17 2.570E-007 1.ao 4 2.lSOE-010 0.80 11 9.770E-009 ,,n.20 18 4.430E-007 a.so 5 3.710E-010 3.00 12 1.680E-008 10.60 19. 7.6SOE-007 0.40 6 6.400E-010 4.80 13 2.910E-008 9.20 20 1. 320E-006 0.20 7 l.lOOE-009 8.80 1~ 5.0lOE-008 6.20 Name I 

       . FE93                                         Format  . Percent Probability Percent        Probability Percent        Probability'Percent 1

3.170E-Oll 0.40 8 1.440E-009 8.00 15 6.530E-008 5.00 2 5.460E-Oll 0.60 9 2.480E-009 10.20 16 1.130E-007 3.00 3 9.420E-Oll 1.80 10 4.280E-009 11.20 17 1. 940E-007 1.80 4 1.620E-010 0.80 11 7.370E-009 13.20 18 3.3SOE-007 o.ao 5 2.SOOE-010 3.00 12 1. 270E-OOB 10.60 19 S.770E-007 0.40 6 4.830E-010 4.80 13 2.190E-OOB 9.20 20 9.960E-007 0.20 7 8.330E-010 a.so 14 3.780E-OOB 6.20 1994/01/27 23:28:44 page 36 L-36

HISTOGRAM DETAIL REPORT Name . FE94 *Format .. Percent Probability Pe:tcent Probability Percent PfObability Percent 1 2.630E-012 0.40 8 l.190E-010 8.00 15 5.410E-009 5.00 2 4.530E-012 0.60 9 2.060E-010 10.20 16 9.330E-009 3.00 3 7.SlOE-012 1.ao 10 3.SSOE-010 11.20 17 1.610E-008 1.80 4 1. 350E-Oll o.ao 11 6.120E-010 13.20 18 2.780E-008 0.80 5 2.320E-Oll 3.00 12 l.OSOE-009 10.60 19 4.790E-008 0.40 6 4.0lOE-011 4.80 13 l.820E-009 9.20 20 8.260E-008 0.20 7 6.910E-Oll a.so 14 3.140E-009 6.20 Name . FE95 Format . Percent Probability Percent _ _ _ _ _ _ _ ca _ _ _ Probability Percent Probability Percent 1 6.590E-012 1.00 a 4.060E-010 10.00 15 2.500E-008 4.80 2 1.190E-Oll 0.40 9 7.320E-010 10.40 16 4.SlOE-008 3.20 3 2.140E-Oll 0.40 10 1.320E-009 10.80 17 B.130E-008 4.00 4 3.850E-Oll 0.80 11 2.380E-009 11.40 18 1. 460E-007 1.40 5 6.950E-Oll 2.20 12 4.280E-009 10.60 19 2.640E-007 0.40 6 1.250E-010 4.40 13 7.710E-009 il.60 20 4.750E-007 0.60 7 2.250E-010 4.00 14 l.390E-008 7.60 Name . FE96 Format . Percent Probability Percent Probability Percent Probability Percent 2.460E-Oll 1.00 8 l.SlOE-009 10.00 15 9.330E-008 4.80 2 4.430E-Oll 0.40 9 2.730E-009 10.40 16 l.680E-007 3.20 3 7.970E-Oll 0.40 10 4.910E-009 10.80 17 3.030E-007 4.00 4 *1. 440E-010 0.80 11 8.850E-009 11.40 18 5.460E-007 1.40 5 2.590E-010 2.20 12 l.600E-008 10.60 19 9.830E-007 0.40 6 4.660E-010 4.40 13 2.870E-008 11.60 20 1.770E-006 .0.60 7 8. 400E-010 4.00 14 5.180E-008 7.60 Name . FE97 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.llOE-011 1.00 8 l.300E-009 10.00 15 8.020E-008 4.80 2 3.810E-Oll 0.40 9 2.350E-009 10.40 16 l.450E-007 3.20 3 6.860E-Oll 0.40 10 4.230E-009 10.80 17 2.610E-007 4.00 4 1.240E-010 0.80 11 7.620E-009 11.40 18 4.690E-007 1.40 5 2.230E-010 2.20 12. 1. 370E-008 10.60 19 8.460E-007 0.40 6 4.0lOE-010 4.40 13 2.470E-008 11.60 20 1.520E-006 0.60 7 7.230E-010 4.00 14 4.450E-008 7.60 1994/01/27 23:28:44 page 37 L-37

HISTOGRAM DETAIL REPORT Name . FE98 Format . Percent Probability Percent Probability Percent Probability Percent 1 4.060E-012 1 1 .00 8 2.500E-010 10.00 15 1.540E-008 4.80 2 7.310E-012 0.40 9 4.500E-010 10.40 16 2.780E-008 3.20 3 1.320E-Oll 0.40 10 8.llOE-010 10.80 17 5.000E-008 4.00 4 2.370E-011 0.80 11 1.460E-009 11.40 18 9.0lOE-008 1.40 5 4.270E-011 2.20 12 2.630E-009 i0.60 19 1.620E-007 0.40 6 7.700E-011 4.40 13 4.750E-009 11.60 20 2.930E-007 0.60 7 1.390E-010 4.00 14 8.550E-009 7.60 Name . FE99 Format . Percent Probability .Percent Probability Percent. Probability Percent _ _ _ _ _ _ C.00 _ _ _ _ 1 1 .* 190E-013 0.60 s9 1.590E-011 9.20 15 2.140E-009 4.00 2 2.400E-013 0.20 3.210E-Oll 11.80 16 4.300E-009 2.00 3 4.830E-013 1.20 10 6.460E-011 11.00 17 8.650E-009 1.40 4 9. 720E-013 3.20 11 l.300E-010 12.40 18 1. 740E-008 1.20 5 1.960E-012 4.20 12 2.620E-010 11.80 19 3.510E-008 0.40 6 3.940E-012 5.80 13 5.270E-010 5.20 20 7.060E-008 0.40 7 7.920E-012 7.80 14 l.060E-009 6.20 Name .. FMll Format . Percent Probability Percent Probability Percent Probability Percen 1 1.390E-Oll 0.20 8 4.150E-010 8.40 15 1.240E-008 5.20 2

  • 2. 260E-Oll 1.20 9 6.740E-010 11.80 16 2.0lOE-008 3.20 3 3.670E-Oll 1.80 10 l.090E-009 8.60 17 3.270E-008 2.00 4 5.950E-Oll 2.60 11 1. 780E-009 12;00 18 5.310E-008 2.20 5 9.670E-Oll 5.00 12 2.890E-009 8.60 19 8.620E-008 o.oo
  • 6 1.570E-010 6.20 13 4.690E-009 6.20 20 1.400E-007 0.40 7 2.550E-010 7.60 14 7.620E-009 6.80 Name . FMllO Format . Percent Probability Percent Probability Percent Probability'Percent 1

6.000E-011 0.20 8 6.770E-009 10.40 15 7.640E-007 4.20 2 1.180E-010 0.60 9 1. 330E-008 11.40 16 1.500E-006 2.60 3 2.320E-010 2.80 10 2.610E-008 9.60 17 2.950E-006 1.40 4 4.550E-010 2.20 11 5.130E-008 12.20 18 5.790E-006 1.00 5 8.930E-010 4.80 12 l.OlOE-007 8.60 19 1.140E-005 0.20 6 1. 760E-009 6.20 13 1.980E-007 8.00 20 2*.240E-005 0.60. 7 3.450E-009 10.80 14 3.890E-007 2.20 1994/01/27 23:28:44 page 38 L-38

  • Name: FM12 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format: Percent Probability Percent 1 4.440E-010 0.20 8 l.320E-008
                                           --~---~

8.40 15 3.950E-007 5.20 2 7.210E-,.010 1.20 9 2.lSOE-008 11.80 16 6.420E-007 3.20 3 1.170E-009 1.80 10 3.SOOE-008 8.60 17 1.040E-006 2.00 4 1.900E-009 2.60 11 5.680E-008 12.00 18 1. 700E-006 2.20 5 3.090E-009 5.00 12 9.220E-008 8.60 19 2.750E-006 o.oo 6 5.020E-009 6.20 13 1.SOOE-007 6.20 20 4.470E-006 0.40 7 8.lSOE-009 7.60 14 2.430E-007 6.80 Name: FM13 Format: Percent Probability Percent Probability Percent Probability Percent 1 3.350E-010 0.20 8 l.OOOE-008 8.40 15 2.990E-007 5.20 2 5.440E-010 1.20 9 l.620E-008 11.80 16 4.850E-007 3.20 3 8.840E-010 1.80 10 2.640E-008 8.60 17 7.880E-007 2.00 4 1. 440E-009 2.60 11 4.290E..;.oo8 12.00 18 1.280E-006 2.20 5 2.330E-009 5.00 12 6.960E-008 8.60 19 2.080E-006 0.00 6 3.790E-009 6.20 13 l.130E-007 6.20 20 3.380E-006 0.40 7 6.lSOE-009 7.60 14 1. 840E-007 6.80 Name: FM131 Format: Percent Probability Percent Probability Percent Probability Percent 5.500E-013 0.60 8 2.lOOE-Oll 10.60 15 8.0lOE-010 2.40 2 9.250E-013 1.20 9 3.530E-Oll 13.20 16 1.350E-009 1.00

  • I I

3 1.560E-012 2.40 10 5.940E-Oll 11.00 17 2.270E-009 1.20 4 2.620E-012 4.20 11 9.990E-Oll 7.40 18 3.810E-009 0.80 5 4.410E-012 4.60 12 . 1. 680E-010 8.20 19 6.420E-009 0.40 6 7.410E-012 6.00 13 2.830E-010 8.00 20 1. 080E-008 0.20 7 1. 250E-Oll 10.80 14 4.760E-010 5.80 Name: FM1310 Format: Percent Probability Percent Probability Percent Probability'Percent 1 8.700E-013 0.20 8 1.190E-010 9.00 15 l.640E-008 5.20 2 1. 760E-012 0.20 9 2.410E-010 ll.40 16 3.310E-008 4.80 3 3.550E-012 0.40 10 4.870E-010 13.00 17 6.690E-008 2.20 4 7.170E-012 1.80 11 9.850E-010 10.00 18 1.350E-007 0.40 5 1. 450E-Oll 3.00 12 1. 990E-009 10.00 19 2.730E-007 0.60 6 2.930E-Oll 3.80 13 4.020E-009 9.00 20 5.520E-007 0.60 7 5.910E-Oll 7.60 14 8.120E-009 6.80 1994/01/27 23:28:44 page 39 L-39

HISTOGRAM DETAIL REPORT Name . FM132 Format . Percent Probability Percent Probability Percent Probability Percent l

l. 760E-Oll 0.60 8 6.700E-010 10.60 15 2.560E-008 2.40 2 2.960E-Oll 1.20 9 l.130E-009 13.20 16 4.300E-008 1.00 3 4.970E-Oll 2.40 10 l.900E-009 11.00 17 7.240E-008 1.20 4 8.360E-Oll 4.20 11 3.190E-009 7.40 18 1. 220E-007 a.so 5 1. 410E-010 4.60 12 5.370E-009 8.20 19 2.050E-007 0.40 6 2.370E-010 6.00 13 9.040E-009 8.00 20 3.450E-007 0.20 7 3 *. 980E-010 10.80 14 1.520E-008 5.80 Name . FM133 Format . Percent Probability Percent Probability Percent Probability Percent 1

l.330E-Oll 0.60 8 5.060E-010 10.60 15

1. 930E-008 2.40 2 2.230E-Oll 1.20 9 8.510E-010 13.20 16 3.250E-008 1.00 3 3.750E-Oll 2.40 10 1. 430E-009 11.00 17 5.460E-008 1.20 4 6.310E-Oll 4.20 11 2.410E-009 7.40 18 9.190E-008 0.80 5 l.060E-010 4.60 12 4.050E-009 8.20 19 l.550E-007 0.40 6 l.790E-010 6.00 13 6.820E-009 8.00 20 2.600E-007 0.20 7 3.0lOE-010 10.80 14 l.150E-008 5.80 Name . FM134 Format . Percent Probability Percent Probability Percent Probability Percen 1 -----------

l.lOOE-012 0.60 8 4.200E-Oll 10.60 15 l.600E-009 2.4 2 l.850E-012 1.20 9 7.060E-Oll 13.20 16 2.690E-009 1.00 3 3.llOE-012 2.40 10 l.190E-010 11.00 17 4.530E-009 1.20 4 5.240E-012 4.20 11 2.000E-010 7.40 18 7.620E-009 0.00 5 8.SlOE-012 4.60 12 3.360E-Ol0 s.20 19 l.280E-008 0.40 6 l.480E-Oll 6.00 13 5.660E-010 8.00 20 2.160E-008 0.20 7 2.490E-Oll 10.80 14 9.510E-010 5.80 Name .. FM135 Format .. Percent Probability Percent . Probability Percent Probability'Percent 1 l.170E-012 0.20 8 7.600E-Oll 6.20 15 4.940E-009 6.60 2 2.130E.;..012 0.40 9 l.380E-010 10.00 16 8.960E-009 4.40 3 3.860E-012 1.20 10 2.500E-010 12.60 17 l.630E-008 1.80 4 7.000E-012 0.60 11 4.550E-010 12.20 18 2.950E-008 1.00 5 l.270E-Oll 1.00 12 8.250E-010 12.00 19 5.360E-008 1.00 6 2.310E-Oll 4.80 13 l.500E-009 7.40 20 9.720E-008 0.20 7 4.190E-Oll 5.80 14 2.720E-009 9.80 1994/01/27 23:28:44 page 40 L-40

  • Name : FM136 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format : Percent Probability Percent 1 4.360E-012 0.20 8 2.830E-010 6.20 15 l.840E-008 6.60 2 7.920E-012 0.40 9 5.140E-010 10.00 16 3.340E-008 4.40 3 1. 440E-Oll 1.20 10 9.330E-010 12. 60 17 6.060E-008 1.80 4 2. 610E-Oll 0.60 11 l.690E-009 12.20 18 l.lOOE-007 1.00 5 4. 740E-Oll 1.80 12 3.080E-009 12. 00 19 2.000E-007 1.00 6 8.600E-Oll 4.80 13 5.580E-009 7.40 20 3.620E-007 0.20 7 1. 560E-010 5.80 14 l.OlOE-008 9.80 Name : FM137 Format . Percent Probability Percent Probability Percent Probability Percent 1

3.750E-012 0.20 8 2.440E-010 6.20 15 l.580E-008 6.60 2 6.810E-Ol2 0.40 9 4.420E-010 10.00 16 2,870E-008 4.40 3 1. 240E-Oll 1. 20 10 8.030E-010 12.60 17 5.210E-008 1.80 4 2.240E-Oll 0.60 11 1. 460E-009 12. 20 18 9.460E-008 1.00 5 4.070E-Oll 1.80 12 2.640E-009 12,00 19 l.720E-007 LOO 6 7,390E-Oll 4.80 13 4.800E-009 7.40 20 3.120E-007 . 0.20 7 1. 340E-010 5.80 14 8.710E-009 9.80 Name .. FM138 For!!lat : . Percent Probability Percent Probability Percent Probability Percent 7.210E-013 0.20 8 4.680E-Oll 6.20 15 3.040E-009 6.60

1. 310E-012 0.40 9 8.490E-Oll 10.00 16 5.510E=009 4.40 3 2,370E-012 1.20 10 1. 540E-010 12.60 17 l.OOOE-008 1.80 4 4.JlOE-012 0.60 11 2.800E-010 12.20 18 1. 820E-OOB 1.00 5 7. 820E-012 1.80 12 5.080E-010 12. 00 19 3.300E-008 1.00 6 1. 420E-Oll 4.80 13 9.220E-010 7.40 20 5.980E-008 0.20 7 2,580E-Oll 5.80 14 1. 670E-009 9,80 Name . FM139 Format . Percent Probability Percent Probability Percent Probability'Percent 1
1. 410E-014 0.20 8
1. 940E-012 9.00 15 2.670E=010
                                                                        -----.,..-=-

5.20 2 2, 860E-014 0.20 9 3.920E-012 11.40 16 5.390E-010 4,80 3 5, 770E-014 0.40 10 7.930E-012 13.00 17 1. 090E-009 2.20 4 l.170E-Ol3 *1.0c 11 1. 600E-Oll 10.00 18 2.200E-009 0.40 5 2.360E-013 3.00 12 3.230E-Oll 10,00 19 '4. 440E=009 0,60 6 4.760E-013 3.80 13 6.530E-Oll 9,00 20 8,970E-009 0,60 7 9,610E-013 7.60 14 1. 320E-010 6.80 1994/01/27 23:28:44 page 41

  • L-41

HISTOGRAM DETAIL REPORT Name : FM14 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.780E-Oll 0.20 8 8.290E-010 8.40 15 2.480E-008 5.20 2 4.SlOE-011 1.20 9 l.350E-009 11.80 16 4.020E-008 3.20 3 7.330E-Oll 1.80 10 2.190E-009 8.60 17 6.530E-008 2.00 4 1.190E-010 2.60 11 3.550E-009 12.00 18 l.060E-007 2.20 5 1.930E-010 5.00 12 5.770E-009 8.60 19 l.720E-007 0.00 ,5 3.140E-010 6.20 13 9.380E-009 6.20 20 . 2.SOOE-007 0.40 7 5.lOOE-010 7.60 14 l.520E-008 6.80 Name . FM15 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.SlOE-011 0.20 8 l.700E-009 7.00 15 l.030E-007 7.80 2 5.050E-Oll 0.40 9 3.060E-009 10.00 16 l.860E-007 3.20 3 9.070E-Oll 0.80 10 5.500E-009 a.so 17 3.340E-007 5.20 4 1. 630E-010 1.00 11 9.890E-009 11.60 18 6.000E-007 1.20. 5 2.930E--Ol0 1.80 12 l.780E-008 12.20 19 l.OSOE-006 0.40 6 5.270E-010 2.80 13 3.200E-008 11.80 20 l.940E-006 0.80 7 9.470E-010 5.00 14 5.750E-008 8.00 Name : FM16 Format : Percent Probability Percent Probability Percent Probability 1 1.050E-010 0.20 8 6.350E-009 7.00 15 3.850E-007 7.8 2 1. SSOE-010 0.40 9 l.140E-008 10.00 16 6~920E-:007 3.20 3 3.380E-010 0.80 10 2.050E-008 8.80 17 1.240E-006 5.20 4 6.0SOE-010 1.00 11 3.690E-008 11.60 18- 2.240E-006 1.20 5 1. 090E-009 1 1.80 12 6.630E-008 12.20 19 4.020E-006 0.40 6 1. 960E-009 2.80 13 l.190E-007 11.80 20 7.230E-006 0.80 7 3.530E-009 5.00 14 2.140E-007 8.00 Name . FM17 Format . Percent Probability Percent Probability Percent Probability'Percent 1 9.000E-011 0.20 8 5.460E-009 7.00 15 3.310E-007 7.80 2 1.620E-010 0.40 9 9.SlOE-009 10.00 16 5.950E-007 3.20 3 2.910E-010 o.ao 10 1. 760E-008 a.so 17 l.070E-006 5.20 4 5.230E-010 1.00 11 3.170E-008 11.60 18 1.920E-006 1.20 5 9.390E-010 1.80 12 5.700E-008 12.20 19 3.460E-006 0.40 6 1.690E-009 2'. 80 13 l.020E-007 -11. 80 20 6.220E-006 a.so 7 3.040E-009 5.00 14 l.840E-007

  • a. oo 1994/01/27 . 23:28:44 page 42 L-42
  • Name : *FM18 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent l.OSOE-009 1.00 15 Format .. Percent Probability Percent 6.360E-008 7.80 1 l.730E-Oll 0.20 8 2 3.lOOE-011 0.40 9 loSSOE-009 10.00 16 l.140E-007 3.20 3 5.580E-Oll 0.80 10 3.390E-009 8.80 17 2.050E-007 5.20 4 l.OOOE-010 1.00 11 6.090E-009 11.60 18 3.690E-007 1.20 5 l.SOOE-010 1.80 12 l.090E-008 12.20 19 6.640E-007 0.40 6 3.240E-010 2.so 13 l.970E-008 11.80 20 1.190E-006 0.80 7 5.SJOE-010 5.00 14 3.540E-008 s.oo Name .. FM19 Format . Percent Probability Percent Probability Percent Probability Percent 1
   ---------=--

9.760E-013 

                -------  0.20    8 l.lOOE-010 10.40 15 1.240E-008 4.20 2   l.920E-012           0.60    9   2.160E-010     11.40 16   2.440E-008         2.60 3   3.760E-012           2.80   10   4.250E-010      9.60 17   4.SOOE-008         1.40 4   7.400E-012           2.20   11   8.350E-010     12.20 18   9.420E-008         1.00 5   l.450E-Oll           4.80   12   1. 640E-009     8.60 19   1.BSOE-007         0.20 6   2.SSOE-011          *6.20   13   3.220E-009      8.00 20   3
  • 64 OE-007
  • 0.60 7 5.610E-Oll 10.80 14 6.JJOE-009 2.20 Name . FM31 Format : Percent Probability Percent

_...., _____ Probability Percent Probability Percent 5.930E-012 0.20 8 2.820E-010 10.20 15 1.340E-008 4.80 1.0JOE-011 1.00 9 4.900E-010 9.40 16 2.330E-008 1.40 3 1.790E-Oll 1.20 10 8.SOOE-010 14.00 17 4.0SOE-008 1.20 4* 3.lOOE-011 2.20 11 l.480E-009 10.40 18 7.020E-008 0.60 5 5.390E-01i 3.40 12 2.560E-009 11.00 19 1.220E-007 o.oo 6 9.JSOE-011 6.80 13 4.450E-009 6.60 20 2.120E-007 0.20 7 1.620E-010 7:.80 14 7.730E-009 7.60 Name . FM310 Format . Percent Probability Percent Probability Percent Probability 1Percent 1 2.770E-Oll 0.40 8 2.690E-009 9.40 15 2.620E-007 5.20 2 5.320E-011 0.60 9 5.lBOE-009 9.80 16 5.040E-007 4.60 3 1.020E-010 1.80 10 9.960E-009 10.00 17 9.700E-007 1.80 4 1.970E-010 1.80 11 1. 920E-008 11.60 18 1. 870E-006 1.00 5 3.790E-010 3.20 12 3.690E-008 10.40 19 3.590E-006 0.40 6 7.280E-Ol0 3 .so* 13 7.090E-008 9.40 20 6.900E-006 1.00 7 l.400E-009 6.00 14 l.360E-007 7.80 1994/01/27 23:28:44 page 43 L-43

HISTOGRAM DETAIL REPORT Name . FM32 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.890E-Ol0 0.20 8 9.0lOE-009 10.20 15 4.290E-007 4.80 2 3.290E-010 1.00 9 1.560E-008 9.40 16 7 *.440E-007 1.40 3, 5.710E-010 1.20 10 2.720E-008 14.00 17 1.290E-006 1.20 4 9.910E-010 2.20 11 4.720E-008 10.40 18 2.240E-006 0.60 5 1. 720E-009 3.40 12 8.190E-008 11.00 19 3.900E-006 o.oo 6 2~990E-009. 6.80 13 1.420E-007 6.60 20 6.760E-006 0.20 7 5.190E-009 ,7 .so 14 2.470E-007 7.60 Name . FM33 Format . Percent Probability Percent Probability Percent Probability Percent 1 -----------

1. 430E-010 0.20 8 6.BOOE-009 10.20 . 15 -----------

3.240E-007 4.80 2 2.480E-010 1.00 9 l .. 180E-008 9.40 16 5.620E-007 1.40 3 4.310E-010 1.20 10 2.050E-008 14.00 17 9.750E-007 1.20 4 7.480E-010 2.20 11 3.560E-008 10.40 18 l.690E-006 0.60

5. l.JOOE-009 3.40 12 6.180E-008 11.00 19 2.940E-006 o.oo 6 2.260E-009 6.80 13 l.070E-007 6.60 20 5.llOE-006 0.20 7 3.920E-009 7.80 14 l.860E-007 7.60 Name . FM34 Format . Percent Probability Percent Probability Percent Probability Percent 1 -----------

l.190E-Oll 0.20 8 ----------- 

                               *5.640E-010 10.20   15  -----------

2.680E-008 4.8 2 2.060E-Oll 1.00 9 9.790E-010 9.40 16 4.660E-008 1.40 3 3.570E-Oll 1.20 10 1. 700E-009 14.00 17 8.090E-008 1.20 4 6.200E-Oll 2.20 11 2.950E-009 10.40 18 1. 4 OOE-00-7 0.60 5 l.OBOE-010 *3.40 12 5.lJOE-009 11.00 19 2.440E-007 o.oo 6 1.870E-010 6.80 13 8.900E-009 6.60 20 4.230E-007 0.20 7 3 1* 250E-010 7.80 14 l.550E-008 7.60 Name .. FM35 Format : Percent Probability Percent Probability Percent Probability Percent 1 1 ----------- 5.050E-Oll 0.40 8 ----------- 2.470E-009 7.40 15 l.210E-007 5.60 2 8.SOOE-011 0.20 4.320E-009 9.80 16 2.120E-007 4.20 3 1. 530E-010 0.60 1~ 7.520E-009 11.40 17 3.690E~007 1.60 4 2.680E-010 2.80 11 l.310E-008 11.40 18 6.430E-007 1.00 5 4.670E-010 5.80 12 2.290E-008 9.60 19 1.120E-006 0.40 . 6 8.140E-010 5.40 13 3.990E-008 7.80 20 l.960E-006 0.20 7 1.420E-009 7.40 14 6.960E-008 7.00 1994/01/27 23:28:44 page 44 L-44

HISTOGRAM DETAIL REPORT Name . FM36 Format . Percent Probability Percent Probability Percent Probability Percent 1 l.880E-010 0.40 8 9.220E-009 7.40 15 

                                                     *4.520E-007 5.60 2  3.280E-010     0.20  9   l.610E-008       9.80 16   T.890E-007      4.20 3  5.720E-010     0.60 10   2.800E-008      11.40 17   l.380E-006      1.60 4  9.970E-010     2.80 11   4.890E-008      11.40 18   2.400E-006      1.00 5  1. 740E-009    5.80 12   8.530E-008       9.60 19   4.180E-006      0.40 6  3.030E-009     5.40 13   1. 490E-007      7.80 20   7.290E-006      0.20 7  5.290E-009     7.40 14   2.590E-007       7.00 Name,: FM37                                          Format . Percent Probability Percent      Probability Percent        Probability Percent 1
1. 620E-010 0.40 8 7.930E-009 7.40 15 3.890E-007 5.60 2 2.820E-010 0.20 9 l.380E-008 9.80 16 6.780E-007 4.20 3 4.920E-010 0.60 10 2.410E-008 11.40 17 l.180E-006 1.60 4 8.580E-010 2.80 11 4.210E-008 11.40 18 2.060E-006 1.00 5 l.500E-009 5.80 12 7.330E-008 9.60 19 3.600E-006 0.40 6 2.610E-009 5.40 13 1. 280E-007 7.80 20 6.270E-006 0.20 7 4.550E-009 7.40 14 2.230E-007 7.00 Name : FM38 Format . Percent Probability Percent Probability Percent Probability Percent 3.llOE-011 0.40 8 1.520:E-009 7.40 15
  • 7.470E-008 5.60 2 5.420E-Oll 0.20 9 2.660E-009 9.80 16 1. 300E-007 4.20 3 9.440E-Oll 0.60 10 4.630E-009 11.40 17 2.270E-007 1.60 4 l.650E-010 2.80 11 8.080E-009 11.40 18 3.960E-007 1.00 5 2.870E-010 5.80 12
  • l.410E-008 9.60 19 6.910E-007 0.40 6 5.0lOE-010 5.40 13 2.460E-008 7.80 20 l.200E-006 0.20 7 8.730E-010 7.40 14 4.280E-008 7.00 Name . FM39 Format . Percent Probability Percent Probability Percent Probability=Percent 1

4.500E-013 0.40 8 4.380E-Oll 9.40 15 4.260E-009 5.20 2 8.660E-013 0.60 9 8.420E-Oll 9.80 16 8.200E-009 4.60 3 l.660E-012 1.80 10 l.620E-010 10.00 17 l.580E-008 1.80 4 3.200E-012 1.80 11 3.120E-010 11.60 18 3.030E-008 1.00 5 6.160E-012 3.20 12 5.990E-010 10.40 19 .5.830E-008

  • 0.40 6 l.180E-Oll 3.80 13 l.lSOE-009 9.40 20 1.120E-007 1.00 7 2.280E-Oll 6.00 14 2.220E-009 7.80 1994/01/27 23:28:44 page 45 L-45

HISTOGRAM DETAIL REPORT .Name . FM41 Format . Percent Probability Percent Probability Percent Probability Percent 1 l.580E-012 1.40 8 6.040E-Oll 10.40 15 2.300E-009 4.40 2 2.670E-012 a.so 9 1.020E-010 10.20 16 3.870E-009 2.00 3 4.480E-012 1.20 10 1. 710E-010 10.60 17 6.510E-009 0.60 4 7.540E-012 *4.20 11 2.870E-010 12.40 18 1.lOOE-008 1.00 5 1.270E-Oll 3.60 12 4.830E-010 10.20 19 l.840E-008 o.oo 6 2.130E-Oll 7.20 13 8.130E-010 6.40 20 3.lOOE-008 0.20 7 3.590E-Oll 8.00 14 l.370E-009 5.20 Name . FM410 Format . Percent Probability Percent Probability Percent Probability Percent 1 7.920E-012 0.80 8 I ----------- 6.350E-010 8.20 15 5.090E-008 4.40 2 1.480E-Oll 0.60 9 1.190E-009 10.80 16 9.530E-008 3.40 3 2.770E-Oll 3.20 10 2.220E-009 11.40 17 1. 780E-007 2.80 4 5.lSOE-011 1.80 11 4.160E-009 9.40 18 3.330E-007 1.80 5 9.700E-Oll 4.00 12 7.780E-009 10.80 19 6.240E-007 0.40 6 l.SlOE-010 5.80 13 l.460E-008 7.60 20 1.170E-006 0.40 7 3.390E-010 6.80 14 2.720E-008 5.60 Name . FM42 Format . Percent Probability Percent Probability Percent Probability Percen 1 ----------- 5.060E-Oll 1.40 a -----------

1. 930E-009 10.40 15 7.350E-008 4.4 2 8.510E-Oll 0.80 9 3.240E-009 10.20 16 1.240E-007 2.00 3 1.430E-010 1.20 10 5.460E-009 10.60 17 2.080E-007 0.60 4 2.410E-010 4.20 11 9.lSOE-009 12.40 18 3.500E-007 1.00 5 4.050E-010 3.60 12 1. 540E-008 10.20 19 5.890E-007 o.oo 6 6.820E-010 7.20 13 2.600E-008 6.40 20 9.900E-007 0.20 7 1.150E-009 8.00 14 4.370E-008 5.20 Name . FM43 Format . Percent Probability Percent Probability Percent Probability 'Percent 1

3.820E-Oll 1.40 8 1.460E-009 10.40 15 5.550E-008 4.40 2 6.430E-Oll 0.80 9 2.450E-009 10.20 16 9.330E-008 2.00 3 1.080E-010 1.20 10 4.120E-009 10.60 17 1.570E-007 0.60 4 1.820E-010 4.20 11 6.930E-009 12.40 18 2.640E-007 1.00 5 3.060E-010 3.60 12 1.170E-008 10.20 19 4.440E-007 o.oo 6 5.150E-010 7.20 13 l.960E-008 6.40 20 7.470E-007 0.20 7 8.660E-010 8.00 14 3.300E-008 5.20 1994/01/27 23:28:44 page 46 L-46

HISTOGRAM DETAIL REPORT Name . FM44 Format . Percent Probability Percent Probability Percent Probability Percent 1 3.170E-012 1.40 8

1. 210E-010 10.40 15 4.600E-009 4.40 2 5.330E-012 0.00 9 2.030E-010 10.20 16 7.740E-009 2.00 3 8.960E-012 . 1.20 10, 3.420E-Ol0 10.60 17 1. 300E-008 0.60 4 l.SlOE-011 4.20 11 5.750E-010 12.40 18 2.190E-008 1.00 5 2.540E-Oll 3.60 12 9.670E-010 10.20 19 3.680E-008 o.oo 6 4.270E-011 7.20 13 1. 630E-009 6.40 20 6.200E-008 0.20 7 7.180E-Oll 0.00 14 2.740E-009 5.20 Name . FM45 Format . Percent Probability Percent Probability Percent Probability Percent 1

2.150E-012 0.20 8 1.480E-010 5.60 15 1.020E-008 8.20 2 3.940E-012 0.20 9 2.710E-010 8.60 16 l.870E-008 4.20 3 7.200E-012 0.60 10 4.960E-010 12,60 17 3,420E-008 5.60 4 1. 320E-Oll 0.60 11 9.080E-010 9.40 18 6,250E-008 2.20 5 2. 410E-Oll 1.40 12 1,660E-009 13.40 19 1.140E-007 0.60 6 4.420E-Oll 2.60 13 3.040E-009 11.80 20 2,lOOE-007 0.40 7 8.090E-Oll 2.20 14 5.570E-009 9,60 Name . FM46 Format . Percent Probability Percent Probability Percent Probability Percent 8.0lOE-012 0.20 8 5,520E-010 5.60 15 3,800E-008 8.20 2 l.470E-011 Q.20 9 l.OlOE-009 8,60 16 6.950E-008 4,20 3 2.680E-Oll 0.60 10 l.850E-009 12.60 17 l.270E-007 5.60 4 4.910E-Oll 0.60 11 3.380E-009 9.40 18 2.330E-007 2.20 5 9.000E-011 1.40 12 6.190E-009 13,40 19 4.270E-007 0.60 6 l.650E-010 2.60 13 l.130E-008 11.00 20 7.810E-007 0.40 7 3.0lOE-010 2.20 14 2.080E-008 9.60 Name .. FM47 Format . Percent Probability Percent Probability Percent Probability'Percent 1 6.890E-012 0.20 8 4.750E-010 5.60 15 3.270E-008 8.20 2 1. 260E-Oll 0.20 9 8.690E-010 8.60 16 5.980E-008 4.20 3 2.310E-Oll 0.60 10 l.590E-009 12.60 17 l.090E-007 5.60 4 4.230E-Oll 0.60 11 2.910E-009 9.40 18 2.000E-007 2.20 5 7.740E-Oll 1.40 12 5.330E-009 13.40 19 3.670E-007 0.60 6 l.420E-010 2.60 13 9.750E-009 11.80 20 6.720E-007 0.40 7 2.590E-010 2.20 14 1. 790E-008 9.60 1994/01/27 23:28:44 page 47 L-47

HISTOGRAM DETAIL REPORT I Name : FM48 Format . Percent Probability Percent Probability Percent Probability Percent 1

1. 320E-012 0.20 8 9.llOE-011 5.60 15 6.270E-009 8.20 2 2.420E-012 0.20 9 1. 670E-010 8.60 16 l.150E-008 4.20 3 4.430E-012 0.60 10 3.050E-010 12.60 17 2.lOOE-008 5.60 4 8.120E-012 0.60 11 5.590E-010 9.40 18 3.850E-008 2.20 5 1.490E-Oll 1.40 12 l.020E-009 13.40 19 7.040E-008 0.60 6 2. 720E-Oll 2.60 13 l.870E-009 11.80 20 l.290E-007 0.40 7 4.980E-Oll 2.20 14 3.430E-009 9.60 Name .. FM49 Format : Percent Probability Percent Probability Percent Probability Percent 1

l.290E-013 0.80 8

1. 030E-Oll 8.20 15 8.280E-010 4.40 2 2 .410E-Ol3 0.60 9 1. 930E-Oll 10.80 16 l.550E-009 3.40 3 4.510E-013 3.20 10 3.610E-Oll 11.40 17 2.900E-009 2.80 4 8.430E-013 1.80 11 6.760E-Oll 9.40 18 5.420E-009 1.80 5 1.580E-012 4.00 12 l.260E-010 10.80 19 l.OlOE-008 0.40 6 2 .950E-012 5.80 13 2.370E-010 7.60 20 l.900E-008 0.40 7 5.520E-012 6.80 14 4.430E-010 5.60 Name . FM81 Format . Percent Probability Percent Probability Percent Probability Perce 1

5.320E-013 0.40 a ----------- 2.860E-Oll 8.20 15 1.540E-009 3. 2 9. 410E-Ol3 0.40 9 5.060E-Oll 15.00 16 2.720E-009 2.60 3 l.660E-012 1.20 10 8.930E-Oll 10.40 17 4.SOOE-009 1.20 4 2.940E-012 1.60 11 l.580E-010 11.60 18 8.490E-009 0.60 5 5.190E-012 3.60 12 2. 790E-010- 11.60 19 l.500E-008 o.oo 6 9.l?OE-012 4.60 13 4.930E-010 9.40 20 2.650E-008 0.20 7 l.620E-Oll 7.20 14 8.710E-010 6.60 Name : FM810 Format : Percent Probability Percent Probability Percent Probability 'Percent 1 6.550:E-012 1.80 a 8.000E-010 13.20 15 9.760E-008 3.80 2 1. 300E-Oll 1.00 9 1. 590E-009 13.00 16 1. 940E-007 1.*20 3 2.5SOE-Oll 1.40 10 3.160E-009 12.20 17 3.850E-007 1.00 4 5.130E-Oll 3.40 11 6.270E-009 a.so 18 7.650E-007 0.20 5 1. 020E-010 6.20 12 l.250E-008 7.60 19 l.520E-006 0.20 6 2.030E-010 6.80 13 2.470E-008 5.40 20 3.020E-006 0.20 7 4.030E-010 7.80 14 4.910E-008 4.80 1994/01/27 23:28:44 page 48 L-48

HISTOGRAM DETAIL REPORT Name . FM82 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.700E-Oll 0.40 8 9.140E-010 8.20 15 4.910E-008 3.60 2 3.000E-011 0.40 9 l.620E-009 15.00 16 8.680E-008 2.60 3 5.310E-Oll 1.20 10 2.850E-009 10.40 17 1. 530E-007 1.20 4 9.380E-Oll 1.60 11 5.040E-009 11.60 18 2.710E-007 0.60 5 1.660E-010 3.60 12 8.910E-009 11.60 19 4.790E-007 0.00 6 2.930E-010 4.60 13 1. 570E-008 9.40 20 8.460E-007 0.20 7 5.170E-010 7.20 14 2.780E-008 6.60 Name . FM83 Format . Percent Probability Percent Probability Percent Probability Percent 1 1.280E-Oll 0.40 8 6.900E-010 8.20 15 3.710E-008 3.60 2 2.270E-Oll 0.40 9 1. 220E-009 15.00 16 6.550E-008 2.60 3 4.0lOE-011 1.20 10 2.150E-009 10.40 17 1.160E-007 1.20 4 7.080E-Oll 1.60 11 3.810E-009 11.60 18 2.050E-007 0.60 5 1.250E-010 3.60 12 6.730E-009 11.60 19 3.620E-007 0.00 6 2.210E-Ol0 4.60 13 1.190E-008 9.40 20 6.390E-007 0.20 7 3.910E-010 7.20 14 2.lOOE-008 6.60 Name . FM84 Format . Percent Probability Percent Probability Percent Probability Percent 1.060E-012 0.40 8 5.720E-Oll 8.20 15 3.080E-009 3.60 1.880E-012 0.40 9 1.0lOE-010 15.00 16 5.430E-009 2.60 J 3.320E-012 1.20 10 1.790E-010 10.40 17 9.600E-009 1.20 4 5.870E-012 1.60 11 3.160E-010 11.60 18 1. 700E-008 0.60 5 1.040E-Oll 3.60 12 5.580E-010 11.60 19 3.000E-008 o.oo 6 1.830E-Oll 4.60 13 9.850E-010 9.40 20 5.300E-008 0.20 7 3.240E-Oll 7.20 14 1. 740E-009 6.60 Name : FM85 Format : Percent Probability Percen~ Probability Percent Probability'Percent 1 5.490E-012 0.60 8 3.0lOE-010 11.80 15 1.650E-008 3.60 2 9.730E-012 0.60 9 5.340E-010 10.20 16 2.930E-008 2.00 3 1. 720E-Oll 1.40 10 9.460E-010 12.60 17 5.190E-008 2.20 4 3.060E-Oll 2.40 11 l.680E-009 11.40 18 9.200E-008 0.60 5 5.410E-Oll 3.40 12 2.970E-009 10.20 19 1.630E-007 1.00 6 9. 600E-Oll 4.00 13 5.270E-009 6.60 20 2.890E-007 0.40 7 1. 700E-010 7.40 14 9.330E-009 7.60 1994/01/27 23:28:44 page 49 L-49

HISTOGRAM DETAIL REPORT Name . FM86 Format . Percent Probability Percent Probability Percent Probability Percent 1 

  --*2.050E-Oll  -------

0.60 8 l.120E-009 11.80 15 ----------- 6.160E-008 3.60 2 3.630E-Oll 0.60 9 1.990E-009 10.20 16 1.090E-007 2.00 3 6.430E-011 1.40 10 3.530E-009 12.60 17 1.940E-007 2.20 4 l.140E-010 2.40 11 6.250E-009 11.40 18 3.430E-007 0.60 5 2.020E-010 3.40 12 1.llOE-008 10.20 19 6.0SOE-007 1.00 6 3.580E-010 4.00 13 L960E-008 6.60 20 1.080E-006 0.40 7 6.340E-010 7.40 14 3.480E-008 7.60 Name . FM87 Format : Percent Probability Percent Probability Percent Probability Percent 1

1. 760E-Oll 0.60 8 9.660E-010 11.80 15 5.300E-008 3.60 2 3.120E-Oll 0.60 9 1. 710E-009 . 10.20 16 9.390E-008 2.00 3 5.530E-Oll 1.40 10 3.0JOE-009 12.60 17 1.660E-007 2.20 4 9.790E-Oll 2.40 11 5.380E-009 11.40 18 2.950E-007 0.60 5 1. 740E-010 3.40 12 9.530E-009 10.20 19 S.230E-007 1.00 6 3.080E-010 4.00 13 l.690E-008 6.60 20 9.260E-007 0.40 .

7 S.450E-010 7.40 14 2.990E-008 7.60 Name . FM88 Format . Percent Probability Percent Probability Percent Probability l 3.380E-012 0.60 8 l.8SOE-010. 11.80 15 ----------- 1.020E-008 3. 2 5.990E-012 0.60 9 3.290E-010 10.20 16 1.800E-008 2.0 3 1. 060E-Oll 1.40 10 5.820E-010 12 .60 17 3.200E-008 2.20 4 l.880E-Oll 2.40 11 1. 030E-009 11.40 18 5.660E-008 0.60 5 3.330E-Oll 3.40 12 1. 830E-009 10.20 19 1.000E-007 1.00 6 5.910E-Oll 4.00 13 3.240E-009 6.60 20 1.780E-007 0.40 7 l.050E-010 7.40 14 5.740E-009 7.60 Name . FM89 Format . Percent Probability Percent Probability Percent Probability'Percent 1 1.060E-013 1.80 8 l.300E-Oll 13.20 15 1.590E-009 3.80 2 2.120E-013 1.00 9 2.580E-Oll 13.00 16 3.150E-009 1.20 3 4.200E-013 1.40 10 5.130E-011 12.20 17 6.260E-009 1.00 4 8.350E-013 3.40 11 1. 020E-010 8.80 18 l.240E-008 0.20 5 l.660E-012 6.20 12 2.020E-010 7.60 19 2.470E-008 0.20 6 3.290E-012 6.80 13 4.020E-010 5.40 20 4.910E-008 0.20 7 6.550E-012 7.80 14 7.990E-010 4.80 1994/01/27 23:28:44 page 50 L-50

  • Name . FMAl Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 1.560E-010 0.40 8 6.310E-009 10.60 15 2.540E-007 3.40 2 2.650E-010 a.so 9 1.070E-008 11.60 16 4.310E-007 2.40 3 4.500E-010 1.00 10 1. SlOE-008 14.00 17 7.320E-007 1.20 4 7.630E-010 1.60 11 3.0SOE-008 13.80 18 1. 240E-006 0.20 5 1.290E-009 3.40 12 5.220E-008 9.60 19 2.lOOE-006 0.40 6 2.190E-009 3.20 13 8.850E-008 7.00 20 3.570E-006 0.40 7 3.720E-009 8.60 14 1.500E-007 6.40 Name : FMAlO Format : Percent Probability Percent Probability Percent Probability Percent 1

4.900E-010 0.40 8 7.540E-008 11.20 15 1.160E-005 3.60 2 1.0lOE-009 0.20 9 1.550E-007 13.40 16 2.380E-005 2.20 3 2.070E-009 0.40 10 3.lSOE-007 14.00 17

  • 4.890E-005 1.20 4 4.240E-009 2.20 11 6.520E-007 15.60 18 1.000E-004 0.60 5 8.710E-009 3.80 12 1. 340E-006 9.20 19 2.060E-004 0.60 6 1. 790E-008 4.00 13 2.750E-006 5.00 20 4.230E-004 0.40 7 3.670E-008 6.40 14 5.650E~006 5.60 Name . FMA2 Format . Percent Probability Percent Probability Percent Probability Percent

- 3 4 5 6 7 5.000E-009 8.470E-009 1.440E-008 2.440E-008 4.130E-008 7.0lOE-008 l.190E-007 0.40 o.so 1.00 1.60 3.40 3.20 8.60 8 9 10 11 12 13 14 2.0lOE-007 3.420E-007 5.790E-007 9.830E-007

1. 670E-006 2.830E-006 4.790E-006 10.60 11.60 14.00 13.80 9.60 7.00 6.40 15 16 17 18 19 20 8.130E-006 1.380E-005 2.340E-005 3.960E-005 6.720E-005 1.140E-004 3.40 2.40 1.20 0.20 0.40 0.40 Name* : FMA3 Format . Percent Probability Percent Probability Percent Probability' Percent 1 3.770E-009 0.40 8 1.520E-007 10.60 15 6.130E-006 3.40 2 6.400E-009 0.80 9 2.SSOE-007 11.60 16 1. 040E-005 2.40 3 1. OSOE-008 1.00 10 4.370E-007 14 .oo 17 1. 760E-005 1.20 4 1. 840E-008 1.60 11 7.420E-007 13.80 18 2.990E-005 0.20 5 3.120E-008 3.40 12 1.260E-006 9.60 19 5.070E-005 0.40 6 5.290E-008 3.20 13 2.130E-006 7.00 20 8.600E-005 0.40 7 8.970E-008 8.60 14 3.620E-006 6.40 1994/01/27 23:28:44 page 51 L-51

HISTOGRAM DETAIL REPORT Name . FMA4 Format .. Percent Probability Percent Probability Percent Ptobability Percent 1 3.130E-010 0.40 8 1.260E-008 10.60 15 5.090E-007 3.40 2 5.300E-010 0.80 9 2.140E-008 11.60 16 8.620E-007 2.40 3 8.990E-010 1.00 10 3.630E-008 14.00 17 1.460E-006 1.20 4 1.530E-009 1.60 11 6.150E-008 13.80 18 2.480E-006 0.20 5 2.590E-009 3.40 12 1.040E-007 9.60 19 4.210E-006 0.40 6 4.390E-009 3.20 13 1.770E-007 7.00 20 7.130E-006 0.40 7 7.440E-009 8.60 14 3.000E-007 6.40 Name . FMAS Format . Percent Probability Percent Probability Percent Probability Percent 1 8.990E-010 0.60 8 5.310E-008 12.20 15 3.140E-006 4.20 2 1.610E-009 0.40 9 9.510E-008 9.40 16 5.620E-006 2.20 3 2.880E-009 0.40 10 1. 700E-007 12.00 17 1.0lOE-005 1.40 4

  • 5. 160E-009 1.40 11 3.0SOE-007 12.80 18 1.800E-005 0.80 5 9.250E-009 3.40 12 5.460E-007 9.80 19 J.230E-005 o.oo 6 1.660E-008 4.40 13 9.790E-007 9.60 20 5.780E-005 0.20 7 2.970E-008 7.40 14 1. 750E-006 7.40 Name . FMA6 Format . Percent Probability Percent Probability Percent Probability 1

3.350E-009 0.60 8 1.980E-007 12.20 15 1.170E-005 4.2 2 6.000E-009 0.40 9 3.550E-007 9.40 16 2.090E-005 2.20 3 1.070E-008 0.40 10 6.350E-007 12.00 17 3.750E-005 1.40 4 l.920E-008 1.40 11 1.140E-006 12.80 18 6.720E-005 0.80 5 3.450E-008 3.40 l,2 2.040E-006 9.80 19 l.200E-004 o.oo 6 6.170E-008 4.40 13 3.650E-006 9.60 20 2.lSOE-004 0.20 7 l.llOE-007 7.40 14 6.SJOE-006 7.40 Name . FMA7 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.880E-009 0.60 8 1.700E-007 12.20 15

1. OlOE-005 4.20 2 5.160E-009 0.40 9 3.0SOE-007 9.40 16 l.SOOE-005 2.20 3 9.240E-009 0.40 10 5.460E-007 12.00 17 3.230E-005 . 1.40 4 l.660E-008 1.40 11 9.780E-007 12.80 18 5.780E-005 a.so 5 2.960E-008 3.40 12 1. 750E-006 9.80 19 1. OJOE-004 o.oo 6 5.JlOE-008 4.40 13 3.140E-096 9.60 20 1.SSOE-004 0.20 7 9.SlOE-008 7.40 14 5.620E-006 7.40 1994/01/27 23:28:44 page 52 L-52

HISTOGRAM DETAIL REPORT Name . FMAS Format . Percent Probability Percent Probability Percent Probability Percent 1 5.530E-010 0.60 8 3.270E-008 12.20 15 1.930E-006 4.20 2 9.910E-010 0 .* 40 9 5.850E-008 9.40 16 3.460E-006 2.20 3 1.770E-009 0.40 10 1. 050E-007 12.00 17 6.190E-006 1.40 4 3.lSOE-009 1.40 11 1.SSOE-007 12.80 18 1.110E-005 0.80 5 5.690E-009 3.40 12 3.360E-007 9.80 19 l.990E-005 o.oo 6 1.020E-008 4.40 13 6.020E-007 9.60 20 3.560E-005 0.20 7 1. 830E-008 7.40 14 l.OSOE-006 7.40 Name . FMA9 Format : Percent Probability Percent Probability Percent Probability Percent 1 7.970E-012 0.40 8 l.230E-009 11.20 15 1.890E-007 3.60 2 1.640E-Oll 0.20 9 2.520E-009 13.40 16 3.870E-007 2.20 3 3.360E-011 0.40 10 5.170E-009 14.00 17 7.950E-007 1.20 4 6.900E-011 2.20 11 1. 060E-008 15.60 18 1. 630E-006 0.60 5 1.420E-010 3.80 12 2.180E-008 9.20 19 3.350E-006 0.60 6 2.910E-010 4.00 13 4.470E-008 5.00 20 6.880E-006 0.40 7 5.970E-010 6.40 14 9.180E-008 5.60 Name . FMCl Format : Percent Probability Percent Probability Percent Probability Percent l.850E-012 0.20 8

7. 640E-011 10.40 15 3.160E-009 4.80 3.150E-012 0.40 9 l.300E-010 10.60 16 5.370E-009 3.80 3 5.360E-012 0.60 10 2.210E-010 10.40 17 9.140E-009 2.20 4 9.120E-012 0.80 11 3.770E-010 10.40 18 1.560E-008 1.60 5 l.550E-011 3.00 12 6.410E-010 12.40 19 2.650E-008 0.80 6 2.640E-011 3.60 13 1. 090E-009 8.40 20 4.500E-008 0.60 7 4.490E-011 6.60 14 l.860E-009 8.40 Name . FMClO Format : Percent Probability Percent Probability Percent Probability'Percent 1

l.610E-011 0.20 8 l.990E-009 11.40 15 2.460E-007 3.00 2 3.200E-011 1.20 9 3.950E-009 12.00 16 4.890E-007 1.40 3 6.360E-Oll 2.20 10 7.870E-009 11.40 17 9.740E-007 2.20 4 l.270E-010 3.20 11 1. 570E-008 12.20 18 1.940E-006 0.20 5 2.520E-010 5.20 12 3.120E-008 10.20 19 3.860E-006 0.40 6 5.020E-010 5.20 13 6.210E-008 4.60 20 7.680E-006 0.20 7 9.980E-010 7.60 14 1. 240E-007 6.00 1994/01/27 23:28:44 page 53 L-53

Name . FMC2 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1 5.910E-Oll 0.20 8 2.440E-009 10.40 15 l.OlOE-007 4.80 2 l.OlOE-010 0.40 9 4.i50E-009 10.60 16 1. 720E-007 3.80 3 1. 710E-010 0.60 10 7.070E-009 10.40 17 2.920E-007 2.20 4 2.910E-010 0.80 11 l.200E-008 10.40 18 4.970E-007 1.60 5 4.960E-010 3.00 12 2.050E-008 12.40 19 8.450E-007 a.so 6 8.430E-Ol0 3.60 13 3.480E-008 8.40 20 l.440E-006 0.60 7 1. 430E-009 6.60 14 5.930E-008 8.40 Name . FMC3 Format . Percent Probability Percent Probability Percent Probability Percent 1 4.460E-Oll 0.20 8

1. 840E-009 10.40 15 7.610E-008 4.80 2 7.590E-Oll 0.40 9 3.140E-009 10.60 16 l.300E-007 3.80 3 1. 290E-010 0.60 10 5.340E-009 10.40 17 2.200E-007 2.20 4 2.200E-Ol0 0.80 11 9.080E-009 10.40 18 3.750E-007 1.60 5 3.740E-010 3.00 12 l.540E-008 12.40 19 6.380E-007 0.80 6 6.360E-010 3.60 13 2.630E-008 8.40 20 l.090E-006 0.60 7 l.080E-009 6.60 14 4.470E-008 8.40 Name . FMC4 Format . Percent Probability Percent Probability Percent Probability l

3.700E-Ol2 0.20 8 l.530E-010 10.40 15 6.310E-009 

                                                                   ~~~ 4.

2 6.300E-012 0.40 9 2.600E-010 10.60 16 l.070E-008 3.80 3 1. 070E-Oll 0.60 10 4.420E-010 10.40 17 l.830E-008 2.20 4 1.820E-Oll o.so 11 7.530E-010 10.40 18 3.llOE-008 1.60 5 3.lOOE-011 3.00 12 l.280E-009 12.40 19 5.290E-008 0.80 6 5.280E-Oll 3.60 13 2.180E-009 8.40 20 9.000E-008 0.60 7 8.980E-Oll 6.60 14 3. 710E-009

  • 8.40 Name . FMCS Format . Percent Probability Percent Probability Percent Probability'Percent 1
1. 720E-Oll 0.40 8 9.SSOE-010 10.80 15 5.320E-008 6.00 2 3. 060E-Oll o.ao 9 1. 700E-009 10.20 16 9.440E-008 3.40 3 5.430E-Oll 1.20 10 3.020E-009 12.60 17 l.680E-007 2.40 4 9.650E-Oll 1.60 11 5.360E-009 11.00 18 2.980E-007 1.00 5 1. 710E-010 3.20 12 9.SlOE-009 10.20 19 5.280E-007 0.20 6* 3.040E-010 5.20 13 l.690E-008 6.60 20 9.370E-007 0~20 7 5.400E-010 7.20 14 3.000E-008 5.80 1994/01/27 23:28:44 page 54 L-54

HISTOGRAM DETAIL REPORT Name . FMC6 Format . Percent Probability Percent Probability Percent Probability Percent 1 6.4JOE-Oll 0.40 8 3.570E-009 10.80 15 ----------- l.980E-007 6.00 2 l.140E-010 o.so 9 6.340E-009 10.20 16 3~520E-007 3.40 3 2.0JOE-010 1.20 10 l.120E-008 12. 60 17 6.250E-007 2.40 4 3.590E-010 1.60 11 2.000E-008 11.00 18 l.llOE-006 1.00 5 6.380E-010 3.20 12 3.540E-OOB 10.20 19 l.970E-006 0.20 6 l.lJOE-009 5.00 13 6.290E-008 6.60 20 3.490E-006 0.20 7 2.0lOE-009 7.40 14 l.120E-007 5.80 Name . FMC7 Format . Percent Probability Percent Probability Percent Probability Percent 1 5.5JOE-Oll 0.40 8 3.070E-009 10.80 15

1. 700E-007 6.00 2 9.BlOE-011 0.80 9 5.450E-009 10.20 16 3.0JOE-007 3.40 3 1. 740E-010 1.20 10 9.670E-009 12. 60 17 5.370E-007 2.40 4 3.090E-010
  • 1.60 11 1.720E-008 11.00 18 9.540E-007 1.00.

5 5.490E-010 3.20 12 3.050E-008 10.20 19 1. 690E-006 0.20 6 9.740E-010 5.20 13 5.410E-008 6.60 20 3.000E-006 0.20 7 1. 7JOE-009 7.20 14 9.600E-008 5.80 Name . FMC8 Format. : Percent. Probability Percent Probability Percent Probability Percent l.060E-Oll 0.40 8 5.890E-010 10.80 15 3.270E-008 6.00 1.880E-Oll 0.80 9 1.050E-009 10.20 16 5.810E-008 3.40 3 3.340E-Oll 1.20 10 l.860E-009 12.60 17 1.0JOE-007 2.40 4 5.940E-Oll 1.60 l]J 3.JOOE-009 11.00 18 l.BJOE-007 1.00 5 l.050E-010 3.20 12 5.850E-009 10.20 19 3.250E-007 0.20 6 1.870E-010 5.00 13 1.040E-008 6.60 20 5.770E-007 0.20 7 3.320E-010 7.40 14 1. 840E-008 5.80 Name . FMC9 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2 .610E-013 0.20 8 3.230E-Oll 11.40 15 4.000E-009 3.00 2 5.200E-013 1.20 9 6.430E-Oll 12.00 16 7. 960E-009 . 1.40 3 l.OJOE-012 2.20 10 1.280E-010 11. 4.0 17 1.580E-008 2.20 4 2.060E-012 3.20 11 2*. 550E-010 12.20 18 3.150E-008 0.20 5 4.lOOE-012 5.20 12 5.070E-010 10.20 19 6.270E-008 0.40 6 8.160E-012 5.20 13 1. OlOE-009 4.60 20 1.250E-007 0.20 7 l.620E-Oll 7.60 14 2.0lOE-009 6.00 1994/01/27 23:28:44 page 55 L-55

HISTOGRAM DETAIL REPORT Name : FMGl Format . Percent Probability Percent Probability Percent Probability Percent 1 4.SSOE-011 0.40 8 1.540E-009 

                                            .6.00    15 4.850E-008 5.60 2  7.990E-Oll      0.20  9   2.520E-009        a.so   16   7.940E-008      4.20 3  1.310E-010      0.20 10   4.120E-009      10.00    17   1.300E-007      2.60 4  2.140E-010      1.40 11   6.750E-009      10.20    18   2.130E-007      1.40 5  3.SlOE-010      2.60 12   1.ilOE-008      13.80    19   3.480E-007      1.00 6  5.740E-010      3.80 13   1. SlOE-008     12.80    20   5.700E-007      0.80 7  9.400E-010      5.40 14   2.960E-008        a.so Name  .. FMGlO                                           Format  . Percent Probability Percent       Probability Percent           Probability Percent 1

4.430E-010 0.60 8 5.090E-008 11.20 15 5.850E-006 2.80 2 8.720E-010 1.20 9 l.OOOE-007 14.60 16 1.150E-005 2.20 3 1. 720E-009 1.00 10 l.970E-007 12.40 17 2.270E-005 a.so 4 3.380E-009 3.80 11 3.890E-007 9.20 18 4.470E-005 a.so 5 6.660E-009 4.80 12 7.650E-007 a.so 19 8.SOOE-005 o.oo 6 1. 310E-008 5.20 13 1.510E-006 7.60 20 1. 730E-004 0.40 7 2.580E-008 9.20 14 2.970E-006

  • 3. 40 Name . FMG2 Format : Percent Probability Percent Probability Percent Probability Percent 1

l.560E-009 0.40 8 4.910E-008 6.00 15 1.550E-006 5.6 2 2.550E-009 0.20 9 8.0SOE-008 a.so 16 2.540E-006 4.20 3 4.180E-009 0.20 10 1. 320E-007 10.00 17 4.150E-006 2.60 4 6.840E-009 1.40 11 2.160E-007 10.20 18 6.SOOE-006 1.40 5 1.120E-008 2.60 12 3.530E-007 13.80 19 1.llOE-005 1.00 6 1.830E-008 3.80 13 5.7SOE-007 12.80 20 1.820E-005 a.so 7 3.000E-008 5.40 14 9.460E-007 8.80 Name . FMG3 Format : Percent Probability Percent Probabiiity Percent Probability' Percent 1 l.180E-009 0.40 8 3.710E-00S 6.00 15 l.170E-006 5.60 2 l.930E-009 0.20 9 6.070E-008 a.so 16 1. 910E-006 4.20 3 3.lSOE-009 0.20 10 9.940E-008 10. 00. 17 3.l30E-006 2.60 4 5.160E-009 1.40 11 l.630E-007 10.20 18 5.130E-006 1.40 5 8.460E-009 2.60 12 2.660E-007 13.80 19 S.400E-006 1.00 6 l.3SOE-008 3.80 13 4.360E-007 12.80 20 1. 3SOE-005 a.so 7 2.270E-00S 5.40 14 7.140E-007 8.80 1994/01/27 23:28:44 page 56 L-56

  • Name . FMG4 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

9.760E-Oll 0.40 8 3.080E-009 6.00 15 9.700E-008 5.60 2 l.600E-010 0.20 9 5.040E-009 8.80 16 l.590E-007 4.20 3 2.620E-010 0.20 10 8.250E-009 10.00 17 2.600E-007 2.60 4 4.280E-010 1.40 11 l.350E-008 10.20 18 4.250E-007 1.40 5 7.0lOE-010 2.60 12 2.210E-008 13.80 19 6.960E-007 1.00 6 1.150E-009 3.80 13 3.620E-008 12.80 20 l.140E-006 0.80 7 1.880E-009 5.40 14 5.920E-008 8.80 Name . FMG5 Format .. Percent Probability Percent Probability Percent Probability Percent 1 1.570E-010 0.20 8 8.440E-009 4.80 15 ----------- 4.540E-007 

                                                                           . 9.00 2   2.770E-010      0.20  9   l.490E-008        7.40   16   8.0lOE-007       6.00 3   4.900E-010      o.oo 10   2.630E-008       10.20   17   l.420E-006       4.60 4   8.660E-010      o.oo 11   4. 65.0E-008     11.80   18   2.500E-006       1.80 5   1. 530E-009     1.40 12   8.220E-008       11.40   19   4.420E-006       1.00 6   2.700E-009      3.80 13   l.450E-007       13.00   20   7.810E-006       0.80 7   4.780E-009      3.60 14   2.570E-007        9.00 Name   .. FMG6                                            Format .. Percent Probability Percent       Probability Percent           Probability Percent 5.850E-010 0.20 8 3.140E-008          4.80   15  -----------

l.690E-006 9.00 2 1. 030E-009 0.20 9 5.560E-008 7.40 16 2.990E-006 6.00 3 l.830E-009 o.oo 10 9.820E-008 10.20 17 5.280E-006 4.60 4 3.230E-009 o.oo 11 1. 730E-007 11.80 18 9.320E-006 1.80 5 5.700E-009 1.40 12 3.060E-007 11.40 19 l.650E-005 1.00 6 l.OlOE-008 3.80 13 5.410E-007 13.00 20 2.910E-005 0.00 7 1.780E-008 3.60 14

  • 9. 570E-007 9.00 Name . FMG7 Format . Percent Probability Percent Probability Percent Probability'Percent 1

5.030E-010 

                   *0.20  8 2.700E-008 4.80   15 i.450E-006 9.00 2   8.890E-010      0.20  9 4.780E-008          7.40   16   2.570E-006       6.00 3   l.570E-009      o.oo 10
  • 8.440E-008 10.20 17 4.540E-006 4.60 4 2.780E-009 o.oo 11 l.490E-007 11.80 18 8.020E-006 1.80 5 4.900E-009 1.40 12 2.640E-007 11.40 19 l.420E-005 1.00 6 8.670E-009 3.80 13 4.660E-007 13. 0.0 20 2.500E-005 0.80 7 l.530E-008 3.60 14 8.230E-007 9.00 1994/01/27 23:28:44 page 57
  • L-57 I

I

HISTOGRAM DETAIL REPORT Name . FMGB Format . Percent Probability Percent Probability Percent Probability Percent 1 9.660E-Oll 0.20 8 5.190E-009 4.80 15 2.790E-007 9.00 2 1. 710E-010 0.20 9 9.lBOE-009 7.40 16 4.930E-007 6.00 3 3.020E-010 o.oo 10 1.620E-008 10.20 17 8.710E-007 4.60 4 *s.330E-010 o.oo 11 2.860E-008 11.80 18 1.540E-006 1.80 5 9.420E-010 1.40 12 5.060E-008 11.40 19 2.720E-006 1.00 6 1.660E-009 3.80 13 8.940E-008 13.00 20 4.BlOE-006 0.80 7 2.940E-009 3.60 14 l.580E-007 9.00 Name : FMG9 Format . Percent Probability Percent Probability Percent Probability Percent 1 7.200E-012 0.60 8 8.270E-010 11.20 15 9.510E-008 2.80 2 l.420E-Oll 1.20 g* 1. 630E-009 14.60 16 l.870E-007 2.20 3 2.790E-Oll 1.00 10 3.210E-009 12.40 17 3.690E-007 0.80 4 S.500E-Oll 3.80 11 6.320E-009 9.20 18 7.260E-007 0.80 5 1.0SOE-010 4.80 12 1.240E-008 a.so 19 1. 430E-006 o.oo 6 2.130E-010 5.20 13 2.450E-008 7.60 20 2.820E-006 0.40 7 4.200E-010 9.20 14 4.830E-008 3.40 Name . FMHl Format . Percent Probability Percent Probability Percent Probability Percen 1 2.000E-012 

                   *0.40   8 l.070E-010 5.20 15 5.700E-009 4.80 2   3.530E-012      0.20    9   l.880E-010      13.00 16    1. OlOE-008       4.80 3   6.240E-012      0.20  10    3.330E-010       9.60 17    l.770E-008        3.20 4   1.lOOE-011      0.20  11    5.870E-010      11.40 18    3.130E-008        1.20 s   l.940E-Oll      1.40  12    l.040E-009      11.00 19    5.530E-008        0.60 6   3.430E-Oll      3.20  13    l.830E-009      12.20 20    9.750E-008        0.60 7   6.050E-Oll      4.40  14    3.230E-009      12.40 Name    . FMHlO                                           Format   .. Percent Probability Percent         Probability Percent         Probability 'Percent 1 l.780E-Oll         1.00    8 2.540E-009 10.80 15 3.630E-007 5.40 2   3.620E-Oll       0~40   9   5.160E-009      12.00 16     7.370E-007       2.60 3   7.350E-Oll       0.60 10     l.050E-008     13.00 17     l.SOOE-006       2.80 4    l.490E-010      1.40 11     2.130E-008     11.80  18    3.040E-006       1.00 5    3.030E-010      1.80 12     4.330E-008     11.00 19     6.lSOE-006       0.20 6   6.160E-010      5.80 13     8.790E-008      7.60 20     1. 250E-005      0.20 7   1.250E-009      5.20  14    l.790E-007      5,40 1994/01/27                   23:28:44                       page     58 L-58
  • Name . FMH2 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

6.400E-Oll 0.40 8 3.410E-009 5.20 15 l.820E-007 4.80 2 l.l30E-Ol0 0,.20 9 6.020E-009 13.00 16 3.210E-007 4.80 3 l.990E-010 0.20 10 l.060E-008 9.60 17 5.670E-007 3.20 4 3.520E-Ol0 0.20 11 l.880E-008 11.40 18 l.OOOE-006 1.20 5 6.210E-Ol0 1.40 12 3.310E-008 11.00 19 l.770E-006 0.60 6 l.lOOE-009 3.20 13 5.840E-008 12.20 20 3.l20E-006 0.60 7 l.930E-009 4.40 14 l.030E-007 12.40 Name . FMH3 Format . Percent Probability Percent Probability Percent Probability Percent l 4.830E-Oll 0.40 8 2.580E-009 5.20 15

l. 370E-007 4.80 2 8.520E-Oll 0.20 9 4.550E-009 13.00 16 2.420E-007 4.80 3 l.SOOE-010 0.20 10 8.020E-009 9.60 17 4.280E-007 3.20 4 2.650E-010 0.20 11 l.420E-008 11.40 18 7.550E-007 1.20 5 4.680E-Ol0 1.40 12 2.500E-008 11.00 19 l. 330E-006 0.60 6 8.270E-010 3.20 13 4.410E-008 12.20 20 2.350E-006 0.60 7 l.460E-009 4.40 14 7.780E-008 12.40 Name . FMH4 Format: Percent Probability Percent Probability Percent Probability Percent
  -------~---

4.000E-012 0.40 8 2.140E-010 5.20 15 l.140E-008 4.80 7.070E-Ol2 0.20 9 3.770E-010 13. 00 16 2.0lOE-008 4.80 l.250E-Oll 0.20 10 6.650E-010 9.60 17 J.550E-008 3.20 2.200E-Oll 0.20 11 l.170E-009 11.40 18 6.260E-008 1.20 3.880E-Oll 1.40 12 2.070E-009 11.00 19 1.lOOE-007 0.60 6.860E-Oll 3.20 13 3.660E-009 12.20 20 1.950E-007 0.60 l.210E-Ol0 4.40 14 6.450E-009 12.40 Name . FMH5 Format .. Percent Probability Percent Probability Percent Probability'Percent i 

  --~--------

6.210E-012 0.20 8 5.400E-010 5.40 15 4.700E-008 9.00 2 l. lSOE-011 0.00 9 l.020E-009 7.20 16 8.900E-OOB 6.80 3 2.220E-Oll 0.20 10 l.940E-009 10.80 17 l.690E-007 4.00 4 4.210E-Oll o.oo 11 3.660:E-009 12.20 18 3.190E-007 3.60 5 7.970E-Oll o.oo 12 6.940E-009 11.00 19 6.040E-007 0.60 6 l.510E-010 2.40 13 1. JlOE-008 13.40 20 1.140E-006 1.00 7 2.860E-010 2.20 14 2.490E-008 10.00 1994/01/27 23:28:44 page 59 L-59

HISTOGRAM DETAIL REPORT Name . FMH6 Format . Percent Probability Percent Probability Percent Probability Percent 1 2.310E-Oll 

                 .0.20   8 2.0lOE-009 5.40 15
1. 750E-007 9.00 2 4.380E-Oll o.oo 9 3.810E-009 7.20 16 3.320E-007 6.80 3 8.290E-Oll 0.20 10 7.220E-009 10.80 17 6.280E-007 4.00 4 1.570E-010 o.oo 11 1.370E-008 12.20 18 1.190E-006 3.60 5 2.970E-010 o.oo 12 2.590E-008 11.00 19 2.250E-006 0.60 6 5.620E-010 2.40 13 4.890E-008 13.40 20 4.260E-006 1.00 7 1.060E-009 2.20 14 9.260E-008 10.00 Name . FMH7 Format . Percent Probability Percent Probability Percent Probability Percent 1

l.990E-Oll 0.20 8 1.730E-009 5.40 15 1.SlOE-007 9.00 2 3. 770E-Oll 0,.00 9 3.280E-009 7.20 16 2.850E-007 6.80 3 7.130E-Oll 0.20 10 6.210E-009 10.80 17 5.400E-007 4.00 4 1.350E-010 o.oo 11 l.170E-008 12.20 18 1.020E-006 3.60 5 2.550E-010 o.oo 12 2.220E-008 11.00 19 1.940E-006 0.60 6 4.840E-010 2.40 13 4.210E-008 13.40 20 3.660E-006 1.00 7 9.lSOE-010 2.20 14 7.970E-008 10.00 Name . FMH8 Format . Percent Probability Percent Probability Percent Probability 1 3.820E-012 0.20 8 3.330E-010 5.40 15 2.890E-008 9. 2 7.230E-012 o.oo 9 6.300E-010 7.20 16 5.480E-008 6.80 3 1.370E-Oll 0.20 10 1.190E-009 10.80 17 1.040E-007 4.00 4 2.590E-Oll o.oo 11 2.260E-009 12.20 18 1.960E-007 3.60 5 4.900E-Oll o.oo 12 4.270E-009 11.00 19 3.720E-007 0.60 6 9.280E-Oll 2.40 13 8.080E-009 13.40 20 7.030E-007 1.00 7 1. 760E-010 2.20 14 1.530E-008 10.00 Name . FMH9 Format . Percent Probability Percent Probability Percent Probability'Percent 1 2.900E-013 1.00 8 4.lJOE-011 10.80 15 5.900E-009 5.40 2 5.880E-013 0.40 9 8.390E-Oll 12~00 16 l.200E-008 2.60 3 l.190E-012 0.60 10 1. 710E-010 13.00 17 2.430E-008 2.80 4 2.430E-012 1.40 11 3.460E-010 11.80 18 4.940E-008 1.00 5 4.930E-012 1.80 12 7.040E-010 11.00 19 l.OOOE-007 0.20 6 1.000E-011 5.80 13 1.430E-009 7.60 20 2.040E-007 0.20 7 2.0JOE-011 5.20 14 2.900E-009 5.40 23:28:44 page 60 L-60

  • Name . FN21 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

3.220E-Oll 0.20 8 1.190E-009 6.60 15 4.360E-008 4.80 2 5.400E-Oll o.* 40 9 1.980E-009 6.60 16 7.300E-008 6.40 3 9.030E-Oll 0.40 10 3.320E-009 8.60 17 l.220E-007 3.60 4 1. 510E-010 0.40 11 5.560E-009 17.40 18 2.050E-007 2.00 5 2.530E-010 2.00 12 9.300E-009 10.80 19 3.420E-007 1.60 6 4.230E-010 3.60 13 l.560E-008 10.80 20 5.730E-007 1.00 7 7.090E-010 3.80 14 2.610E-008 !LOO Name . FN210 Format .. Percent Probability Percent Probability Percent Probability Percent 1 

   --~--------

3.390E-010 0.60 8 3.420E-008 8.40 15 3.450E-006 3.80 2 6.550E-010 0.60 9 6.610E-008 11.40 16 6.660E-006 2.20 3 1.270E-009 1.60 10 1.280E-007 14. 40 17 l.290E-005 2.00 4 2.450E-009 2.80 11 2.470E-007 10.80 18 2.490E-005 1.00 5 4.730E-009 4.60 12 4.770E-007 8.20 19 4.810E-005 0.60 6 9.140E-009 4.00 13 9.220E-007 8.00 20 9.310E-005 0.20 7 l.770E-008 7.40 14 1. 780E-006 7.40 Name . FN22 Format . Percent Probability Percent Probability Percent Probability Percent

1. 030E-009 0.20 8 3.790E-008 6.60 15
1. 390E-006 4.80 2 1. 720E-009 0.40 9 6.340E-008 6.60 16 2.330E-006 6.40 3 2.880E-009 0.40 10 l.060E-007 8.60 17 3.900E-006 3.60 4 4.830E-009 0.40 11 1. 780E-007 17.40 18 6.530E-006 2.00 5 8.080E-009 2.00 12 2.970E-007 10.80 19 1. 090E-005 1.60 6 1. 350E-008 3.60 13 4.970E-007 10.80 20 1. 830E-005 1.00 7 2.260E-008 3.80 14 8.330E-007 9.00 Name . FN23 Format . Percent Probability Percent Probability Percent Probability ,percent 1

7.780E-010 0.20 8 2.860E-008 6.60 15 l.OSOE-006 4.80 2 1. 300E-009 0.40 9 4.790E-008 6.60 16 l.760E-006 6.40 3 2.180E-009 0.40 10 8.0lOE-008 8.60 17 2.950E-006 3.60 4 3.650E-009 0.40 11 1. 340E-007 17.40 18 4.930E-006 2.00 5 6.lOOE-009 2.00 12 2~240E-007 10.80 19 8.250E-006 1.60 6 1. 020E-008 3.60 13 3.760E-007 10.80 20 1. 380E-005 1.00 7 1. 710E-008 3.80 14 6.290E-007 9.00 1994/01/27 23:28:44 page 61

  • L-61

HISTOGRAM DETAIL REPORT Name . FN24 Format . Percent Probability Percent Probability Percent Probability Percent l 6.450E-Oll 0.20 8 ----------- 2.370E-009 6.60 ----------- ------- 15 8.720E-008 4.80 2 l.OSOE-010 0.40 9 3.970E-009 6.60 16 l.460E-007 6.40 3 1.810E-010 0.40 10 6.640E-009 8.60 17 '2.440E-007 3.60 4 3.020E-010 0.40 11 1.110E-008 17.40 18 4.090E-007 2.00 5 5.060E-010 2.00 12 1.860E-008 10.80 19 6.840E-007 1.60 6 8.470E-010 3.60 13 3.110E-008 10.80 20 1.150E-006 1.00 7 1. 420E-009 3.80 14 5.210E-008 9.00 Name . FN25 Format .. Percent Probability Percent Probability Percent Probability Percent 1 1.400E-010 0.20 8 8.250E-009 6.00 15 4.860E-007 9.20 2 2.510E-010 o.oo 9 1.480E-008 8.60 16 8.700E-007 4.00 3 4.490E-010 0.20 10 2.640E-008 9.20 17 1.560E-006 3.20 4 8.040E-010 0.40 11 4.730E-008 12.20 18 2.790E-006 3.40 5 1. 440E-009 2.00 12 8.470E-008 12.80 19 4.990E-006 2.60 6 2.580E-009 1.60 13 1.520E-007 11.00 20 8.930E-006 0.40 7 4.610E-009 3.60 14 2.720E-007 9.40 Name . FN26 Format . Percent Probability Percent Probability Percent Probability Percen 1 5.220E-010 0.20 8 3.080E-008 6.00 15 1.SlOE-006 9.2 2 9.350E-010 o.oo 9 5.510E-008 8.60 16 3.240E-006 4.00 3 1. 670E-009 0.20 10 9.860E-008 9.20 17 5.800E-006 3.20 4 3.000E-009 . 0.40 11 1. 760E-007 12.20 18 1.040E-005 3.40 5 .5. 360E-009 2.00 12 3.160E-007 12.80 19 1.860E-005 2.60 6 9.600E-009 1.60 13 5.650E-007 11.00 20 3.330E-005 0.40 7 1. 720E-008 3.60 14 1. OlOE-006 9.40 Name . FN27 Format . Percent Probability Percent Probability Percent Probability'Percent 1 4.490E-010 0.20 8 2.650E-008 6.00 15 1.560E-006 9.20 2 8.040E-010 o.oo 9 4.740E-008 8.60 16 2.790E-006 4.00 3 1.440E-009 0.20 10 8.480E-008 9.20 17 4.990E-006 3.20 4 2.SSOE-009 0.40 11 l.520E-007 12.20 18 8.940E-006 3.40 5 4.610E-009 2.00 12 2.720E-007 12.80 19 1.600E-005 2.60 6 8.260E-009 1.60 13 4.860E-007 11.00 20 2.860E-005 0.40 7 1.480E-008 3.60 14 8.700E-007 9.40 1994/01/27 23:28:44 page 62 L-62

  • Name . FN28 Probability Percent HISTOGRAM DETAIL REPORT Probability Percent Format . Percent Probability Percent 1

8.630E-Oll 0.20 8 ----------- 5.080E-009 6.00 15 ----------- 2.990E-007 9.20 2 1.540E-010. o.oo 9 9.090E-009 8.60 16 5.350E-007 4.00 3 2.760E-010 0.20 10 1.630E-008 9.20 17 9.590E-007 3.20 4 4.950E-Ol0 0.40 11 2.910E-008 12.20 18 1. 720E-006 3.40 5 8.860E-010 2.00 12 5.220E-008 12.80 19 3.070E-006 2.60 6 1. 590E-009, 1.60 13 9.340E-008 11.00 20 5.SOOE-006 0.40 7 2.840E-009 3.60 14 l.670E-007 9.40 Name . FH29 Format . Percent Probability Percent Probability Percent Probability Percent 1 ----------- 5.SlOE-012 0.60 8 5.560E-010 8.40 15 5.610E-008 3.80 2 1.060E-Oll 0.60 9 l.070E-009 11.40 16 1.080E-007 2.20 3 2.060E-Oll 1.60 10 2.080E-009 14.40 17 2.090E-007 2.00 4 3.980E-011 2.80 11 4.0lOE-009 10.80 18 4.0SOE-007 1.00 5 7.690E-Oll 4.60 12 7.760E-009 8.20 19 7.830E-007 0.60 6 1.490E-010 4.00 13 1.SOOE-008 8.00 20 1.510E-006 0.20 7 2.870E-010 7.40 14 2.900E-008 7.40 1994/01/27 23:28:44 page 63 L-63

Appendix M Sequence Quantification SEQUENCE

SUMMARY

REPORT RHRTES.T Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound

1 CT1W1D6 

         ---------------- 2                                        1.773E-008 2  CT1:W1D6         3                                        1.715E-008 3  CT1W1R6          21                                     ------E----

4 CTlWlR~ 3 ------E---- 5 CT1WlR6 4 ------E---- 6 CT1WlR6 7 l.464E-010 7' CT1WlR6 8 9.273E-010

8. CT1W2D6 3 l.276E-010 9 CT1W2D6 4 1.990E-008 10 CT1W2R6 2 ------E----

11 CT1W2R6 3 ------E---- 12 CT1W2R6. 4. 5.809E-010 13 CT1W2R6 7 7.0SSE-010 14 CT1W2R6 8 1.103E-OOB 15 CT1W3D6 3. 1. 709E-OOB 1.6 CT1W3R10 2 ------E---- 1994/01/28 10:07:45 page 1 M-l

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 17 CT1W3Rl0 3 2.863E-010 18 CT1W3Rl0 5 

                                                                ------E----

19 CT1W3R6 2 

                                                                ------E----

20 CT1W3R6 3 7.925E-009 21 CT1W3R6 5 8.806E-010 22 CT1W4D6 3 7.104E-010 23 CT1W4Rl0 3 1. 272E-009 24 CT1W4Rl0 5 2.968E-009 25 CT1W4R6 3 26 CT1W4R6 5 

                                                                ------E---*

l.104E-010 27 CT2Wl06 2 4.683E-007 28 CT2W1D6 3 l.367E-009 29 CT2WlR6 2 1. 230E-010 30 CT2WlR6 3 

                                                                ------E----

31 CT2WlR6 4 

                                                                ------E----

32 CT2WlR6 7 l.112E-008 1994/01/28 10:07:45 page 2 M-2

-amily Seq RHRTEST SEQUENCE

SUMMARY

REPORT case: CURRENT Analysis: RANDOM Mincut No. Event Tree Sequence Name Upper Bound 33 CT2WlR6 8 ------E---- 34 CT2W2D6 3 9.202E-009 35 CT2W2D6 4 5.135E-010 36 CT2W2R6 2 8.939E-010 37 CT2W2R6 3 ------E---* 38 CT2W2R6 4 ------E---- 39 CT2W2R6 7 3.423E-008 40 CT2W2R6 8 8.623E-010 41 CT2W3D6 3 4.419E-010 42 CT2W3R10 2 ------E--- . 43 CT2W3R10 3 ------E---- 44 CT2W3Rl0 5 ------E---- 45 CT2W3R6 2 ------E---- 46 CT2W3R6 3 6.035E-010 47 CT2W3R6 5 ------E---- 48 CT2W4D6 3 ------E---- 1994/01/28 10:07:45 page 3 M-3

SEQUENCE.

SUMMARY

REPO~T F~mUy RHRTEST case: CURRENT Analysis: RANDOM s~q, MinCut Ng.* Event.Tree Sequence Name '!!"!-~-~~ ---~~----------- Upper Bound 49 CT2W4Rl0. 3 ----------- l.018E-010

50. CT2W4Rl0. 5 3.622E-010 51 CT2W4R6. 3 ------E----

52 CT2W4R6 5 ------E-.--- 53 CV1W1D6 2 --... ---E---- 54" CV1W1D6 3 4.980E-007 55 CV1WlR6. 2 ---.---E;-... - ... 

      !:>6, CV,1WlR6,.        3                                       -_..~_....,.. ..:E;,"'."'"".... "

57, CVl.WlR.6. 4 3:.*.~00E"""Ol 58, CV1WlR6. 7 -..,.,.,..,..,,..,..E--.,...,... 59 CV1WlR6 8. 3.366E-008 60, CV1W21)6** 3 --...:---E-... -.- 61 CV1W2D6* 4 L860E-006 62> CV1W2R6 2, 

                                                                      ---.---E"."-.:--.

6,3 CV1W2R6, 3 ------E---- 64 CV1W2R6a 4 5.450E-008. 1994/01/28 10:07:45 page 4 M-4

SEQUENCE

SUMMARY

REPORT

  • Family RHRTEST Case: CURRENT Analysis: RANDOM
  .Seq
  • Mincut No. Ev.ent Tree Sequence Name Upper Bound 65 CV1W2R6 7 -----------
                                                                     -----..E----

66 CV1W2R6 8 1.0JSE-006 67 CV1W3D6 3 3.040E-007 68 .CV1W3R10 2 .--~--~~---- 69 CV1W3R10 3 5.095E-009 70 CV1W3R10 5 2.980E-009 71 CV1W3R6 2 --~---E---- 72 CV1W3R6 3- l.402E-007 73 CV1W3R6 5 l.558E-0~8 74 CVJ.,W4D.6 3 1_.lOSE-008 75 CV1W4R10 *J l.976E-008 76 CV1W4R10 5 4.611E-008 77 CV1W4R6 3 7.344~-010 78 CV1W4R6 5 l.713E-009 79 E10W1D6 2 ------E--.-- 8.0 E10W1D6 3 4.580E-008 1994/01/28 10:.07: 45 page 5 M-5

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 81 ElOW1R6 2 ------E---- 82 ElOWlR6 3 ------E---- 83 ElOWlR6 4 ------E---- 84- ElOWlR6 7 ------E---- 85 ElOWlR6 8 2.831E-009 86 E10W2D6 3 ------E---- 87 E10W2D6 4 1. 700E-007 88 ElOW2R6 2 ------E---- 89 ElOW2R6 3 ------E--- 90 ElOW2R6 4 5.000E-009 91 ElOW2R6 7 ------E---- 92 ElOW2R6 8 9.500E-008 93 E10W3D6 3 2.793E-008 94 E10W3Rl0 2 ------E---- 95 ElOW3RlO 3 2.448E-009 96 ElOW3RlO 5 2. 720E-010 1994/01/28 10:07:45 page 6 M-6

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 97 E10W3R6 2 ------E---- 98 E10W3R6 3 1. 292E-008 99 ElOW3R6 5 l.436E-009 100 E10W4D6 3 l.OlSE-009 101 E10W4R10 3 1. 814E-009 102 E10W4R10 5 4.233E-009 103 E10W4R6 3 l.890E-009 104 E10W4R6 5 4.410E-009 105 E11W1D6 3 -~--~-E---- 106 E11W1D6 4 ------E---- 107 E11WlR6 3 ------E---- 108 EllWlR6 4 ------E---- . 109 EllWlR6 5 ------E---- 110 El1WlR6 8 ------E---- 111 EllWlR6 9 ------E---- 112 El1W2D6 41 ------E---- 1994/01/28 10:07:45 page 7 M-7

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree sequence Name Upper Bound 113 ---------------- ---------------- Ei1W2D6 5 

                                                              ------E----

114 Ei1W2R6 j 

                                                              ------E----

li5 E11W2R6 4 ------E* --- 116 EliW2R6 5 

                                                              ------E----

117 EliW2R6 8 

                                                              ------E----

118 El1W2R6 9 

                                                              ------E----

119 E1iW3D6 4 

                                                              ------E----

120 EllWJRiO 3 

                                                              ------E----

121 El1W3R10 4 

                                                              ------E---

122 El1W3R10 6 

                                                              ------E----

123 E11W3R6 3 

                                                              ------E----

124 E11W3R6 4 

                                                              ------E----

125 E11W3R6 

                                                              ------E----

126 El1W4D6 4 

                                                              ------E----

127 EliW4R10 4 

                                                              ------E----

128 EliW4RlO 6 

                                                              ------E----

1994/01/28 10:07:45 page 8 M-8

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT ca:se: CURRENT Sequence Name Analysis: RANDOM 129 E11W4R6 4 

                                                                -----..:E~---

130 E11W4R6 6 ------E--:..;_ 131 El2W1D6 3 ------;,.E..; ___ 132 E12W1D6 4 .;...;.,_..;_.;.E----- 133 E12W1D6 7 l.878E*007 134 E12W1D6 8 9.267E-009 135 E12W1R6 03 -------E---- 136 E12W1R6 04 ------E---- 137 El2W1R6 05 ------E;_;., __ I _.;;. __ .;.,_E_:.. __ 138 El2W1R6 08 139 E12WlR6 09 ----.;.-E---- 140 E12W1R6 12 ------E---- 141 El2WlR6 13 ------E---- 142 El2W1R6 14 ------E---- 143 E12W1R6 17 7.955E-009 144 El2WlR6 18 1. 738E.;;010 1994/01/28 10:07:45 page 9 M-9

SEQUENCE SUMIQ.RY REPORT Family RHRTEST Case: . CURRENT Analysis: RANDOM Seq MinCUt No. Event Tree sequence Name Upper Bound 

   +45 E12W2D6           04                                       ------E----

146 E12W2D6 05 ------E---- 147 E12W2D6 09 2.397E-009 148 E12W2D6 10 8.607E-010 149 E12W2R6 03 ------E---- 150 E12W2R6 04 I 

                                                                  ------E----

151 E12W2R6 05 ------E---- 152 E12W2R6 08 ------E---- 153. E12W2R6 ____ ..;._E-- 09 154 E12W2R6 12 1.064E-009 155 E12W2R6 13 ------E---- 

 . 156  E12W2~6          14                                       ------E----

157 E12W2R6 17 l.232E-008 158 E12W2R6 18 2.770E-009 159 E12W3D6 4 ------E---- 160 E12W3D6 8 6.237E-010 1994/01/28 10:07:45 page 10 M-10

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 161 E12W3R10 03 ------E---- 162 E12W3R10 04 ------E---- 163 E12W3R10 06 ------E---- 164 E12W3R10 09 ------E---- 165 E12W3R10 10 ------E---- 166 E12W3R10 12 ------E---- 167 E12W3R6 03 . -----E---- 168 E12W3R6 04 ------E---- 169 E12W3R6 06 ------E---- 170 E12W3R6 09 ------E-* -- 171 E12W3R6 10 1. 765E-009 172 El2W3R6 12 ------E---- 173 E12W4D6 4 ------E---- 174 E12W4D6 8 ------E---- 175 El2W4Rl0 04 ------E---- 176 E12W4Rl0 06 ------E---- 1994/01/28 10:07:45 page 11 M-11

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound i11 El2W4Rl0 10 ----------- 

                                                                ------E----

178 El2W4Rl0 12 ------E---- 179 El2W4R6 04 ------E---- 180 El2W4R6 06 ------E---- 181 El2W4R6 10 ------E---- 182 El2W4R6 12 ------E---- 183 El3AW1D6 3 J.018E-009 184 El3AW1D6 4 l.069E-008 185 El3AW1D6 7 5.583E-O 186 El3AW1D6 8 4.984E-009 187 El3AW1R6 03 ------E---- 188 El3AW1R6 04 ---.---E---- 189 El3AW1R6 05 ------E---- 190 E13AW1R6 08 1.044E-009 191 El3AW1R6 09 6.375E-010 192 El3AW1R6 12 ------E---- 1994/01/28 10:07:45 page 12 M-12

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 193 El3AW1R6 13 ----------- 

                                                                ---~--E----

194 El3AW1R6 14 ------E---- 195 El3AW1R6 17 3.*204E-010 196 El3AW1R6 18 2.123E-010 197 El3AW2D6 04 6.367E-009 198 El3AW2D6 05 l.409E-008 199 El3AW2D6 09 3.820E-009 200 El3AW2D6 10 4.783E-009 201 E13AW2R6 03 ------E---- 202 E13AW2R6 04 .------E---- 203 E13AW2R6 05 4.031E-010 204 El3AW2R6 08 7.652E~oo9 205 El3AW2R6 09 7.967E-009 206 El3AW2R6 12 ------E---- 207 El3AW2R6 13 ------E---- 208 El3AW2R6 14 ------E---- 1994/01/28 10:07:45 page 13 M-13

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq MinCUt No. Event Tree Sequence Name Upper Bound 209 El3AW2R6 17 2.074E-009 210 El3AW2R6 18 1.158E-009 211 El3AW306 4 1.188E-008 212 El3AW306 8 2.700E-009 213 El3AW3Rl0 03 ------E---- 214 El3AW3Rl0 04 l.999E-010 215 El3AW3Rl0 06 ------E---- 216 El3AW3Rl0 09 ------E---- 217 E13AW3R10 10 ------E--* 218 El3AW3Rl0 12 ------E---- 219 El3AW3R6 03 ------E---- 220 El3AW3R6 04 5.484E-009 221 E13AW3R6 06 6.094E-010 222 El3AW3R6 09 ------E---- 223 El3AW3R6 10 l.197E-009 224 El3AW3R6 12 ------E---- 1994/01/28 10:07:45 page 14 M-14

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event *Tree Sequence Name Upper Bound 225 E13AW4D6 4 4.968E-010 226 E13AW4D6 8 ------E---- 227 E13AW4R10 04 8.928E-010 228 E13AW4R10 06 2.083E-009 229 E13AW4R10 10 1. 309E-010 230 E13AW4Rl0 12 5.774E-010 231 E13AW4R6 04 ------E---- 232 E13AW4R6 06 ------E----

  • 233 234 235 E13AW4R6 E13AW4R6 E13BW1D6 10 12 3
                                                                 ------E----
                                                                 ------E----
                                                                 -.----E----

236 E13BW1D6 4 ------E. --- 237 El3BW1D6 7 9.695E-008 238 El3BW1D6 8 9.130E-008 239 E13BW1R6 03 ------E---- 240 El3BW1R6 04 ------E---- 1994/01/28 10:07:45 page 15 M-15

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 241 E13BW1R6 05 

                                                                ------E----

242 E13BW1R6 08 ------E---- 243 E13BW1R6 09 ------E---- 244 E13BW1R6 12 -..;.----E---- 245 E13BW1R6 13 ------E---- 246 El3BW1R6 14 ------E---- 247 El3BW1R6 17 6.397E-009 248 El3BW1R6 18 5.909E-009 249 El3BW2D6 04 ------E-~* 250 . El3BW2D6 05 ------E---- 251 El3BW2D6 09 3.628E-007 252 El3BW2D6 10 L245E-007 253 El3BW2R6 03 ------E---- 254 El3BW2R6 04 ------E---- 255 El3BW2R6 05 ------E---- 256 El3BW2R6 08 ------E---- 

  . 1994/01/28                  10:07:45                      page      16 M-16

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 257 El3BW2R6 09 ----------- 

                                                                 ------E----

258 El3BW2R6 12 l.418E-009 259 E13BW2R6 13 ------E---- 260 El3BW2R6 14 3.194E-009 261 E13BW2R6 17 2.019E-007 262 E13BW2R6 18 6.908E-008 263 E13BW3D6 4 ------E---- 264 E13BW3D6 8 5.828E-008

  • 265 266 El3BW3R10 El3BW3Rl0 03 04
                                                                 ------E----
                                                                 ------E----

267 El3BW3Rl0 06 ------E---- 268 E13BW3Rl0 09 ------E---- 269 El3BW3R10 10 l.499E-009 270 E13BW3R10 12 ------E---- 271 El3BW3R6 ~3 ------E---- 272 El3BW3R6 04 ------E---- 1994/01/28 10:07:45 page 17 M-17.

Family Seq No. 

       . RHRTEST Event.Tree 273 El3BW3R6 SEQUENCE

SUMMARY

REPORT case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 06 

                                                                ------E----

274 E13BW3R6 09 

                                                                ------E----

275 E13BW3R6 10 7.342E-008 276 E13BW3R6 12 5.048E-009 277 E13BW4D6 4 

                                                                ------E----

278 El3BW4D6 8 6.094E-009 279 El3BW4Rl0 04 ----- .E---- 280 E13BW4R10 06 

                                                                ------E----

281 E13BW4R10 10 2.773E-O 282 E13BW4Rl0 12 6.535E-009 283 E13BW4R6 04 

                                                                ------E----

284 El3BW4R6 06 

                                                                ------E----

I 285 E13BW4R6 10 J:.900E-010 286 E13BW4R6 12 8.367E-010 287 E1W1D6 3 

                                                                ------E----
 *288  E1W1D6           4                                    .. ------E----

1994/01/28 10:07:45 page . 18 M-18

SEQUENCE

SUMMARY

REPORT RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event *Tree Sequence Name Upper Bound 289 E1W1D6 7 2.373E-008 290 E1W1D6 8 2.172E-008 291 ElWlR6 03 . ~------E---- 292 ElWlR6 04 ------E---- 293 ElWlR6 05 ------E---- 294 ElWlR6 08 ------E---- 295 E1WlR6 09 ------E---- 296

  • E1WlR6 12 ------E----

297 ElWlR6 13 ------E---- 298 ElWlR6 14 -----,,-E---- 299 E1WlR6 17 1.549E-009 300 ElWlR6 18 1.405E-009 301 E1W2D6 04 ------E---- 302 E1W2D6 05 ------E---- 303 E1W2D6 09 l.023E-007 304 E1W2D6 10 3.449E-008 1994/01/28 10:07:45 page 19

SEQUENCE

SUMMARY

REPORT Family RHRTEST' Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 305 ---------------- ElW2R6 ---------------- 03 ----------- 

                                                              ------E----

306 E1W2R6 04 ------E---- 307 E1W2R6 05 ------E---- 308 E1W2R6 08 ------E---- 309 E1W2R6 09 ------E---- 310 ElW2R6 12 2.863E-010 311 E1W2R6 13 ------E---- 312 E1W2R6 14 8. 545E-010. 313 E1W2R6 17 5.689E-O. 314 E1W2R6 18 1.873E-008 315 E1W3D6 4 ------E---- 316 E1W3D6 8 1.172E-008 317 ElW3RlO 03 ------E---- 318 ElW3RlO 04 ------E---- 319 ElW3RlO 06 ------E---- 320. ElW3RlO 09 -------E---- 1994/01/28 10:07:45 page 20 M-20

    • Family Seq No.
        . RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 321 E1W3R10 ---------------- 10 ----------- 3.325E-010 322 E1W3R10 12 ------E---- 323 E1W3R6 03 ------E---- I 324 E1W3R6 04 

                                                                 ------E----

325 E1W3R6 06 -------E---- 326 E1W3R6 09 ------E---- 327 E1W3R6 10 5.381E-009 328 E1W3R6 12 l.413E-009

  • 329 330 E1W4D6 E1W4D6 4

8 

                                                                 ------E----

2.016E-009 331 E1W4Rl0 04 ------E---- 332 ElW4RlO 06 ------E----

  • 333 ElW4RlO 10 3.627E-009 334 ElW4RlO 12 8.965E-009 335 ElW4R6 04 ------E----

336 ElW4R6* 06 ------~---- 1994/01/28 10:07:45 page 21 M-21

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM MinCUt Upper Bound 337 E1W4R6 10 ------E---- 338 ElW4R6 12 1.794E-010 339 E2W1D6 3 5.859E-008 340 E2W1D6 4 5.409E-008 341 E2W1D6 7 1.206E-009 342 E2W1D6 8 1.014E-009 343 E2W1R6 03 ------E---- 344 E2WlR6 04 ------E---- 345 E2WlR6 05 E2WlR6 

                                                                ------E--*

346 08 3.755E-009 347 E2W1R6 09 3.390E-009 348 E2WlR6 12 ------E---- 349 E2WlR6 13 ------E---- 350 E2WlR6 14 ------E---- 351 E2WlR6 17 ------E---- 352 E2WlR6 18 ------E---- 1994/01/28 10:07:45 page 22 M-22

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut 

                                                                 -~--all!,. ____ _

Upper Bound 353 E2W2D6 04 2.422E-007 354 E2W2D6 05 8.172E-008 355 E2W2D6 09 3.703E-009 356 E2W2D6 10 l.165E-009 357 E2W2R6 03 9.132E-010 358 E2W2R6 04 -----* E---- 359 E2W2R6 05 2.146E-009 360 E2W2R6 08 l.~56E-007 361 E2W2R6 09 4.532E-008 362 E2W2R6 12 ------E---- 363 .E2W2R6 13 *------E---- 364 E2W2R6 14 ---..---E---- 365 E2W2R6 17 2.075E-009 366 E2W2R6 18 5.961E-010 367 E2W3D6 4 3.052E-008 368 E2W3D6 8 6.330E-010 1994/01/28 10:07:45 page 23 M-23

SEQUENCE

SUMMARY

REPORT Family RHR'l'EST Case: CURREH'l' Analysis: RANDOM Seq Mincut Ho. Event 'l'ree Sequence Name Upper Bound 369 E2W3Rl0 03 ------E---- 370 E2W3Rl0 04 1.042E-009 371 E2W3Rl0 06 ------E---- 372 E2W3Rl0 09 ------E---- 373 .E2W3Rl0 10 --.----E---- 374 E2W3Rl0 12 ------t---- 375 E2W3R6 03 ------E---- 3'76 E2W3R6 04 1.408E-008 377 E2W3R6 06 3.232E-O 378 E2W3R6 09 ------E---- 379 E2W3R6 10 *1.518E-Ol0 380 E2W3R6 12 ------E---- 381 E2W4D6 4 4.371E-009 382 E2W4D6 8 ------E---- 383 E2W4Rl0 04 8.614E-009 384 E2W4Rl0 06 3.251E-009 1994/01/28 10:07:45 page 24 M-24

  • Family Seq No.

RHRTEST Event.Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 385 E2W4R10 10 

                                                                    ------E----

386 E2W4R10 12 1.084E-010 387 E2W4R6 04 2.164E-010 388 E2W4R6 06 5.051E-010 389 E2W4R6 10 ------E--- 390 E2W4R6 12 ------E---- 391 E3W1D6 3 5.859E-008 392 E3W1D6 4 5.409E-008 393 E3W1D6 7 l.206E-009 394 E3W1D6 8 1. 014E-009 395 E3WlR6 03 ------E---- 396 E3WlR6 04 ------E---- 397 E3WlR6 05 ------E----

f98 E3WlR6 08 3.755E-009 399 E3W1R6 09 3.390E-009 400 E3WlR6 12 -*-----E----

1994/01/28 10:07:45 page 25

  • M-25

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis: RANDOM Seq MinCut No. Event Tree Sequence Name Upper-Bound 401 ---------------- E3W1R6 13 

                                                               ------E----

402 E3WlR6 .14 ----,--E---- 403 E3W1R6 17 ------E---- 404 E3W1R6 18 ------E---- 405 E3W2D6 04 2.422E-007 406 E3W2D6 05 8.172E-008 407 E3W2D6 09 3.703E-009 408 E3W206 10 l.165E-009 409 E3W2R6 03 9.132E-O. 410 *E3W2R6 04 . ------E_---- 

 -411   E3W2R6         05                                       2.146E-009 412   E3W2R6         08                                       1.356E-007 413   E3W2R6         09                                       4.532E-008 414   E3W2R6         12                                      ------E----

415 EJW2R6 13 ------E---* 416 .EJW2R6 14 ------E---- 1994/01/28 10:07:45 page 26 M-26

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT case: CURRENT Sequence Name Analysis,: RANDOM Mincut Upper Bound 417 E3W2R6 17 ----------- 2.075E-009 418 E3W2R6 18 5.961E-010 419 E3W3D6 4 3.052E-008 420 E3W3D6 8 6.330E-010 421 E3W3Rl0 03 ------E---- 422 E3W3Rl0 04 1.042E-009 423 E3W3Rl0 06 ------E---- 424 E3W3Rl0 09 ------E---- 425 E3W3Rl0 10 ------E---- 426 E3W3Rl0 12 ------E---- 427 E3W3R6 03 

                                                                  ------E----

428 E3W3R6 04 l.408E-008 429 E3W3R6 06 3.232E-009 430 E3W3R6 09 ------E---- 431 E3W3R6 10 l.518E-010 432 E3W3R6 12 ------E---- 1994/01/28 10:07:45 page 27 M-27

SEQUENCE

SUMMARY

REPORT ~ Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 433 E3W4D6 4 4.371E-009 434 E3W4D6 8 ------E---- 435 E3W4Rl0 04 8.614E-009 436 E3W4R10 06 3.251E-009 437 E3W4R10 10 ------E---- 438 E3W4R10 12 1.084E-010 439 E3W4R6 04 2.164E-010 440 E3W4R6 06 5.051E-010 441 E3W4R6 10 ------E-- 442 E3W4R6 12 ------E---- 443 E4W1D6 2 ------E---- 444 E4W1D6 3 3.680E-007 445 E4W1R6 2 ------E---- 446 E4WlR6 3 ------E---- 447 E4W1R6 4 2.530E-010 448 E4WlR6 7 ------E---- 1994/01/28 10:07:45 page 28 M-28

  • Fam,ily Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 449 E4W1R6 8 2.504E-008 450 E4W2D6 3 ------E---- 451 E4W2D6 4 1. 370E-006 452 E4W2R6 2 ------E---- 453 E4W2R6 3 ------E---- 454 E4W2R6 4 4.045E-008 455 E4W2R6 7 ------E---- 456 E4W2R6 8 7.685E-007 457 E4W3D6 3 2.242E-007 458 E4W3R10 2 ------E---- 459 E4W3R10 3 3.779E-009 460 E4W3R10 5 4.199E-010 461 E4W3R6 2 ------E---- 462 E4W3R6 3 1.044E-007 463 E4W3R6 5 1.160E-008 464 E4W4D6 3 8.172E-009 1994/01/28 10:07:45 page 29 M-29

SEQUENCE

SUMMARY

REPORT ~ Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut

  • No. E.vent Tree Sequence Name Upper Bound 465 E4W4R10 3 1.468E-008 466 E4W4R10 5 3.427E-008 467 E4W4R6 3 5.475E-010*
  -468 E4W4R6           5                                        1. 277E-009 469 E5W1D6           2                                       ------E----

470 E5W1D6 3 3.680E-007 I 471 E5W1R6 2 ------E---- 472 E5WlR6 3 ------E---- 473 E5WlR6 4 2.530E-O 474 E5W1R6 7 ------E---- 475 E5WlR6 8 2.504E-008 476 E5W2D6 3 ------E---- 477 E5W2D6 4 l.370E-006 478 E5W2R6 2 ------E---- 479 E5W2R6 3 ------E---- 480 E5W2R6 4 4.045E-008 1994/01/28 10:07:45 page 30 M-30

SEQUENCE

SUMMARY

REPORT Family . RHRTEST case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 481 E5W2R6 7 

                                                                 ------E----

482 E5W2R6 8 7.685E-007 483 E5W3D6 3 2.242E-007 I 484 E5W3Rl0 2 ------E---- 485 E5W3Rl0 3 3.779E-009 486 E5W3Rl0 5 4.199E-010 487 E5W3R6 2 ------E---- 488 E5W3R6 3 1.044E-007 489 E5W3R6 5 l.160E-008 490 E5W4D6 3 8 .172E-009 491 E5W4Rl0 3 1.468E-008 492 E5W4Rl0 5 3.427E-008 493 E5W4R6 3 5.475E-010 494 E5W4R6 5 1. 277E-009 495 E6W1D6 2 9.993E-009 496 E6W1D6 3 2.260E-008 1994/01/28 10:07:45 page 31 M-31

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT sequence Name Analysis: RANDOM MinCut Upper Bound 497 E6W1R6 2 ------E---- 498 E6WlR6 3 ------E---- 499 E6W1R6 4 ------E---- 500 E6WlR6 7 1.697E-009 501 E6W1R6 8 1.515E-009 502 E6W2D6 3 8.255E-008 503 E6W2D6 4 3.934E-008 504 E6W2R6 2 J.552E-010 505 E6W2R6 3 ------E-506 E6W2R6 4 l.193E-009 507 E6W2R6 7 4.567E-008 508 E6W2R6 8 2.181E-008 509 E6W3D6 3 5.524E-009 510 E6W3R10 2 ------E---- 511 E6W3Rl0 3 4.155E-010 512 E6W3R10 5 ------E---- 1994/01/28 10:07:45 page 32 M-32

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 513 E6W3R6 2 

                                                                  ------E----

514 E6W3R6 3 2.544E-009 515 E6W3R6 5 6.440E-012 516 E6W406 3 . 3 .19SE-009 517 E6W4Rl0 3 5.817E-009 518 E6W4Rl0 5 6.226E-010 519 E6W4R6 3 2.122E-010 520

  • E6W4R6 5 4~952E-010
  • 521 522 E7Wl06 E7Wl06 3

4 

                                                                  ------E----
                                                                  ------E----

523 E7Wl06 7 2.BSSE-007 524 E7Wl06 8 l.963E-007 525 E7WlR6 03 ------E---- 526 E7WlR6 04 ------E---- 527 E7WlR6 OS ---_;--E---- 528. E7WlR6 08 ------E---- 1994/01/28 10:07:45 page 33 M-33

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event.Tree Sequence Name 529 E7WlR6 ---------------- 09 Upper Bound 

                                                                 ------E----

530 E7WlR6 12 ------E---- 531 E7WlR6 13 ------E---- 532 E7WlR6 14 ------E---- 533 E7WlR6 17 2.llOE-008 534 E7WlR6 18 l.670E-008 535 E7W2D6 04 ------E---- 536 E7W2D6 05 ------E---- 537 E7W2D6 09 8.854E-OO 538 E7W206 10 3.317E-007 539 E7W2R6 03 ------E---- 540 E7W2R6 04 ------E---- 541 E7W2R6 05 ------E---- I 542 E7W2R6 08 ------E---- 543 E7W2R6 09 ------E---- 544 E7W2R6 12 6.722E-009 1994/01/28 10:07:45 page 34 M-34

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 545 E7W2R6 13 ------E---- 546 E7W2R6 14 1.283E-008 547 E7W2R6 17 7.449E-007 548 E7W2R6 18 2.999E-007 549 E7W3D6 4 ------E---- 550 E7W3D6 8 1. 260E-008 551 E7W3R10 03 ------E---- 552 E7W3R10 04 ------E---- 553 E7W3R10 06 ------E---- 554 E7W3R10 09 ------E---- 555 E7W3R10 10 l.093E-009 556 E7W3R10 12 ------E----, 557 E7W3R6 03 ------E---- 558 E7W3R6 04 ------E---- 559 E7W3R6 06 ------E---- 560 E7W3R6 09 ------E---- 1994/01/28 10:07:45 page 35 M-35

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 561 E7W3R6 10

1. 041E-008 562 E7W3R6 12 9.792E-010 563 E7W4D6 4 ------E----

564 E7W4D6 8 9.410E-010 565 E7W4Rl0 04 ------E---- 566 E7W4R10 06 ------E---- 567 E7W4R10 10 5.325E-009 568 E7W4R10 12 6.823E-009 569 E7W4R6 04 ------E-- 570 E7W4R6 06 ------E---- 571 E7W4R6 10 ------E---- 572 E7W4R6 12 1.379E-010 573 EBW106 1-3 ------E---- 574 E8W1D6 1-4 ------E---- 575 E8W1D6 2 4.179E-009 576 E8W1D6 3 1.687E-008 1994/01/28 10:07:45 page 36 M-36

SEQUENCE

SUMMARY

REPORT Family RHRTEST case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound

E8WlR6 577 1-3 ------E----

578 E8WlR6 1-4 ------E---- 579 E8WlR6 1-5 ------E---- 580 E8WlR6 2 ------E---- 581 E8WlR6 3 ------E---- 582 E8WlR6 4 ------E---- 583 E8WlR6 5-8 ------E---- 584 E8WlR6 5-9 ------E---- 585 E8WlR6 7 2.824E-010 586 E8WlR6 8 l.131E-009 587 E8W2D6 1-4 ------E---- 588 E8W2D6 1-5 ------E---- 589 E8W2D6 3 J.815E-008 590 E8W2D6 4 4.007E-008 591 E8W2R6 1-3 ------E---- 592 E8W2R6 1-4 ------E---- 1994/01/28 10:07:45 page 37 M-37

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM MinCUt Upper Bound 593 E8W2R6 1-5 ------E---- 594 E8W2R6 2 2.295E-009 595 E8W2R6 3 ------E---- 596 E8W2R6 4 l.170E-010 597 E8W2R6 5-8 ------E---- 598 E8W2R6 5-9 ------E---- 599 E8W2R6 7 2.119E-008 600 E8W2R6 8 2.234E-008 601 E8W3D6 1-4 ------E--- 

  . 602  E8W3D6           .4                                        3.445E-008 603  E8W3Rl0           1-3                                     ------E----

604 E8W3Rl0 1-4 ------E---- 605 E8W3R10 3 ------E---- 606 E8W3Rl0 4 5.287E-010 607 E8W3R10 5-6 ------E---- 608 E8W3Rl0 7 ------E---- 1994/01/28 10:07:45 page 38 M-38

I SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 609 E8W3R6 1-3 

                                                               -------E----

610 E8W3R6 1-4 ------E---- 611 E8W3R6 3 ------E---- 612 E8W3R6 4 1. 601E-008 613 E8W3R6 5-6 ------E---- 614 E8W3R6 7 1.794E-009 615 E8W4D6 1-4 ------E---- 616 E8W4D6 4 2.499E-009 617 E8W4R10 1-4 ------E---- 618 E8W4R10 4 4.523E-009 619 E8W4R10 5-6 ------E---- 620 E8W4R10 7 l.073E-008 621 E8W4R6 1-4 ------E---- 622 E8W4R6 4 l.463E-010 623 E8W4R6 5-6 ------E---- 624 E8W4R6 7 3.415E-010 1994/01/28 10:07:45 page 39 M-39

SEQUENCE

SUMMARY

REPORT

  • Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 625 E9W1D6 3 9.413E-010 626 E9W1D6 4 1.123E-009 627 . E9WlR6 3 ------E----

628 E9WlR6 4 ------E---- 629 E9WlR6 5 ------E---- 630 E9WlR6 8 ------E---- 631 E9W1R6 9 ------E---- 632 E9W2D6 4 5.747E-010 633 E9W2D6 5 ------E---* 634 E9W2R6 3 ------E---- 635 E9W2R6 4 ------E---- 636 E9W2R6 5 ------E---- 637 E9W2R6 8 7.424E-010 638 E9W2R6 9 ------E---- 639 E9W3D6 4 ------E---- 640 E9W3Rl0 3 ------E---- 1994/01/28 10:07:45 page 40 M-40

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 641 E9W3R10 4 ------E---- 642 E9W3R10 6 ------E---- 643 E9W3R6 3 ------E---- 644 E9W3R6 4 ------E---- 645 E9W3R6 6 ------E---- 646 E9W4D6 4 ------E---- 647 E9W4R10 4 ------E---- 648 E9W4R10 6 ------E----

  • 649 650 E9W4R6 E9W4R6 4

6 

                                                                 ------E----
                                                                 ------E----

651 M12W1D6 3 ------E---- 652 M12W1D6 4 ------E---- 653 M12W1D6 7 ------E---- 654 M12W1D6 8 ------E---- 655 M12W1R6 03 ------E---- 656 M12W1R6 04 ------E---- 1994/01/28 10:07:45 page 41 M-41

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 657 Ml2WlR6 ---------------- 05 ----------- 

                                                               ------E----

658 Ml2WlR6 08 ------E---- 659 Ml2WlR6 09 ------E---- 660 Ml2WlR6 12 ------E---- 661 Ml2WlR6 13 ------E---- 662 Ml2W1R6 14 ------E---- 663 Ml2WlR6 17 ------E---- 664 Ml2WlR6 18 ------E---- 665 Ml2W2D6 04 ------E-- 666 Ml2W2D6 05 ------E---- 667 Ml2W206 09 ------E---- 668 Ml2W206 10 ------E---- . 669 Ml2W2R6 03 ------E---- 670 Ml2W2R6 04 ------E---- 671 Ml2W2R6 05 ------E---- 672 Ml2W2R6 08 ------E---- 1994/01/28 10:07:45 page 42 M-42

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM MinCUt Upper Bound 673 M12W2R6 09 ------E---- 674 M12W2R6 12 ------E---- 675 M12W2R6 13 ------E---- 676 M12W2R6 14 ------E---- 677 M12W2R6 17 ------E---- 678 M12W2R6 18 ------E---- 679 M12W3D6 4 ------E---- 680 M12W3D6 8 ------E---- 681 M12W3Rl0 03 ------E---- 682 M12W3Rl0 04 ------E---- 683 M12W3R10 06 ------E---- 684 Ml2W3R10 09 ------E---- 685 Ml2W3R10 10 ------E---- 686 M12W3R10 12 ------E---- 687 M12W3R6 03 ------E---- 688 M12W3R6 04 ------E---- 1994/01/28 10:07:45 page 43

  • M-43

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 689 M12W3R6 06 ------E---- 690 M12W3R6 09 ------E---- 691 M12W3R6 10 ------E---- 692 Ml2W3R6 12 ------E---- 693 M12W4D6 4 ------E---- 694 M12W4D6 8 ------E---- 695 M12W4R10 04 ------E---- 696 M12W4Rl0 06 ------E---- 697 M12W4R10 10 

                                                                ------E--*

698 M12W4R10 12 ------E---- 699 M12W4R6 04 ------E---- 700 M12W4R6 06 ------E---- 701 M12W4R6 10 ------E---- 702 M12W4R6 12 ------E---- 703 M13W1D6 3 ------E---- 704 Ml3W1D6 4 1. 291E-009 1994/01/28 10:07:45 page 44 M-44

  • Family Seq No.

RHRTEST Event.Tree SEQUENCE

SUMMARY

REPORT case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 705 Ml3W1D6 7 ------E---- 706 Ml3W1D6 8 ------E---- 707 Ml3WlR6 03 ------E---- 708 Ml3WlR6 04 ------E---- 709 Ml3WlR6 05 ------E---- 710 Ml3WlR6 08 ------E---- 711 Ml3WlR6 09 ------E---- 712 Ml3WlR6 12 ------E---- 713 Ml3WlR6 13 ------E---- 714 Ml3WlR6 14 ------E---- 715 Ml3WlR6 17 ------E---- 716 Ml3WlR6 18 ------E---- 717 Ml3W2D6 04 ------E---- 718 Ml3W2D6 05 2.875E-009 719 Ml3W2D6 09 ------E---- 720 Ml3W2D6 10 ------E---- 1994/01/28 10:07:45 page 45

  • M-45

SEQUENCE

SUMMARY

REPORT Family RHRTEST case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 721 M13W2R6 03 

                                                               ------E----

722 M13W2R6 04 ------E---- 723 M13W2R6 05 ------E---- 724 M13W2R6 08 ------E---- 725 Ml3W2R6 09 l.601E-009 726 Ml3W2R6 12 ------E---- 727 Ml3W2R6 13 ------E---- 728 M13W2R6 14 

                                                                ------E----

729 M13W2R6 17 ------E-- 730 M13W2R6 18 ------E---- 731 Ml3W306 4 2.480E-009 732 Ml3W306 8 ------E---- 733 Ml3W3Rl0 03 ------E---- 734 Ml3W3R10 04 ------E---- 735 M13W3Rl0 06 ------E---- 736 Ml3W3R10 09 ------E---- 1994/01/28 10:07:45 page 46 M-46

SEQUENCE

SUMMARY

REPORT . . .amily RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 737 Ml3W3Rl0 10 ------E---- 738 Ml3W3Rl0 12 ------E---- 739 Ml3W3R6 03 ------E---- 740 Ml3W3R6 04 1. 080E-009 741 Ml3W3R6 06 1.200E-010 742 M13W3R6 09 ------E---- 743 M13W3R6 10 ------E---- 744 M13W3R6 12 ------E---- 745 M13W4D6 4 ------E---- 746 M13W4D6 8 ------E---- 747 M13W4Rl0 04 -----:-E---- 748 M13W4R10 06 ------E---- 749 M13W4R10 10 ------E---- 750 M13W4R10 112 ------E---- 751 M13W4R6 04 ------E---- 752 M13W4R6 06 ------E---- 1994/01/28 10:07:45 page 47 M-47

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis: RANDOM Seq MinCut Ho. Event Tree Sequence Name Upper Bound 753 Ml3W4R6 10 ------E---- 754 M13W4R6 12 ------E---- 755 M1Wl06 2 1.848E-009 756 M1W1D6 3 1.453E-009 757 M1WlR6 2 ------E---- 758 M1W1R6 3 ------E---- 759 M1WlR6 4 ------E---- 760 M1W1R6 7 ------E---- 761 M1WlR6 8 ------E-762 M1W2D6 3 ------E---- 763 M1W2D6 41 5.034E-010 764 M1W2R6 2 ------E---- 765 M1W2R6 3 ------E---- 766 M1W2R6 4 ------E---- 767 M1W2R6 7 

                                                               ------E----

768 M1W2R6. 8 1. 255E-009. 1994/01/28 10:07:45 page 48 M-48

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event.Tree Si!quence Name Upper Bound 769 M1W3D6 3 .4. 319E-010 770 M1W3R10 2 ------E---- 771 M1W3R10 3 ------E---- 772 M1W3R10 5 ------E---- 773 M1W3R6 2 ------E---- 774 M1W3R6 3 l.369E-010 775 M1W3R6 5 l.112E-010 776 M1W4D6 3 ------E---- I 777 M1W4R10 3 ------E---- 778 M1W4R10 5 ------E---- 779 M1W4R6 3 ------E---- 780 M1W4R6 5 ------E----* 781 M3W1D6 3 l.638E-009 782 M3W1D6 4 2.592E-008 783 M3W1D6 7 ------E---- 784 M3W1D6 8 6.446E-010 1994/01/28 10:07:45 page 49 M-49

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis: RANDOM Seq MinCut No. Event Tree Sequence Name Upper Bound 785 M3W1R6 03 ------E---- 786 M3W1R6 04 ------E---- 787 M3W1R6 05 ------E--:..- 788 M3W1R6 08 ------E---- 789 .M3W1R6 09 5.235E-010 790 M3W1R6 12 ------E-""."-- 791 M3W1R6 13 ------E---- 792 M3W1R6 14 ------E---- 793 M3W1R6 17 ------E---* 794 M3W1R6 18 ------E---- 795 M3W2D6 04 ------E---- 796 M3W2D6 05 7.895E-010 797 M3W2D6 09 3.127E-010 798 M3W2D6 10 ------E---- 799 M3W2R6 03 ------E---- 800 M3W2R6 04 ------E---- 1994/01/28 10:07:45 page 50 M-50

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 801 M3W2R6 05 2.388E-010 802 M3W2R6 08 ------E----

  • 803 M3W2R6 09 3.518E-009 804 M3W2R6 12 ------E----

805 M3W2R6 13 ------E---- 806 M3W2R6 14 ------E---- 807 M3W2R6 17 4.180E-010 808 M3W2R6 18 ------E---- 809 M3W3D6 4 6.812E-010 810 M3W3D6 8 ------E---- 811 M3W3Rl0 03 ------E---- 812 M3W3Rl0 04 l.179E-010 813 M3W3Rl0 06 ------E---- 814 M3W3Rl0 09 ------E---- 815 M3W3Rl0 10 ------E---- 816 M3W3Rl0 12 ------E---- 1994/01/28 10:07:45 page 51 M-51

SEQUENCE

SUMMARY

REPORT Family . RHRTEST Case: CURRENT Analysis~ RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 817 M3W3R6 03 ------E---- 818 M3W3R6 04 3.376E-009 819 M3W3R6 06 3.619E-010 820 M3W3R6 09 ------E---- 821 M3W3R6 10 ------E---- 822 M3W3R6 12 ------E---- 823 M3W4D6 4 ----~-E---- 824 M3W4D6 8 ------E---- 825 M3W4R10 04 ------E-- 826 M3W4R10 06 2.278E-010 827 M3W4R10 10 ------E---- 828 M3W4R10 12 ------E---- 829 M3W4R6 04 ------E---- 830 M3W4R6 06 ------E---- 831 M3W4R6 10 ------E---- 832 M3W4R6 12 ------E---- 1994/01/28 10:07:45 page 52 M-52

  • Family Seq No.
         .. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 833 M4W1D6 2 ------E---- 834 M4W1D6 3 l.OOOE-008 835 M4WlR6 2 ------E---- 836 M4WlR6 3 ------E---- 837 M4WlR6 4 ------E---- 838 M4WlR6 7 ------E---- 839 M4WlR6 8 2.979E-010 840 M4W2D6 3 ------E---- 841 M4W2D6 4 9.606E-009 842 M4W2R6 2 ------E---- 843 M4W2R6 3 ------E---- 844 M4W2R6 4 1.090E-009 845 M4W2R6 7 ------E---- 846 M4W2R6 8 l.598E-008 847 M4W3D6 3 8.267E-009 848 M4W3R10 2 ------E---- 1994/01/28 10:07:45 page 53 M-53

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 849 M4W3R10 3 5.382E-010 850 M4W3Rl0 5 ------E---- 851 M4W3R6 2 ------E---- 852 M4W3R6 3 1. 485E-009 853 M4W3R6 5 1.650E-009 854 M4W4D6 3 l.232E-009 855 M4W4R10 3 2.373E-010 856 M4W4Rl0 5 5.538E-010 857 M4W4R6 3 4.llOE-01 858 M4W4R6 5 9.590E-010 859 M5W1D6 2 ------E---- 860 M5W1D6 3 ------E---- 861 M5WlR6 2 ------E---- 862 M5W1R6 3 ------E---- 863 M5W1R6 4 ------E---- 864 M5W1R6 7 ------E---- 1994/01/28 10:07:45 page 54 M-54

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq MinCUt No. Event Tree Sequence Name Upper Bound 865 M5WlR6 8 

                                                                  ------E----

866 M5W2D6 3 ------E---- 867 M5W2D6 4 ------E---- 868 M5W2R6 2 ------E---- 869 M5W2R6 3 ------E---- 870 M5W2R6 4 ------E---- 871 M5W2R6 7 ------E---- 872 M5W2R6 8 ------E---- 873 M5W3D6 3 ------E. .--- 874 M5W3Rl0 2 

                                                                  ------E----,*
                                                                          /

875 M5W3Rl0 3 

                                                                  ------E----

876 M5W3Rl0 5 ------E---- 877 M5W3R6 2 ------E---- 

    -878  M5W3R6           3                                      ------E----

879 M5W3R6 5 -----,-E---- 880 M5W4D6 3 ------E---- 1994/01/28 10:07:45 page 55

  • M-55

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree sequence Name Upper Bound 881 M5W4Rl0 3 ------E---- 882 M5W4Rl0 5 ------E---- 883 M5W4R6 3 ------E---- 884 M5W4R6 5 ------E---- 885 M8W1D6 2 ------E---- 886 M8W1D6 3 1.591E-009 887 M8W1R6 2 ------E---- 888 M8W1R6 3 ------E---- 889 M8W1R6 4 ------E---* 890 M8W1R6 7 ------E---- 891 M8WlR6 8 ------E---- 892 M8W2D6 3 4.408E-010 893 M8W2D6 4 1.006E-009 894 M8W2R6 2 ------E---- 895 M8W2R6 3 ------E---- 896 M8W2R6 4 ------E---- 1994/01/28 l:0:07:45 page 56 M-56

SEQUENCE

SUMMARY

REPORT 

         . RHRTEST              case: CURRENT     Analysis: RANDOM Seq                                                               Mincut No.       Event Tree      Sequence Name                        Upper Bound 897 M8W2R6            7                                        1. 297E-009 898  M8W2R6           8                                        l.993E-009 899  M8W3D6           3                                        8.682E-010 900  M8W3R10          2                                      ------E----

901 M8W3R10 3 ------E---- 902 M8W3R10 5 ------E---- 903 M8W3R6 2 ------E---- 904 M8W3R6 3 6.487E-010 905 M8W3R6 5 1.682E-010 906 M8W4D6 3 ------E---- 907 M8W4R10 3 2.268E-010 908 M8W4R10 5 5.294E-010 909 M8W4R6 3 ------E---- 910 M8W4R6 5 ------E---- 911 M9W1D6 2 ------E---- 912 M9W1D6 3 ------E---- 1994/01/28 10:07:45 page 57

  • M-57

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 913 M9WlR6 2 

                                                                    ------E----

914 M9WlR6 3 

                                                                    ------E----

915 M9WlR6 4 

                                                                    ------E----

916 M9WlR6 7 ------E---- 917 M9WlR6 8 

                                                                    ------E----

918 M9W2D6 3 

                                                                    ------E----

919 M9W2D6 4 

                                                                    ------E----

920 M9W2R6 2 

                                                                    ------E----

921 M9W2R6 3 

                                                                    ------E--*

922 M9W2R6 4 

                                                                    ------E----

923 M9W2R6 7 

                                                                    ------E----

924 M9W2R6 8 

                                                                    ------E----

925 M9W3D6 31 ------E---- 926 M9W3Rl0 2 

                                                                    ------E----

927 M9W3Rl0 3 ------E---- 928 M9W3Rl0 5 ------E---- 1994/01/28 10:07:45 page 58 M-58

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound

--------~------- ----------------

929 M9WJR6 2 ------E---- 930 M9WJR6 3 ------E---- 931 M9W3R6 5 ------E---- 932 M9W406 3 

                                                                 ------E----

933 M9W4Rl0 3 ------E---- 934 M9W4Rl0 5 ------E---- 

  .935   M9W4R6           3                                      ------E----

936 M9W4R6 5 ------E---- 937 MAW1D6 3 ------E---- 938 MAW106 4 2.902E-009 939 MAW1R6 2 ------E----

  • 940 MAW1R6 3
                                                                 ------E----

941 MAW1R6 4 ------E---- 942 MAW1R6 7 4.860E-010 9'43 MAW1R6 8 7.665E-010 944 MAW2D6 3 ------E---- 1994/01/28 10:07:45 page 59 M-59

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event.Tree Sequence Name Upper Bound 945 MAW2D6 4 ------E---- 946 MAW2R6 2 ------E---- 947 MAW2R6 3 ------E---- 948 MAW2R6 4 1.327E-010 949 MAW2R6 7 1.724E-009 950 MAW2R6 8 1.943E-008 951 MAW306 31 9.806E-009 952 MAW3R10 2 ------E---- 953 MAW3R10 3 ------E--* 954 MAW3R10 5 ------E---- 955 MAW3R6 2 ------E---- 956 MAW3R6 3 3.097E-009 957 MAW3R6 5 1.469E-009 958 MAW4D6 3 ------E---- 959 MAW4R10 3 4.578E-010 960 MAW4R10 5 1. 544E-009 1994/01/28 10:07:45 page 60 M-60

SEQUENCE

SUMMARY

REPORT Family RHRTEST case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 961 MAW4R6 3 ------E---- 962 MAW4R6 5 ------E---- 963 MCW1D6 2 3.681E-010 964 MCW1D6 3 4.255E-010 965 MCW1R6 2 ------E---- 966 MCW1R6 3 ------E---- 967 MCW1R6 4 ------E---- 968 MCW1R6 7 ------E---- 969 MCW1R6 8 ------E---- 970 MCW2D6 3 ------E---- 971 MCW2D6 4 l.473E-010 972 MCW2R6 2 ------E---- 973 MCW2R6 3 ------E---- 974 MCW2R6 4 ------E---- 975 MCW2R6 7 ------E---- 976 MCW2R6 8 2.872E-010 1994/01/28 10:07:45 page 61

  • M-61

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 977 MCW3D6 3 1. 266E-010 978 MCW3R10 2 ------E---- 979 MCW3Rl0 3 ------E---- 980 MCW3R10 5 ------E---- 981 MCW3R6 2 ------E---- 982 MCW3R6 3 ------E---- 983 MCW3R6 5 ------E---- 984 MCW4D6 3 ------E---- 985 MCW4Rl0 3 ------E--~ 986 MCW4R10 5 ------E---- 987 MCW4R6 3 .------E---- 988 MCW4R6 5 ------E---- 989 MDW1D6 2 

                                                                ------E----

990 MDW1D6 3 ------E---- 991 MDW1R6 2 ------E---- 992 MDW1R6 3 

                                                                ------E----

1994/01/28 10:07:45 page 62 M-62

  • Family Seq No.

RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name 

                         -~--------------

Analysis: RANDOM Mincut Upper Bound 993 MDW1R6 4 ------E---- 994 MDW1R6 7 ------E---- 995 MDW1R6 8 ------E---- 996 MDW2D6 3 ------E---- 997 MDW2D6 4 ------E---- 998 MDW2R6 2 ------E---- 999 MDW2R6 3 

                                                                ------E----

1000 MDW2R6 4 ------E---- 1001 MDW2R6 7 --- .--E-* -- 1002 MDW2R6 8 ------E---- 1003 MDW3D6 3 ------E---- 1004 MDW3Rl0 2 ------E---- 1005 MDW3Rl0 3 ------E---- 1006 MDW3Rl0 5 ------E---- 1007 MDW3R6 2 ------E----* 1008 MDW3R6 3 ------E---- 1994/01/28 10:07:45 page 63 M-63

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree sequence Name Upper Bound 1009 MDW3R6 5 

                                                                ------E----

1010 MDW4D6 3 ------E---- 1011 MDW4R10 3 ------E---- 1012 MDW4Rl0 5 ------E---- 1013 MDW4R6 3 ------E---- 1014 MDW4R6 5 ------E---- 1015 MGW1D6 3 ------E---- 1016 MGW106 4 ------E---- 1017 MGW1D6 7 l.059E-O 1018 MGW1D6 8 3.899E-010 1019 MGW1R6 03 ------E---- 1020 MGW1R6 04 ------E---- 1021 MGW1R6 05 ------E---- 1022 MGW1R6 08 ------E--**- 1023 MGW1R6 09 ------E---- 1024 MGW1R6 12 ------E---- 1994/01/28 10:07:45 page 64 M-64

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1025 MGW1R6 13 ------E---- 1026 MGW1R6 14 ------E---- 1027 MGW1R6 17 1.186E-010 1028 MGW1R6 18 ------E---- 1029 MGW2D6 04 ------E---- 1030 MGW2D6 05 ------E---- 1031 MGW2D6 09 ------E---- 1032 MGW2D6 10 ------E---- 1033 MGW2R6 03 ------E---- 1034 MGW2R6 04 ------E---- 1035 MGW2R6 05 ------E---- 1036 MGW2R6 08 ------E---- 1037 MGW2R6 09 ------E---- 1038 MGW2R6 12 ------E---- 1039 MGW2R6. 13 ---*---E---- 1040 MGW2R6 14 *------E---- 1994/01/28 10:07:45 page . 65 M-65

Family RHRTEST SEQUENCE

SUMMARY

REPORT Case: CURRENT Analysis: RANDOM tt Seq Mincut No. Event Tree Sequence Name Upper Bound 1041 ---------------- MGW2R6 ---------------- 17 3.664E-010 1042 MGW2R6 18 l.217E-010 1043 MGW3D6 4 ------E---- 1044 MGW3D6 8 ------E---- 1045 MGW3R10 03 ------E---- 1046 MGW3R10 04 ------E---- 1047 MGW3Rl0 06 ------E---- 1048 MGW3Rl0 09 

                                                               ------E----

1049 MGWJRlO 10 ------E--- 1050 MGWJRlO 12 

                                                               ------E----

1051 MGW3R6 03 ------E---- 1052 MGW3R6 04 ------E---- 1053 MGW3R6 06 ------E---- 1054 MGW3R6 09 ------E---- 1055 MGW3R6 10 

                                                               ------E----

1056 MGW3R6 12 

                                                               ------E----

1994/01/28 10:07:45 page 66 M-66

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1057 MGW4D6 4 

                                                                ------E----

1058 MGW4D6 8 ------E---- 1059 MGW4R10 04 ------E---- 1060 MGW4R10 06 ------E---- 1061 MGW4R10 10 ------E---- 1062 MGW4R10 12 ------E---- 1063 MGW4R6 04 ------E---- 1064 MGW4R6 06 ------E---- 1065 MGW4R6 10 ------E---- 1066 MGW4R6 12 ------E---- 1067 MHW1D6 3 ------E---- 1068 MHW1D6 4 ------E---- 1069 MHW1D6 7 ------E---- 1070 MHW1D6 8 5. 957E-010. 1071 MHW1R6 03 ------E---- 1072 MHW1R6 04 ------E---- 1994/01/28 10:07:45 page 67 M-67

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 1073 MHW1R6 ---------------- 05 

                                                                 ------E----

1074 MHW1R6 08 ------E---- 1075 MHW1R6 09 ------E---- 1076 MHW1R6 12 ------E---- 1077 MHW1R6 13 ------E----* 1078 MHW1R6 14 ------E---- 1079 MHW1R6 17 ------E---- 1080 MHW1R6 18 ------E---- 1081 MHW2D6 04 ------E-- 1082 MHW2D6 05 ------E---- 1083 MHW2D6 09 3.080E-010 1084 MHW2D6 10 ------E---- I I 1085 MHW2R6 03 ------E---- 1086 MHW2R6 04 ------E---- 1087 MHW2R6 cs ------E---- 1088 MHW2R6 08 ------E---- 1994/01/28 10:07:45 page 68 M-68

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1089 MHW2R6 09 ------E---- 1090 MHW2R6 12 ------E---- 1091 MHW2R6 13 ------E---- 1092 MHW2R6 14 ------E---- 1093 MHW2R6 17 3.97SE-010 1094 MHW2R6 18 ------E---- 1095 MHW3D6 4 ------E---- 1096 MHW3D6 8 ------E---- 1097 MHW3R10 03 ------E---- 1098 MHW3R10 04 ------E---- 1099 MHW3R10 06 ------E---- 1100 MHW3R10 09 ------E---- 1101 MHW3R10 10 ------E---- 1102 MHW3R10 12 ------E---- 1103 MHW3R6 03 ------E---- 1104 MHW3R6 04 ------E---- 1994/01/28 10:07:45 page 69 M-69 

                        *SEQUENCE

SUMMARY

REPORT Family RHRTES'J;' case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name 1105 MHW3R6 ---------------- 06 Upper Bound 

                                                                ------E----

1106 MHW3R6 09 ___ ;_ __ E---- 1107 MHW3R6 10 ------E---- 1108 MHW3R6 12 ------E---- 1109 MHW4D6 4 ------E---- 1110 MHW4D6 8 ------E_; ___ 1111 MHW4Rl0 04 ------E---- 1112 MHW4Rl0 06 ------E---- 1113 MHW4Rl0 10 ------E--- 1114 MHW4Rl0 12 ------E---- 1115 MHW4R6 04 ------E---- 1116 MHW4R6 06 ------E----. 1117 MHW4R6 10 ------E---- 1118 MHW4R6 12 

                                                                ------E----

1119 N1W1D6 3 8.819E-010 1120 N1W1D6 4 2.940E-009 1994/01/28 i0:07:45 page 70 M-70

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut* No. Event Tree Sequence Name Upper Bound* 1121 N1W1D6 7 ----------- 1.662E-009 1122 N1W1D6 8 1.SOOE-009 1123 NlWlR6 03 ------E---- 1124 N1WlR6 04 ------E---- 1125 N1WlR6 OS ------E---- 1126 NlWlR6 08 ------E--.. - 1127 N1WlR6 09 1.993E-010 1128 N1WlR6 12 ------E----. 1129 NiWlR6 13 --.----E---- 1130 NlWlR6 14 ------E---- 1131 N1WlR6 17 7.3S5E-Oll 1132 N1W1R6 18 ------E---- 1133 N1W2D6 04 l.851E-009 1134 N1W2D6 OS 4. 312E.-009 1135 N1W2D6 09 4.632E-009 1136 N1W2D6 10 l.3S9E-009 1994/01/28 10:07:45 page 71 M-71

SEQUENCE

SUMMARY

REPORT Family RHRTEST *case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1137 NlW2R6 ---------------- 03 ----------- 

                                                                ------E----

1138 NlW2R6 04 ------E---- 1139 NlW2R6 05 l.265E-010 1140 NlW2R6 op 2.251E-009 1141 N1W2R6 09 2.403E-009 1142 NlW2R6 12 ------E---- 1143 NlW2R6 13 ------E---- 1144 NlW2R6 14 ------E---- 1145 NlW2R6 17 2.411E-O 1146 NlW2R6 18 7.579E-010 1147 N1W3D6 4 3.718E-009 1148 N1W3D6 8 8.117E-010 1149 NlW3RlO 03 ------E---- 1150 NlW3RlO 04 ------E---- 1151 NlW3RlO 06 ------E---- 1152 NlW3RlO 09 *------E---- 1994/01/28 10:07:45 page 72 M-72

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1153 N1W3R10 10 

                                                                  ------E----

1154 N1W3R10 12 ------E---- 1155 N1W3R6 03 ------E---- 1156 N1W3R6 04 1.712E-009 1157 N1W3R6 06 1.903E-Ol0 1158 N1W3R6 09 ------E---- 

  . 1159  N1W3R6          10                                       3.121E-010 1160  N1W3R6          12                                      ------E----

1161 N1W4D6 4 1.555E-010 1162 N1W4D6 8 ------E---- 1163 N1W4R10 04 2.786E-010 1164 N1W4R10 06 6.501E-010 1165 N1W4R10 10 ------E---- 1166 N1W4R10 12 ------E---- 1167 N1W4R6 04 ------E---- 1168 N1W4R6 06 ------E---- 1994/01/28 10:07:45 page 73 M-73

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1169 NlW4R6 ---------------- 10 ----------- 

                                                                 ------E----

1170 NlW4R6 12 ------E---- 

. 1171 N2W1D6            3                                        3.722E-010 1172  N2W1D6           4                                        1.447E-009 1173  N2W1D6           7                                        8.185E-010 1174  N2W1D6           8                                        6.573E-010 1175  N2WlR6           03                                      ------E----

1176 N2WlR6 04 ------E---- 1177 N2WlR6 05 ------E-- 1178 N2WlR6 08 ------E---- 1179 N2WlR6 09 ------E---- 1180 N2W1R6 12 ------E---- 1181 N2WlR6 13 ------E---- 1182 N2WlR6 14 ------E---- 1183 N2WlR6 17 ------E---- 1184 N2WlR6 18 ------E---- 1994/01/28 10:07:45 page 74 M-74

  • Family : 'RHRTEST Seq No.

Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM MinCUt Upper Bound 1185 H2W2D6 04 ----------- 8.546E-010 1186 N2W2D6 05 2.123E-009 1187 N2W2D6 09 2.129E-009 1188 N2W2D6 10 6.694E-010 1189 H2W2R6 03 ------E---- 1190 N2W2R6 04 ------E---- 1191 H2W2R6 05 ------E---- 1192 H2W2R6 08 9.483E-010

  • 1193 1194 H2W2R6 H2W2R6 09 12 1.180E-009
                                                                  ------E----

1195 H2W2R6 13 ------E---- 1196 H2W2R6 14 ------E---- 1197 H2W2R6 17 1.184E-009 1198 H2W2R6 18 3.lOBE-010 1199 H2W3D6 4 1.826E-009 1200 N2W3D6 8 3.328E-010 1994/01/28 10:07:45 page 75 M-75

Family Seq No. RHRTEST Event Tree SEQUENCE

SUMMARY

REPORT Case: CURRENT Sequence Name Analysis: RANDOM Mincut Upper Bound 1201 H2W3R10 03 ------E---- 1202 H2W3R10 04 ------E---- 1203 H2W3Rl0 06 ------E---- 1204 H2W3Rl0 09 ------E---- 1205 H2WJR10 10 ------E---- 1206 H2WJR10 12 ------E---- 1207 H2WJR6 03 ------E---- 1208 H2WJR6 04 8.444E-010 1209 H2WJR6 06 ------E-- 1210 H2WJR6 09 ------E---- 1211 H2WJR6 10 ------E---- 1212 I H2WJR6 12 ------E---- 1213 N2W4D6 4 ------E---- 1214 N2W4D6 8 ------E---- 1215 N2W4R10 04 1.368E-010 1216 N2W4R10 06 *J.192E-010 1994/01/28 10:07:45 page 76 M-76

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1217 N2W4R10 10 

                                                                ------E----

1218 N2W4R10 12 ------E---- 1219 N2W4R6 04 

                                                                ------E----

1220 N2W4R6 06 ------E---- 1221 N2W4R6 10 ------E---- 1222 N2W4R6 12 ------E---- 1223 N3Wl06 3 ------E---- 1224 N3Wl06 4 ------E---- 1225 N3W1D6 6 ------E---- 1226 N3W1D6 7 ------E---- 1227 N3WlR6 03 . -----E---- 1228 N3WlR6 04 ------E---- 1229 N3W1R6 05 ------E---- 1230 N3WlR6 07 ------E---- 1231 N3WlR6 08 ------E---- I 1232 N3WlR6 09 ------E---- 1994/01/28 10:07:45 page 77 M-77

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1233 N3WlR6 12 ------E---- 1234 N3WlR6 13 ------E---- 1235 N3W1R6 16 ------E---- 1236 N3WlR6 17 ------E---- 1237 N3W2D6 4 ------E---- 1238 N3W2D6 5 ------E---- 1239 N3W2D6 8 ------E---- 1240 N3W2D6 9 ------E---- 1241 N3W2R6 03 ------E--- 1242 N3W2R6 04 ------E---- 1243 N3W2R6 05 ------E---- 1244 N3W2R6 07 ------E---- I 1245 N3W2R6 08 ------E---- 1246 N3W2R6 09 ------E---- 1247 N3W2R6 12 ----*-E---- 1248 N3W2R6 13 ------E---- 1994/01/28 10:07:45 page 78 M-78

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound 1~49 N3W2R6 16 

                                                                ------E----

1250 N3W2R6 17 ------E---- 1251 N3W3D6 4 ------E---- 1252 N3W3D6 7 ------E---- 1253 N3W3R10 03 ------E---- 1254 N3W3R10 04 ------E---- 1255 N3W3R10 06 ------E---- 1256 N3W3Rl0 07 ------E---- 1257 N3W3Rl0 09 ------E---- 1258 N3W3Rl0 11 ------E---- 1259 N3W3R6 03 ------E---- 1260 N3W3R6 04 ------E---- 1261 N3W3R6 06 ------E---- 1262 N3W3R6 07 ------E---- 1263 N3W3R6 09 ------E---- 1264 N3W3R6 11 ------E---- 1994/01/28 10:07:45 page 79 M-79

SEQUENCE

SUMMARY

REPORT Family RHRTEST Case: CURRENT Analysis: RANDOM Seq Mincut No. Event Tree Sequence Name Upper Bound

-------------~--

1265 N3W4D6 4 ------E---- 1266 N3W4D6 7 ------E---- 1267 N3W4Rl0 04 ------E---- 1268 N3W4Rl0 07 ------E---- 1269 N3W4Rl0 09 ------E---- 1270 N3W4Rl0 11 ------E---- 1271 N3W4R6 04 ------E---- 1272 N3W4R6 07 ------E---- 1273 N3W4R6 09 ------E-- 1274 N3W4R6 11 ------E---- TOTAL 1. 766E-005 1994/01/28 10:07:45 page 80 M-80

Appendix N Basic Event Reports

Appendix N.l Basic Event Uncertainty Report

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1 lH L 1.000E+OOO 1.000E+OOO 2 lJ L 1.000E+OOO J** OOOE+OOO 3 2CHGD6 L 1.000E+OOO 1.000E+OOO 4 2CHGR10 L 1.000E+OOO 1.000E+OOO 5 2CHGR10A L l.OOOE+OOO 1. OOOE+OOO 6 2CHGR10B L l.OOOE+OOO 1.000E+OOO 7 2CHGR6 L 1. OOOE+OOO l.OOOE+OOO 8 2CHGR6A L l.OOOE+OOO 1.000E+OOO 9 2CHGR6B L l.OOOE+OOO l.OOOE+OOO 10 2CHGRA L l.OOOE+OOO l.OOOE+OOO 11 2CHGW1 L l.OOOE+OOO l.OOOE+OOO 12 2CHGW1-4 L l.OOOE+OOO l.OOOE+OOO i3 2CHGW1-8 L l.OOOE+OOO l.OOOE+OOO 14 2CHGW1-9 L l.OOOE+OOO l.OOOE+OOO 15 2CHGW2 L l.OOOE+OOO l.OOOE+OOO 16 2CHGW2-4 L l.OOOE+OOO l.OOOE+OOO 17 2CHGW2-8 L l.OOOE+OOO 1:ooOE+OOO 18 2CHGW3 L l.OOOE+OOO l.OOOE+OOO 19 2CHGW3-4 L l.OOOE+OOO l.OOOE+OOO 20 2CHGW3-8 L l.OOOE+OOO 1.000E+OOO 21 2CHGW4 L l.OOOE+OOO l.OOOE+OOO 22 2CHGW4-5 L 1. OOOE+OOO l.OOOE+OOO 23 2CHGW4-8 L 1. OOOE+OOO l.OOOE+OOO 24 2CHSD6 L l.OOOE+OOO l.OOOE+OOO 25 2CHSR10 L l.OOOE+OOO l.OOOE+OOO 26 2CHSR10A L l.OOOE+OOO 1. OOOE+OOO 27 2CHSR6 L l.OOOE+OOO l.OOOE+OOO 28 2CHSR6A L l.OOOE+OOO l.OOOE+OOO 29 2CHSW1 L l.OOOE+OOO l.OOOE+OOO 30 2CHSW1-4 L l.OOOE+OOO 1. OOOE+OOO 31 2CHSW1-7 L l.OOOE+OOO l.OOOE+OOO 32 2CHSW2 L 1.000E+OOO 1. OOOE+OOO 33 2CHSW2-4 L 1. OOOE+OOO 1. OOOE+OOO 34 2CHSW2-7 L l.OOOE+OOO 1. OOOE+OOO 35 2CHSW3 L 1. OOOE+OOO l.OOOE+OOO 36 2CHSW3-4 L 1. OOOE+OOO 1. OOOE+OOO .

37 2CHSW3-7 L l.OOOE+OOO l.OOOE+OOO 38 2CHSW4 L l.OOOE+OOO 1. OOOE+OOO 39 2CHSW4-5 L 1.000E+OOO 1.000E+OOO 40 2CHSW4-7 L 1. OOOE+OOO 1.000E+OOO 41 2E31III L 1. 400E-004 l.OOOE+OOO 42 2E41IV L 1.400E-004 l.OOOE+OOO 43 2EHl-l L 4.300E-004 5.000E+OOO 44 2EJ1-l L 4.300E-004 l.OOOE+OOO 45 2H L l.OOOE+OOO 1. OOOE+OOO 46 2J L l.OOOE+OOO l.OOOE+OOO 47 4KV1H L l.OOOE+OOO 1.000E+OOO 48 4KV1J L l.OOOE+OOO 1.000E+OOO 1993/09/28 11:48:16 page 1 N-1

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 49 <FALSE> L +O.OOOE+OOO 1.000E+OOO so <INIT> L 1.000E+OOO 1.000E+OOO 51 <PASS> L 1. OOOE+OOO 1.000E+OOO 52 <TRUE> L 1.000E+OOO 1. OOOE+OOO 53 A-4KD6-XHE-F L 1.000E+OOO 1. OOOE+OOO 54 A-4KD6-XHE-F-7 L 1.000E+OOO 1.000E+OOO 55 A-4KD6-XHE-R L 1.000E+OOO 1.000E+OOO 56 A-4KD6-XHE-R-4 L 1.000E+OOO 1.000E+OOO 57 A-4KD6-XHE-R-7 L 1.000E+OOO 1.000E+OOO 58 A-4KR10-XHE~F-11 L l.OOOE+OOO l.OOOE+OOO 59 A-4KR10-XHE-F-13 L l.OOOE+OOO l.OOOE+OOO 60 A-4KR10-XHE-G-ll L l.OOOE+OOO l.OOOE+OOO 61 A-4KR10-XHE-R-ll L 1. OOOE+OOO l.OOOE+OOO 62 A-4KR6-XHE-F L l.OOOE+OOO l.OOOE+OOO 63 A'-4KR6-XHE-F-l 7 L l.OOOE+OOO l.OOOE+OOO 64 A-4KR6-XHE-G-14 L l.OOOE+OOO l.OOOE+OOO 65 A-4KR6-XHE-R-13 L l.OOOE+OOO l.OOOE+OOO 66 A-4KR6-XHE-S-17 L l.OOOE+OOO l.OOOE+OOO 67 A-4KW1-}CHE-C-13 L 1.000E-003 1.000E+OOl 68 A-4KW1-XHE-C-18 L l.OOOE-003 1.000E+OOl 69 A-4KW1-XHE-C-4 L l.OOOE-003 l.OOOE+OOl 70 A-4KW1-XHE-C-9 L 1.000E-003 l.OOOE+OOl 71 A-4KW1-XHE-FH-10 L 5.000E-005 1.000E+OOl 72 A-4KW1-XHE-FH-14 L 5.000E-005 l.OOOE+OOl 73 A-4KW1-XHE-FH-19 L 5.000E-005 1. OOOE+OOl 74 A-4KW1-XHE-FH-5 L 5.000E-005 l.OOOE+OOl 75 A-4KW1-XHE-FL-10 L 6.600E-002 5.000E+OOO 76 A-4KW1-XHE-FL-14 L 6.lOOE-002 S.OOOE+OOO 77 A-4KW1-XHE-FL-19 L 6.lOOE-002 5.000E+OOO 78 A-4KW1-XHE-FL-5 L l.OOOE-002 5.000E+OOO 79 A-4KW1-XHE-G-15 L l.OOOE+OOO l.OOOE+OOO 80 A-4KW1-XHE-G-6 L l.OOOE+OOO l.OOOE+OOO 81 A-4KW1-XHE-P-13 L l.OOOE-004 l.OOOE+OOO 82 A-4KW1-XHE-P-18 L l.OOOE-004 l.OOOE+OOl 83 A-4KW1-XHE-P-4 L l.OOOE-004 1. OOOE+OOl 84 A-4KW1-XHE-P-9 L l.OOOE-004 l.OOOE+OOl 85 A-4KW1-XHE-R-12 L 8.500E-003 l.OOOE+OOl 86 A-4KW1-XHE-R-3 L l.200E-003 l.OOOE+OOl 87 A-4KW1-XHE-Sl-17 L l.OOOE-003 l.OOOE+OOl 88 A-4KW1-XHE-Sl-8 L 1.000E-003 1.000E+OOl 89 A-4KW1-XHE-S2-17 L 8.000E-002 5.000E+OOO 90 A-4KW1-XHE-S2-8 L 4.000E-002 S.OOOE+OOO 91 A-4KW1-XHE-S3-17 L 1.000E+OOO l.OOOE+OOO 92 A-4KW1-XHE-S3-8 L 1.000E+OOO 1.000E+OOO 93 A-4KW2-XHE-C-13 L l.OOOE-003 l.OOOE+OOl 94 A-4KW2-XHE-C-18 L l.OOOE-003 l.OOOE+OOl 95 A-4KW2-XHE-C-4 L l.OOOE-003 l.OOOE+OOl 96 A-4KW2-XHE-C-9 L l.OOOE-003 l.OOOE+OOl 1993/09/28 11:48:16 page 2 N-2

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 97 A-4KW2-XHE-FH-10 L 2.000E-005
1. OOOE+OOl 98 A-4KW2-XHE-FH-14 L 2.000E-005 1.000E+OOl 99 A-4KW2-XHE-FH-19 L 2.000E-005 1.000E+OOl 100 A-4KW2-XHE-FH-4 +O.OOOE+OOO +O.OOOE+OOO 101 A-4KW2-XHE-FH-5 L 2.000E-005 1.000E+OOl 102 A-4KW2-XHE-FL-10 L 2.000E-003 1.000E+OOl 103 A-4KW2-XHE-FL-14 L 8.000E-003 1.000E+OOl 104 A-4KW2-XHE-FL-19 L 1.300E-002 5.000E+OOO 105 A-4KW2-XHE-FL-5 L 7.600E-004 1.000E+OOl 106 A-4KW2-XHE-~-15 L 1.000E+OOO 1.000E+OOO 107 A-4KW2-XHE-*G-6 L 1.000E+OOO 1.000E+OOO 108 A-4KW2-XHE-P-13 L 1.000E-004 1.000E+OOl 109 A-4KW2-XHE-P-18 L 1.000E-004 1. OOOE+OOl 110 A-4KW2-XHE-P-4 L 1.000E-004 1.000E+OOl 111 A-4KW2-XHE-P-9 L 1. OOOE-004 1.000E+OOl 112 A-4KW2-XHE-R-12 L 3.000E-003 1.000E+OOl 113 A-4KW2-XHE-R-3 L 5.200E-004 1.000E+OOl 114 A-4KW2-XHE-S1-17 L 1.000E-003 1.000E+OOl 115 A-4KW2-XHE-S1-8 L 1. OOOE-003 1.000E+OOl 116 A-4KW2-XHE-S2-17 L 5.300E-003 1.000E+OOl 117 A-4KW2-XHE-S2-8 L 2.600E-008 1.000E+OOl 118 A-4KW2-XHE-S3-17 L 1.000E+OOO 1.000E+OOO 119 A-4KW2-XHE-S3-8 L 1.000E+OOO 1. OOOE+OOO 120 A-4KW2-XHE-X L 1.000E-003 1. OOOE+OOl 121 A-4KW3-XHE-FH-10 L 2.000E-005 1. OOOE+OOl 122 A-4KW3-XHE-FH-13 L 2.000E-005 1. OOOE+OOl 123 A-4KW3-XHE-FH-4 L 2.000E-005 1.000E+OOl 124 A-4KW3-XHE-FH-7 L 2.000E-005 1.000E+OOl 125 A-4KW3-XHE-FL-10 L 2.000E-003 1.000E+OOl 126 A-4KW3-XHE-FL-13 L 8.000E-003 1. OOOE+OOl 127 A-4KW3-XHE-FL-4 L 7.600E-004 1. OOOE+OOl 128 A-4KW3-XHE-FL-7 L 1.300E-002 5.000E+OOO 129 A-4KW3-XHE-G-11 L 1.000E+OOO 1.000E+OOO 130 A-4KW3-XHE-G-5 L 1.000E+OOO 1. OOOE+OOO 131 A-4KW3-XHE-R-3 L 5.200E-004 1.000E+OOl 132 A-4KW3-XHE-R-9 L 3.000E-003 1.000E+OOl 133 A-4KW3-XHE-S1-4 L 1.000E-003 1.000E+OOl 134 A-4KW3-XHE-Sl-8 L 1.000E-003 1.000E+OOl 135 A-4KW3-XHE-S2-4 L 2.600E-003 1.000E+OOl 136 A-4KW3-XHE-S2-8 L S.300E-003 1.000E+OOl 137 A-4KW3-XHE-S3-4 L 1.000E+OOO 1. OOOE+OOO 138 A-4KW3-XHE-S3-8 L 1.000E+OOO 1. OOOE+OOO 139 A-4KW4-XHE-FH-10 L 2.000E-005 1.000E+OOl 140 A-4KW4-XHE-FH-13 L 2.000E-005 1. OOOE+OOl 141 A-4KW4-XHE-FH-4 L 2.000E-005 1.000E+OOl 142 A-4KW4-XHE-FH-7 L 2.000E-005 1.000E+OOl 143 A-4KW4-XHE-FL-10 L 6.900E-OOS 1.000E+OOl 144 A-4KW4-XHE-FL-13 L 1.lOOE-003 1.000E+OOl 1993/09/28 11:48:16 page 3 N-3

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 145 A-4KW4-XHE-FL-4 L 6.900E-005 l.OOOE+OOl 146 A-4KW4-XHE-FL-7 L l.lOOE-003 l.OOOE+OOl 147 A-4KW4-XHE-G-ll L l.OOOE+OOO 1.000E+OOO 148 A-4KW4-XHE-G-5 L 1.000E+OOO l.OOOE+OOO 149 A-4KW4-XHE-R-3 L 1. 200E-004 1. OOOE+OOl 150 A-4KW4-XHE-R-9 L 9.600E-004 1.000E+OOl 151 A-4KW4-XHE-S1-*4 L 1. OOOE-003 l.OOOE+OOl 152 A-4KW4-XHE-Sl-8 L 1.000E-003 l.OOOE+OOl 153 A-4KW4-XHE-S2-4 L 1.000E-003 l.OOOE+OOl 154 A-4KW4-XHE-S2-8 L 2.000E-003 l.OOOE+OOl 155 A-4KW4-XHE-S3-4 L l.OOOE+QOO l.OOOE+OOO 156 A-4KW4-XHE-S3-8 L l.OOOE+OOO l.OOOE+OOO 157 A-B1D6-XHE-2CHG L l.OOOE+OOO l.OOOE+OOO 158 A-BlD6-XHE-CW-4 L l.OOOE+OOO l.OOOE+OOO 159 A-B1Rl0-XHE-2CHG L 1.000E+OOO l.OOOE+OOO 160 A-BlRlO-XHE-CW-5 L l.OOOE+OOO l.OOOE+OOO 161 A-B1Rl0-XHE-CW-7 L l.OOOE+OOO l.OOOE+OOO 162 A-BlRlO-XHE-CW-8 L l.OOOE+OOO l.OOOE+OOO 163 A-B1R6-XHE-2CHG L l.OOOE+OOO l.OOOE+OOO 164 A-B1R6-XHE-CW-10 L l.OOOE+OOO l.OOOE+OOO 165 A-B1R6-XHE-CW-5 L 1.000E+OOO l.OOOE+OOO 166 A-B1R6-XHE-CW-9 L l.OOOE+OOO l.OOOE+OOO 167 A-B1W1-XHE-2CH-4 L 3.300E-001 l .*OOOE+OOO 168 A-B1Wl-XHE-2CH-8 L 3.300E-001 l.OOOE+OOO 169 A-B1Wl-XHE-2CH-9 L 3.300E-001 l.OOOE+OOO 170 A-B1Wl-XHE-2CHG L 3.300E-001 l.OOOE+OOO 171 A-BlWl-XHE-CW-4 L 7.500E-002 1.000E+OOO 172 A-BlWl-XHE-CW-8 L 7.500E-002 1.000E+OOO 173 A-BlWl-XHE-CW-9 L 7.SOOE-002 l.OOOE+OOO 174 A-BlWl-XHE-G-5 L l.OOOE+OOO 1.000E+OOO 175 A-BlWl-XHE-Sl-8 L 5.500E-001 1.000E+OOO 176 A-B1W1-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 177 A-BlWl-XHE-SF-8 L 1.000E-003 1.000E+QOO 178 A-B1W2-XHE-2CH-4 L 3.700E-002 1.000E+OOO 179 A-B1W2-XHE-2CH-8 L 3.700E-002 1.000E+OOO 180 A-B1W2-XHE-CW-4 L 1.900E-002 1.000E+OOO 181

  • A-B1W2-XHE-CW-8 L 1.900E-002 1.000E+OOO 182 A-B1W2-XHE-G-5 L 1.000E+OOO 1.000E+OOO 183 A-B1W2-XHE-Sl-8 L 3.600E-001 1.000E+OOO 184 A-BlW2-XHE-S2-8 L 1.000E+OOO l.OOOE+OOO 185 A-B1W2-XHE-SF-8 L l.OOOE-003 l.OOOE+OOO 186 A-B1W3-XHE-2CH-4 L 3.700E-002 1.00QE+OOO 187 A-B1W3-XHE-2CH-8 L 3.700E-002 l.OOOE+OOQ 188 A-B1W3-XHE-CW-4 L 1.900E-002 l.OOOE+OOO 189 A-B1W3-XHE-CW-8 L l.900E-002 l.OOOE+OOO 190 A-B1W3-XHE-G-5 L 1.000E+OOO 1.000E+OOO 191 A-B1W3-XHE-Sl-5 L l.lOOE-001 l.OOOE+OOO 192 A-B1W3-XHE-S2-5 L l.OOOE+OOO l.OOOE+OOO 1993/09/28* 11:48:16 page 4 N-4

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 193 A-B1W3-XHE-SF-5 L l. OOOE-003 L OOOE+OOO 194 A-B1W4-XHE-2CH-5 L l.400E-003 l.OOOE+OOO 195 A-B1W4-XHE-2CH-8 L l.400E-003 l.OOOE+OOO 196 A-B1W4-XHE-CW-5 L 7.500E-003 1. OOOE+OOO 197 A-B1W4-XHE-CW-8 L 7.500E-003 1.000E+OOO 198 A-B1W4-XHE-G-5 L l.OOOE+OOO 1.000E+OOO 199 A-B1W4-XHE-S1-5 L l.lOOE-001 1.000E+OOO 200 A-B1W4-XHE-S2-5 L l.OOOE+OOO 1. OOOE+OOO 201 A-B1W4-XHE-SF-5 L 1. OOOE-003 l.OOOE+OOO 202 A-B2Wl-XHE-~-4 L 6.000E-003 1. OOOE+OOO 203 A-B2W2-XHE-*G-4 L 6.200E-004 1. OOOE+OOO 204 A-B2W3-XHE-G-4 L 6.200E-004 l.OOOE+OOO 205 A-B2W4-XHE-G-4 L 1. 700E-004 l.OOOE+OOO 206 A-CTlWl-XHE-C-8 L 1. OOOE-003 l.OOOE+OOl FL 207 A-CTlWl-XHE-FH-9 L 4.300E-002 S.OOOE+OOO F8B 208 A-CTlWl-XHE-FL-9 L 1. 050E-001 2.000E+OOO F9B 209 A-CT1W2-XHE-X L 1. OOOE-003 1. OOOE+OOl FL 210 A-CT2Wl-XHE-C-8 L 1.000E-003 l.OOOE+OOl FL 211 A-CT2Wl-XHE-FL-9 L 1. OOOE-002 5.000E+OOO FlC 212 A-CT2Wl-XHE-Sl-8 L 4.lOOE-002 S.OOOE+OOO F2C 213 A-CT2W2-XHE-FL-9 L 1. 200E-003 l.OOOE+OOl F3C 214 A-CT2W2-XHE-Sl-8 L 4.200E-002 5.000E+OOO F4C 215 A-CT2W2-XHE-X L l. OOOE-003 l.OOOE+OOl FL 216 A-CT2W3-XHE-FL-3 L 1.200E-003 1. OOOE+OOl F3C 217 A-ElWl-XHE-FL-19 L 4.710E-001 1. 500E+OOO FA 218 A-ElWl-XHE-R-12 L 1. lOOE-001 2.000E+OOO FB 219 A-E1W2-XHE-FL-14 L 2.370E-001 2.000E+OOO FC 220 A-E1W2-XHE-FL-19 L 2.370E-001 2.000E+OOO FC 221 A-ElW2-XHE-R-12 L S.400E-002 5.000E+OOO FD 222 A-E1W3-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 223 A-E1W3-XHE-FL-13 L 2.370E-001 2.000E+OOO FC 224 A-E1W3-XHE-R-9 L 5.400E-002 S.OOOE+OOO FD 225 A-E1W4-XHE-FL-10 L 1. lOOE-001 2.000E+OOO FB 226 A-ElW4-XHE-FL-13 L 1. lOOE-001 2.000E+OOO FB 227 A-ElW4-XHE-R-9 L 1. 700E-002 S.OOOE+OOO FE 228 A-E2Wl-XHE-FL-10 L 4.710E-001 l.SOOE+OOO FA 229 A-E2Wl-XHE-FL-19 L 4.710E-001 1. 500E+OOO FA 230 A-E2Wl-XHE-R-12 L 1. lOOE-001 2.000E+OOO FB 231 A-E2Wl-XHE-R-3 L 1. lOOE-001 2.000E+OOO FB 232 A-E2W2-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 233 A-E2W2-XHE-FL-19 L 2.370E-001* 2.000E+OOO FC 234 A-E2W2-XHE-FL-5 L 2.370E-001 2.000E+OOO FC 235 A-E2W2-XHE-R-12 L S.400E-002 5.000E+OOO FD 236 A-E2W2-XHE-R-3 L 5.400E-002 5.000E+OOO FD 237 A-E2W3-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 238 A-E2W3-XHE-FL-13 L 2.370E-001 2.000E+OOO FC 239 A-E2W3-XHE-FL-17 L 1. OOOE+OOO l.OOOE+OOO 240 A-E2W3-XHE-FL-4 L 2.370E-001 2.000E+OOO FC 1993/09/28 11:48:16 page 5 N-5

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number ~rimary Name Type Probability Value Class 241 A-E2W3-XHE-FL-7 L 2.370E-001 2.000E+OOO FC 242 A-E2W3-XHE-R-3 L 5.400E-002 5.000E+OOO FD 243 A-E2W3-XHE-R-9 L 5.400E-002 5.000E+OOO FD 244 A-E2W4-XHE-FL-13 L 1.lOOE-001 2.000E+OOO FB 245 A-E2W4-XHE-FL-4 L 1.lOOE-001 2.000E+OOO FB 246 A-E2W4-XHE-FL-7 L 1. lOOE-001 2.000E+OOO FB 247 A-E2W4-XHE-R-3 L 1.700E-002 5.000E+OOO FE 248 A-E3Wl-XHE-FL-10 L 4.710E-001 1.500E+OOO FA 249 A-E3Wl-XHE-FL-19 L 4. 710E-001 l.500E+OOO FA 250 A-E3Wl-XHE-,R-12 L l.lOOE-001 2.000E+OOO FB 251 A-E3Wl-XHE...:R-3 L 1.lOOE-001 2.000E+OOO FB 252 A-E3W2-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 253 A-E3W2-XHE-FL-19 L 2.370E-001 2.000E+OOO FC 254 A-E3W2--XHE-FL-5 L 2.370E-001 2.000E+OOO FC 255 A-E3W2-XHE-R-12 L 5.400E-002 5.000E+OOO FD 256 A-E3W2-XHE-R-3 L 5.400E-002 5.000E+OOO FD 257 A-E3W3-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 258 A-E3W3-XHE-FL-13 L 2.370E-001 2.0008+000 FC 259 A-83W3-XH8-FL-4 L 2.3708-001 2.000E+OOO FC 260 A-E3W3-XHE-FL-7 L 2.3708-001 2. 0008+000 . FC 261 A-E3W3-XHE-R-3 L 5.4008-002 5.000E+OOO FD 262 A-83W3-XHE-R-9 L 5.4008-002 5.000E+OOO FD 263 A-E3W4-XH8-FL-13 L 1.1008.:.001 2.000E+OOO FB 264 A-83W4-XH8-FL-4 L* l.lOOE-001 2.000E+OOO FB 265 A-E3W4-XH8-FL-7 L 1.1008-001 2.000E+OOO FB 266 A-83W4-XH8-R-3 L 1. 7008-002

  • 5.000E+OOO FE 267 A-E6Wl-XHE-FL-9 L 6.5108-001 1.000E+OOO Al 268 A-86W2-XH8-FL-4 L 2.3708-001 2.000E+OOO FC 269 A-86W2-XH8-FL-9 L 2.3708-001 2.000E+OOO FC 270 A-E6W3-XHE-FL-3 L 2.370E-001 2.000E+OOO FC 271 A-E6W3-XHE-FL-7 L 2.3708-001 2.000E+OOO FC
  • 272 A-E6W4-XHE-FL-4 L 1. 590E-001 2.000E+OOO A2 273 A-E6W4-XHE-FL-7 L 1. 5908-001 2.000E+OOO A2 274 A-E?Wl-XH8-FL-19. L 2.5008-001 2.000E+OOO FO 275 A-E?Wl-XH8-S2-17 L 4.0008-001 1.500E+OOO FP 276 A-E?W2-XHE-FL-14 L 3.5008-002 5.000E+OOO FR 277 A-E7W2-XHE-FL-19 L 5.4008-002 5.000E+OOO FD 278 A-E7W2-XHE-S1-l7 L 1. 0008-003 1. OOOE+OOl FL 279 A-E7W2-XHE:-S2-17 L 2.6008-002 5.000E;+OOO FQ 280 A-E?W3-XHE-FL-10 L 3.500E-002 5.000E+OOO FR 281 A-E?W3-XH8-FL-13 L 2.000E-003 1.000E+OOl A3 282 A-E?W3-XHE-S2-8 L 2.6008-002 5.000E+OOO FQ 283 A-E?W4-XHE-FL-10 L 5.0008-003 1. OOOE+OOl A4 284 A-E8Wl-XHE-2CH-8 L 7.400E-001 1.000E+OOO FF 285 A-E8Wl-XH8-CW-8 L 2.000E-001 2.000E+OOO FG 286 A-E8W2-XHE-2CH-4 L +O.OOOE+OOO l.500E+OOO FH 2'8? A-E8W2-XHE-2CH-8 L 4.700E-001 1. 500E+OOO FH 288 A-E8W2-XHE-CW-4* L 5.lOOE-002 5.000E+OOO FJ 1993/09/28 11:48:16 page 6 N-6

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 289 A-E8W2-XHE-CW-8 L 5.lOOE-002 5.000E+OOO FJ 290 A-E8W3-XHE-2CH-4 L 4.700E-001 l.500E+OOO FH 291 A-E8W3-XHE-2CH-8 L 4.700E-001 l.500E+OOO FH 292 A-E8W3-XHE-CW-4 L 5.lOOE-002 5.000E+OOO FJ 293 A-E8W3-XHE-CW-8 L 5.lOOE-002 5.000E+OOO FJ 294 A-E8W4-XHE-2CH-5 L 1.700E-001 2.000E+OOO F3A 295 A-E8W4-XHE-2CH-8 L l.700E-001 2.000E+OOO F3A 296 A-E8W4-XHE-CW-5 L l.900E-002 5.000E+OOO FlA 297 A-E8W4-XHE-GW-8 L l.900E-002 5.000E+OOO FlA 298 A-E9Wl-XHE-~H-10 .L 2.lOOE-001 2.000E+OOO FK 299 A-E9Wl-XHE-FL-10 L 4.710E-001 l.500E+OOO FA 300 A-E9Wl-XHE-R-4 L l.lOOE-001 2.000E+OOO FB 301 A-EAWl-XHE-C-9 L l.OOOE-003 1.000E+OOl FL 302 A-EAWl-XHE-FH-10 L 2.lOOE-001 2.000E+OOO FK 303 A-EAWl-XHE-FL-10 L 4.710E-001 l.500E+OOO FA 304 A-EAWl-XHE-FL-19 L 4. 710E-001 l.500E+OOO FA 305 A-EAWl-XHE-R-12 L l.lOOE-001 2.000E+OOO FB 306 A-EAWl-XHE-R-3 L 1.lOOE-001 2.000E+OOO FB 307 A-EAW2-XHE-FH-10 L 9.300E-002 5.000E+OOO FM 308 A-EAW2-XHE-FH-19 L 1.000E+OOO l.OOOE+OOO 309 A-EAW2-XHE-FH-5 L 9.300E-002 5.000E+OOO FM 310 A-EAW2-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 311 A-EAW2-XHE-FL-19 L 2.3708-001 2.000E+OOO FC 312 A-EAW2-XHE-FL-5 L 2.3708-001 2.000E+OOO FC 313 A-EAW2-XHE-R-12 L 5.400E-002 5.000E+OOO FD 314 A-EAW2-XHE-R-3 L 5.4008-002 5~000E+OOO FD 315 A-EAW3-XH,E-FH-4 L 9.300E-002 5.000E+OOO FM 316 A-EAW3-XHE-FH-7 L 9.3008-002 5.000~+000 FM 317 A-EAW3-XHE-FL-10 L 2.3708-001 2.000E+OOO FC 318 A-EAW3-XHE-FL-13 L 2.3708-001 2.000E+OOO FC 319 A-EAW3-XHE-FL-4 L 2.370E-001 2.000E+OOO FC 320 A-EAW3-XHE-FL-7 L 2.370E-001 2.000E+OOO FC 321 A-EAW3-XHE-R-3 L 5.400E-002 5.000E+OOO FD 322 A-EAW3-XHE-R-9 L 5.400E-002 5.000E+OOO FD 323 A-EAW4-XHE-FH-4 L 4.400E-002 5.000E+OOO FN 324 A-EAW4-XHE-FH-7 L 4.400E-002 5.000E+OOO FN 325 A-EAW4-XHE-FL-10 L 1. lOOE-001 2.000E+OOO FB 326 A-EAW4-XHE-FL-13 L 1. lOOE-001 2.000E+OOO FB 327 A-EAW4-XHE-FL-4 L 1.lOOE-001 2.000E+OOO FB 328 A-EAW4-XHE,-FL-7 L 1. lOOE-001 2.000E+OOO FB 329 A-EAW4-XHE-R-3 L 1.700E-002 5.000E+OOO FE 330 A-EAW4-XHE-R-9 L l.700E-002 5.000E+OOO FE 331 A-EBWl-XHE-FL-19 L 4.710E-001 1. 500E+ooo* FA 332 A-EBWl-XHE-R-12 L 1.lOOE-001 2.000E+OOO FB 333 A-EBW2-XHE-FL-14 L 2.370E-001 2.000E+OOO FC 334 A-EBW2-XHE-FL-19 L 2.370E-001 2.000E+OOO FC 335 A-EBW2-XHE-R-i2 L 5.400E-002 5.000E+OOO FD 336 A-EBW3-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 1993/09/28 11:48:16 page 7

  • N-7

BASIC EVENTS UNCERTAINTY* VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 337 A-EBW3-XHE-FL-13 L 2.370E-001 2.000E+OOO FC 338 A-EBW3-XHE-R-9 L 5.400E-002 5.000E+OOO FD 339 A-EBW4-XHE-FL-10 L l.lOOE-001 2.000E+OOO FB 340 A-EBW4-XHE-FL-13 L 1. lOOE-001 2.000E+OOO FB 341 A-EBW4-XHE-R-9 L l.700E-002 5.000E+OOO FE 342 A-ECWl-XHE-C-18 L 1. OOOE-003 l.OOOE+OOl FL 343 A-ECWl-XHE-FL-19 L 2.500E:-001 2.000E+OOO FO 344 A-ECW1-XHE-S2-17 L 4.000E-001 l.500E+OOO FP 345 A-ECW2-XHE-C-13 L 1. OOOE-003 l.OOOE+OOl FL 346 A-ECW2-XHE-F.L-19 L 5.400E-002 5.000E+OOO FD 347 A-ECW2-XHE-S2-17 L 2.600E-002 5.000E+OOO FQ 348 A-ECW2-XHE-X L 1. OOOE-003 l.OOOE+OOl FL 349 A-ECW3-XHE-FL-10 L 3.500E-002 5.000E+OOO FR 350 A-LlWl-XHE-C-13 L l.OOOE-003 l.OOOE+OOO 351 A-LlWl-XHE-C-17 L 1. OOOE-003 1.000E+OOO 352 A-LlWl-XHE-C-4 L 1. OOOE-003 l.OOOE+OOO 353 A-LlWl-XHE-C-8 L 1. OOOE-003 1. OOOE,+000 354 A-LlWl-XHE-FH-14 L 5.000E-005 l.OOOE+OOO 355 A-LlWl-XHE-FH-18 L 5.000E-005 1. OOOE+OOO 356 A-LlWl-XHE.:.FH-4 L 5.000E-005 1.000E+OOO 357 A-LlWl-XHE-FH-5 L 5.000E-005 1.000E+OOO 358 A-LlWl-XHE-FH-9 L 5.000E-005 1.000E+OOO 359 A-LlWl-XHE-FL-14 L 6.lOOE-002 1. OOOE+OOO 360 A-LlWl-XHE-FL-18 L 6.lOOE-002 1.000E+OOO 361 A-LlWl-XHE-FL-4 L 1. OOOE-002 1.000E+OOO 362 A-LlWl-XHE-FL-5 L 1.000E-002 1.000E+OOO 363 A-LlWl-XHE-FL-9 L 6.600E-002 1.000E+OOO 364 A-LlWl-XHE-G-10 L 1.000E+OOO 1.000E+OOO 365 A-LlWl-XHE~G-5 L 1.000E+OOO 1. OOOE+OOO 366 A-LlWl-XHE-G-6 L 1. OOOE+OOO 1.000E+OOO 367 A-LlWl-XHE-P-13 L 1. OOOE-004 l.OOOE+OOO 368 A-LlWl-XHE-P-17 L 1. OOOE-004 l.OOOE+OOO 369 A-LlWl-XHE-P-4 L 1. OOOE-004

  • 1. OOOE+OOO 370 A-LlWl-XHE-P-8 L 1. OOOE-004 l.OOOE+OOO 371 A-LlWl-XHE-R-4 L 1. 600E-002 l.OOOE+OOO 372 A-LlWl-XHE-Sl-13 L 4.000E-002 1.000E+OOO 373 A-LlWl-XHE-Sl-15 L 8.000E-002 l.OOOE+OOO 374 A-LlWl-XHE-Sl-17 L 8.000E-002 1. OOOE+OOO 375 A-LlW1-XHE-S2-13 L l.OOOE+OOO l.OOOE+OOO 376 A-LlWl-XHE-S.2-15 L 1.000E+OOO l.OOOE+OOO 377 A-LlWl~XHE-S.2-17 L l.OOOE+OOO l.OOOE+OOO 378 A-LlWl-XHE-SF-13 L l.OOOE-003 l.OOOE+OOO 379 A-LlWl-XHE-SF-15 L 1. OOOE-003 l.OOOE+OOO 380 A-LlWl-XHE-SF-17 L l.OOOE-003 l.OOOE+OOO 381 A-LlW2-XHE-C-13 L 1. OO.OE-003 l.OOOE+OOO 382 A-LlW.2-XHE-C-17 L l.OOOE-003 l.OOOE+OOO 383 A-LlW2-XHE-C-4 L l.OOOE-003 1.000E+OOO 384 A-LlW2-XHE-C-8 L 1.000E-003 1.000E+OOO 1993/09/28 11:48:16 page 8 N-8

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Prirnary*Narne Type Probability Value Class 385 A-L1W2-XHE-FH-14 L 2.000E-005 1.000E+OOO 386 A-L1W2-XHE-FH-18 L 2.000E-005 1.000E+OOO 387 A-L1W2-XHE-FH-4 L 2.000E-005 1.000E+OOO 388 A-L1W2-XHE-FH-5 L 2.000E-005 1.000E+OOO 389 A-L1W2-XHE-FH-9 L 2.000E-005 1. OOOE+OOO 390 A-L1W2-XHE-FL-14 L 8.000E-003 1.000E\rOOO 391 A-L1W2-XHE-FL-18 L 1.300E-002 1.000E+OOO 392 A-L1W2-XHE-FL-4 L 7.600E-004 1.000E+OOO 393 A-L1W2-XHE-FL-5 L 7.600E-004 1. OOOE+OOO 394 A-L1W2-XHE-J1L-9 L 2.000E-003 1.000E+OOO 395 A-L1W2-XHE-G-10 L 1.000E+OOO 1.000E+OOO 396 A-L1W2-XHE-G-6 L 1.000E+OOO 1. OOOE+OOO 397 A-L1W2-XHE-P-13 L 1.000E-004 1.000E+OOO 398 A-L1W2-XHE-P-17 L 1.000E-004 1. OOOE+OOO 399 A-L1W2-XHE-P-4 L 1. OOOE-004 1.000E+OOO 400 A-L1W2-XHE-P-8 L 1. OOOE-004 ;l..OOOE+OOO 401 A-L1W2-XHE-R-4 L 5.900E-003 1.000E+OOO 402 A-L1W2-XHE~Sl-13 L 2.600E-003 1.000E+OOO 403 A-L1W2-XHE-Sl-17 L 5.300E-003 1. OOOE+OOO 404 A-L1W2-XHE-Sl-8. L l.OOOE+OOO 1.000E+OOO 405 A-L1W2-XHE-S2-13 L 1.000E+OOO 1.000E+OOO 406 A-L1W2-XHE-S2-17 L 1.000E+OOO 1.000E+OOO 407 A-L1W2-XHE-S2-8 L 1. OOOE+OOO 1.000E+OOO 408 A-L1W2-XHE-SF-13 L 1. OOOE-003 1.000E+OOO 409 A-L1W2-XHE-SF-17 L 1.000E-003 1.000E+OOO 410 A-L1W2-XHE-SF-8 L 1. OOOE+OOO 1.000E+OOO 411 A-L1W2-XHE-X L 1.000E-003 1.000E+OOO 412 A-L1W3-XHE-FH-10 L 2.000E-005 1.000E+OOO 413 A-L1W3-XHE-FH-12 L 2.000E-005 1.000E+OOO 414 A-L1W3-XHE-FH-4 L 2.000E-005 1.000E+OOO 415 A-L1W3-XHE-FH-7 L 2.000E-005 1.000E+OOO 416 A-L1W3-XHE-FL-10 L 8.000E-003 1. OOOE+OOO 417 A-L1W3-XHE-FL-12 L 1.300E-002 1.000E+OOO 418 A-L1W3-XHE-FL-4 L 7.600E-004 1.000E+OOO 419 A-L1W3-XHE-FL-7 L 2.000E-003 1. OOOE+OOO 420 A-L1W3-XHE-G-5 L 1.000E+OOO 1.000E+OOO 421 A-L1W3-XHE-G-8 L 1.000E+OOO 1. OOOE+OOO 422 A-L1W3-XHE-R-4 L 5.900E-003 1. OOOE+OOO 423 A-L1W3-XHE-S1-5 L 2.600E-003 1. OOOE+OOO 424 A-L1W3:...XHE-S1-7 L 5.300E-003 1.000E+OOO 425 A-L1W3-XHE-S1-8 L 5.300E-003 1.000E+OOO 426 A-L1W3-XHE-S2-5 L 1.000E+OOO 1.000E+OOO 427 A-L1W3-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 428 A-L1W3-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 429 A-L1W3--XHE-SF-5 L 1.000E-003 1.000E+OOO 430 A-L1W3-XHE-SF-7 L 1.000E-003 1.000E+OOO 431 A-L1W3-XHE-SF-8 L 1.000E-003 1.000E+OOO 432 A-L1W4-XHE-FH-10 L 2.000E-005 1.000E+OOO 1993/09/28 11:48:16 page 9 N-9

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean .Uncertainty Correlation Number Primary Name Type Probability Value Class 433 A-L1W4-XHE-FH-12 L 2.000E-005 1.000E+OOO 434 A-L1W4-XHE-FH-5 L 2.000E-005 1.000E+OOO 435 A-L1W4-XHE-FH-8 L 2.000E-005 1.000E+OOO 436 A-L1W4-XHE-FL-10 L l.lOOE-003 1.000E+OOO 437 A-L1W4-XHE-FL-12 L 1.lOOE-003 1.000E+OOO 438 A-L1W4-XHE-FL-5 L 6.900E-005 1.000E+OOO 439 A-L1W4-XHE'-FL-8 L 6.900E-005 1.000E+OOO 440 A-L1W4-XHE-G-5 L 1.000E+OOO 1.000E+OOO 441 A-L1W4-XHE-G-8 L 1.000E+OOO 1.000E+OOO 442 A-L1W4-XHE-R-.5 L 1.600E-003 1. OOOE+OOO 443 A-L1W4-XHE-S1-5 L 1.000E-003 1.000E+OOO 444 A-L1W4-XHE-Sl-7 L 2.000E-003 1.000E+OOO 445 A-L1W4-XHE-Sl-8 L 2.000E-003 1.000E+OOO 446 A-L1W4-XHE-S2-5 L 1.000E+OOO 1.000E+OOO 447 A-L1W4-XHE-S2-7 L 1. COOE+OOO 1.000E+OOO 448 A-LlW4-XHE-S2-8 L 1.000E+OOO 1. OOOE+OOO 449 A-L1W4-XHE-SF-5 L 1.000E-003 1. OOOE+OOO 450 A-LlW4-XHE-SF-7 L l.OOOE-003 1. OOOE+OOO 451 A-L1W4-XHE-SF-8 L 1.000E-003 1.000E+OOO 452 A-L2Wl-XHE-C-13 L 1.000E-003 l.OOOE+OOO 453 A-L2Wl-XHE-C-17 L 1.000E-003 l.OOOE+OOO 454 A-L2Wl-XHE-C-4 L 1.000E-003 1.000E+OOO 455 A-L2Wl-XHE...:c-8 L l.OOOE-003 1.000E+OOO 456 A-L2Wl-XHE-FH-14 L 5.000E-005 1.000E+OOO 457 A-L2Wl-XHE-FH-18 L 5.000E-005 l.OOOE+OOO 458 A-L2Wl-XHE-FH-5 L 5.000E-005 1.000E+OOO 459 A-L2Wl-XHE-FH-9 L 5.000E-005 1.000E+OOO 460 A-L2Wl-XHE-FL-14 L 6.lOOE-002 l.OOOE+OOO 461 A-L2Wl-XHE-FL-18 L 6.lOOE-002 1.000E+OOO 462 A-L2Wl-XHE-FL-5 L 1. OOOE-002 1.000E+OOO 463 A-L2Wl-XHE-FL-9 L 6.600E-002 1. OOOE+OOO 464 A-L2Wl-XHE-G-10 L 1.000E+OOO l.OOOE+OOO 465 A-L2Wl-XHE-G-6 L 1. OOOE+OOO 1.000E+OOO 466 A-L2Wl-XHE-P-13 L 1. OOOE-004 1.000E+OOO 467 A-L2Wl-XHE-P-17 L l.OOOE-004 l.OOOE+OOO 468 A-L2Wl-XHE-P-4 L 1.000E-004 1.000E+OOO 469 A-L2Wl-XHE-P-8 L 1.000E-004 1.000E+OOO 470 A-L2Wl-XHE-R-4 L 1. 600E-002 1.000E+OOO 471 A-L2Wl-XHE-Sl-13 L 4.000E-002 1.000E+OOO 472 A-L2Wl-XHE-Sl-17 L 8.000E-002 1.000E+OOO 473 A-L2Wl-XHE-S2-13 L 1.000E+OOO 1. OOOE+OOO 474 A-L2Wl-XHE-S2-17 L 1.000E+OOO 1.000E+OOO 475 A-L2Wl-XHE-SF-13 L 1.000E-003 1.000E+OOO 476 A-L2Wl-XHE-SF-17 L 1.000E-003 1.000E+OOO 477 A-L2W2-XHE-C-13 L 1.000E-003 1.000E+OOO 478 A-L2W2-XHE-C-17 L 1. OOOE-003 1.000E+OOO 479 A-L2W2-XHE-C-4 L 1.000E-003 1.000E+OOO 480 A-L2W2-XHE-C-8 L 1.000E-003 1.000E+OOO 1993/09/28 11:48:16 page 10 N-10 /

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 481 A-L2W2-XHE-FH-14 L 2.000E-005 l.OOOE+OOO 482 A-L2W2-XHE-FH-18 L 2.000E-005 l.OOOE+OOO 483 A-L2W2-XHE-FH-5 L 2.000E-005 l.OOOE+OOO 484 A-L2W2-XHE-FH-9 L 2.000E-005 l.OOOE+OOO 485 A-L2W2-XHE-FL-14 L 8.000E-003 l.OOOE+OOO 486 A-L2W2-XHE-FL-18 L 1. 300E-002 1. OOOE+OOO 487 A-L2W2-XHE-FL-5 L 7.600E-004 1. OOOE+OOO 488 A-L2W2-XHE-FL-9 L 2.000E-003 1. OOOE+OOO 489 A-L2W2-XHE-G-10 L l.OOOE+OOO l.OOOE+OOO 490 A-L2W2-XHE-:G-6 L 1. OOOE+OOO 1. OOOE+OOO 491 A-L2W2-XHE-P-13 L 1. OOOE-00.4 1. OOOE+OOO 492 A-L2W2-XHE-P-17 L 1. OOOE-004 1. OOOE+OOO 493 A-L2W2-XHE-P-4 L 1. OOOE-004 1.000E+OOO 494 A-L2W2-XHE-P-8 L l.OOOE-004 1.000E+OOO 495 A-L2W2-XHE-R-4 L S.900E-003 1. OOOE+OOO 496 A-L2W2-XHE-Sl-13 L 2.600E-003 1.000E+OOO 497 A-L2W2-XHE-Sl-17 L S.300E-003 1. OOOE+OOO 498 A-L2W2-XHE-S2-13 L 1. OOOE+OOO 1. OOOE+OOO 499 A-L2W2-XHE-S2-17 L 1. OOOE+OOO 1.000E+OOO 500 A-L2W2-XHE-SF-13 L 1. OOOE-003 1.000E+OOO 501 A-L2W2-XHE-SF-17 L l.OOOE-003 1. OOOE+OOO 502 A-L2W2-XHE-X L 1. OOOE-003 1. OOOE+OOO 503 A-L2W3-XHE-FH-10 L 2.000E-005 1.000E+OOO 504 A-L2W3-XHE-FH-12 L 2.000E-005 1.000E+OOO sos A-L2W3-XHE-FH-4 L 2. OOOE-005

  • 1.000E+OOO 506 A-L2W3-XHE-FH-7 L 2.000E-005 1.000E+OOO 507 A-L2W3-XHE-FL-10 L 8.000E-003 1.000E+OOO 508 A-L2W3-XHE-FL-12 L 1. 300E-002 1. OOOE+OOO 509 A-L2W3-XHE-FL-4 L 7.600E-004 1.000E+OOO 510 A-L2W3-XHE-FL-7 L 2.000E-003 1. OOOE+OOO 511 A-L2W3-XHE-G-5 L l.OOOE+OOO 1. OOOE+OOO s12* A-L2W3-XHE-G-8 L 1. OOOE+OOO l.OOOE+OOO 513 A-L2W3-XHE-R-4 L S.900E-003 1. OOOE+OOO 514 A-L2W3-XHE-Sl-5 L 2.600E-003 1.000E+OOO 515 A-L2W3-XHE-Sl-7 L S.300E-003 1. OOOE+OOO 516 A-L2W3-XHE-Sl-8 L S.300E-003 l.OOOE+OOO 517 A-L2W3-XHE-S2-5 L 1. OOOE+OOO 1. OOOE+OOO 518 A-L2W3-XHE-S2-7 L l.OOOE+OOO 1. OOOE+OOO 519 A-L2W3-XHE-S2-8 L 1. OOOE+OOO 1.000E+OOO 520 A-L2W3-XHE-SF-5 L l.OOOE-003 1. OOOE+OOO 521 A-L2W3-XHE-SF-7 L 1.000E-003 1. OOOE+OOO 522 A-L2W3-XHE-SF-8 L l.OOOE-003 l.OOOE+OOO 523 A-L2W4-XHE-FH-10 L 2.000E-005 1. OOOE+OOO 524 A-L2W4-XHE-FH-12 L 2.000E-005 1. OOOE+OOO 525 A-L2W4-XHE-FH-5 L. 2.000E-005 l.OOOE+OOO 526 A-L2W4-XHE-FH-8 L 2.000E-005 l.OOOE+OOO 527 A-L2W4-XHE-FL-10 L 1.lOOE-003 l.OOOE+OOO 528 A-L2W4-XHE-FL-12 L 1.lOOE-003 l.OOOE+OOO 1993/09/28 11:48:16 page 11 N-11

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 529 A-L2W4-XHE-FL-5 L 6.900E-005 l.OOOE+OOO 530 A-L2W4-XHE-FL-8 L 6.900E-005 l.OOOE+OOO 531 A-L2W4-XHE-G-5 L 1. OOOE+OOO l.OOOE+OOO 532 A-L2W4-XHE-G-8 L l.OOOE+OOO l.OOOE+OOO 533 A-L2W4-XHE-R-5 L 1. 600E-003 l.OOOE+OOO 534 A-L2W4-XHE-Sl-5 L 1. OOOE-003 l.OOOE+OOO 535 A-L2W4-XHE-Sl-7 L 2.000E-003 l.OOOE+OOO 536 A-L2W4-XHE-Sl-8 L 2.000E-003 1. OOOE+OOO 537 A-L2W4-XHE-S2-5 L 1. oo'oE+OOO. 1. OOOE+OOO 538 A-L2W4-XHE,:S2-7 L l.OOOE+OOO l.OOOE+OOO 539 A-L2W4-XHE.:.s2-8 L 1. OOOE+OOO l.OOOE+OOO 540 A-L2W4-XHE-SF-5 L l.OOOE-003 l.OOOE+OOO 541 A-L2W4-XHE-SF-7 L 1. OOOE-003 l.OOOE+OOO 542 A-L2W4-XHE-SF-8 *L 1. OOOE-003 l.OOOE+OOO 543 A-L3Wl-XHE-C-13 L 1. OOOE-003 l.OOOE+OOO 544 A-L3Wl-XHE-C-17 L l.OOOE-003 l.OOOE+OOO 545 A-L3Wl-XHE-C-4 L l.OOOE-003 l.OOOE+OOO 546 A-L3Wl-XHE-C-8 L l.OOOE-003 1. OOOE+OOO 547 A-L3Wl-XHE-CW-14 L 7.500E-002 l.OOOE+OOO 548 A-L3Wl-XHE-CW-18 L 7.500E-002 l.OOOE+OOO 549 A-L3Wl-XHE-CW-4 L 7.500E-002 l.OOOE+OOO 550 A-L3Wl-XHE-CW-5 L 7.500E-002 l.OOOE+OOO 551 A-L3Wl-XHE-CW-9 L 7.500E-002 l:OOOE+OOO 552 A-L3Wl-XHE-FH-14 L 5.000E-005 l.OOOE+OOO 553 A-L3Wl-XHE-FH-18 L 5.000E-005 1. OOOE+OOO 554

  • A-L3Wl-XHE-FH-5 L 5.000E-005 l.OOOE+OOO 555 A-L3Wl-XHE-FH-9 L 5.000E-005 l.OOOE+OOO 55'6 A-L3Wl-XHE-FL-14 L 6.lOOE-002 l.OOOE+OOO 557 A-L3Wl-XHE-FL-18 L 6.lOOE-002 1. OOOE+OOO 558 A-L3Wl-XHE-FL-5 L l.OOOE-002 1. OOOE+OOO 559 A-L3Wl-XHE-FL-9 L 6.600E-002 1. OOOE+OOO 560 A-L3Wl-XHE-G-10 L 1. OOOE+OOO l.OOOE+OOO 561 A-L3Wl-XHE-G-6 L l.OOOE+OOO 1. OOOE+OOO 562 A-L3Wl-XHE-P-13 L 1.000E-004 l.OOOE+OOO 563 A-L3Wl-XHE-P-17 L 1. OOOE-004 1. OOOE+OOO 564 A-L3Wl-XHE-P-4 L 1. OOOE-004 l.OOOE+OOO 565 A-L3Wl-XHE-P-8 L 1.000E-004 1. OOOE+OOO 566 A-L3Wl-XHE-R-4 L 1.600E-002 l.OOOE+OOO 567 A-L3Wl-XHE-S1-l3 L 4.000E-002 l.OOOE+OOO 568 A-L3Wl-XHE-S1-l7 L 8.000E-002 l.OOOE+OOO 569 A-L3Wl-XHE-S2-13 L 1. OOOE+OOO l.OOOE+OOO 570 A-L3Wl-XHE-S2-17 L 1. OOOE+OOO . l.OOOE+OOO 571 A-L3Wl-XHE-SF-13 L l.OOOE-003 l.OOOE+OOO 572 A-L3Wl-XHE-SF-17 L l.OOOE-003 l.OOOE+OOO 573 A-L3W2-XHE-C-13 L l.OOOE-003 l.OOOE+OOO 574 A-L3W2-XHE-C-17 L l.OOOE-003 l.OOOE+OOO 575 A-L3W2-XHE-C-4 L 1. OOOE-003 l.OOOE+OOO 576 A-L3W2-XHE-C-8 L 1. OOOE-003 l.OOOE+OOO 1993/09/28 11:48:16 page 12 N-12
  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 577 A-L3W2-XHE-CW-14 L l.900E-002 1.000E+OOO 578 A-L3W2-XHE-CW-18 L l.900E-002 1.000E+OOO 579 A-L3W2-XHE-CW-4 L 1.900E-002 1.000E+OOO 580 A-L3W2-XHE-CW-5 L 1.900E-002 1.000E+OOO 581 A-L3W2-XHE-CW-9 L 1.900E-002 1.000E-+:000 582 A-L3W2-XHE-FH-14 L 2.000E-005 1.000E+OOO 583 A-L3W2-XHE-FH-18 L 2.000E-005 1.000E+OOO 584 A-L3W2-XHE-FH-5 L 2.000E-005 1.000E+OOO 585 A-L3W2-XHE-FH-9 L 2.000E-005 1.000E+OOO 586 A-L3W2-XHE-:FL-14 L 8.000E-003 1.000E+OOO 587 A-L3W2-XHE--FL-18 L 1. 300E-002 1.000E+OOO 588 A-L3W2-XHE-FL-5 L 7.600E-004 1.000E+OOO 589 A-L3W2-XHE-FL-9 L 2.000E-003 1.000E+OOO 590 A-L3W2-XHE-G-10 L 1.000E+OOO 1.000E+OOO 591 A-L3W2-XHE-G-6 L 1.000E+OOO 1.000E+OOO 592 A-L3W2-XHE-P-13 L 1.000E-004 1.000E+OOO 593 A-L3W2-XHE-P-17 L 1.000E-004 1.000E+OOO 594 A-L3W2-XHE-P-4 L 1. OOOE-004 1. OOOE+OOO 595 A-L3W2-XHE-P-8 L 1. OOOE-004 1. OOOE+OOO 596 A-L3W2-XHE-R-4 L 5.900E-003 1.000E+OOO 597 A-L3W2-XHE-S1-l3 L 2.600E-003 1.000E+OOO 598 A-L3W2-XHE-S1-17 L 5.300E-003 1.000E+OOO 599 A-L3W2-XHE-S2-13 L 1.000E+OOO 1. OOOE+OOO 600 A-L3W2-XHE-S2-l7 L 1.000E+OOO 1.000E+OOO 601 A-L3W2-XHE-SF-13 L 1.000E-003 1. OOOE+OOO 602 A-L3W2-XHE-SF-17 L 1.000E-003 1. OOOE+OOO 603 A-L3W2-XHE-X L 1. OOOE-003 1. OOOE+OOO 604 A-L3W3-XHE-CW-10 L 1.900E-002 1. OOOE+OOO 605 A-L3W3-XHE-CW-12 L 1.900E-002 1. OOOE+OOO 606 A-L3W3.:.XHE-CW-4 L 1.900E-002 1.000E+OOO 607 A-L3W3-XHE-CW-7 L l.900E-002 1. OOOE+OOO 608 A-L3W3-XHE-FH-10 L 2.000E-005 1. OOOE+OOO 609 A-L3W3-XHE-FH-12 L 2.000E-005 1.000E+OOO 610 A-L3W3-XHE-FH-4 L 2.000E-005 1. OOOE+OOO 611 A-L3W3-XHE-FH-7 L 2.000E-005 1. OOOE+OOO 612 A-L3W3-XHE-FL-10 L 8.000E-003 1. OOOE+OOO 613 A-L3W3-XHE-FL-12 L 1.300E-002 1. OOOE+OOO 614 A-L3W3-XHE-FL-4 L 7.600E-004 1. OOOE+OOO 615 A-L3W3-XHE-FL-7 L 2.000E-003 1.000E+OOO 616 A-L3W3-XHE-G-5 L 1. OOOE+OOO 1. OOOE+OOO 617 A-L3W3-XHE-G-8 L 1.000E+OOO 1.000E+OOO 618 A-L3W3-XHE-R-4 L 5.900E-003 1.000E+OOO 619 A-L3W3-XHE-S1-5 L 2.600E-003 1.000E+OOO 620 A:...L3W3-XHE-S1~7 L 5.300E-003 1. OOOE+OOO 621 A-L3W3-XHE-Si-8 *L 5.300E-003 1. OOOE+OOO 622 A-L3W3-XHE-S2-5 L 1.000E+OOO 1. OOOE+OOO 623 A-L3W3-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 624 A-L3W3-XHE-S2-:8 L 1.000E+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 13 N-13

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary* Name Type Probability Value Class 625 A-L3W3-XHE-SF-5 L 1.000E-003 1.000E+OOO 626 A-L3W3-XHE-SF-7 L 1.000E-003 1.000E+OOO 627 A-L3W3-XHE-SF-8 L 1.000E-003 1.000E+OOO 628 A-L3W4-XHE-CW-10 L 7.500E-003 l.OOOE+OOO 629 A-L3W4-XHE-CW-12 L 7.500E-003 1. OOOE+OOO 630 A-L3W4-XHE-CW-5 L 7.500E-003 1. OOOE+OOO 631 A-L3W4-XHE-CW-8 L 7.500E-003 1.000E+OOO 632 A-L3W4-XHE-FH-10 L 2.000E-005 1. OOOE+OOO 633 A-L3W4-XHE-FH-12 L 2.000E-005 1. OOOE+OOO 634 A-L3W4-XHE-:FH-5 L 2.000E-005 1.000E+OOO 635 A-L3W4-XHE..:FH-8 L 2.000E-005 1.000E+OOO 636 A-L3W4-XHE-FL-10 L 1.lOOE-003 1.000E+OOO 637 A-L3W4-XHE-FL-12 L 1.lOOE-003 1.000E+OOO 638 A-L3W4-XHE-FL-5 L 6.900E-005 1.000E+OOO 639 A-L3W4-XHE-FL-8 L 6.900E-005 1.000E+OOO 640 A-L3W4-XHE-G-5 L 1.000E+OOO 1. OOOE+OOO 641 A-L3W4-XHE-G-8 L 1.000E+OOO 1.000E+OOO 642 A-L3W4-XHE-R-5 L 1.600E-003 1. OOOE+OOO 643 *A-L3W4-XHE-Sl-5 L 1.000E-003 1.000E+OOO 644 A-L3W4-XHE-Sl-7 L 2.000E-003 1.000E+OOO 645 A-L3W4-XHE-Sl-8 L 2.000E-003 1.000E+OOO 646 A-L3W4-XHE-S2-5 L 1.000E+OOO 1.000E+OOO 647 A-L3W4-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 648 A-L3W4-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 649 A'-L3W4-XHE-SF-5 L 1.000E-003 1.000E+OOO 650 A-L3W4-XHE-SF-7 L l.OOOE-003 1.000E+OOO 651 A-L3W4-XHE-SF-8 L 1.000E-003 1.000E+OOO 652 A-M13Wl-XHE-FH-l L 7.200E-001 1.000E+OOO FS 653 A-M13Wl-XHE-R-3 L 5.900E-001 1. OOOE+0.00 FT 654 A-Ml3W2-XHE-R-3 L 2 .400E-001 2.000E+OOO FU 655 A-Ml3W3-XHE-R-3 L 2.400E-001 2.000E+OOO FU 656 A-MlWl-XHE-FH-9 L 8.300E-002 5.000E+OOO FV 657 A-MlWl-XHE-FL-9 L 2.llOE-001 2.000E+OOO FW 658 A-MlW2-XHE-FH-9 L 5.600E-002 5.000E+OOO FX 659 A-MlW2-XHE-FL-9 L 1. 450E-001 2.000E+OOO FY 660 A-M1W2-XHE-Sl-8 L 2.000E-001 2.000E+OOO FG 661 A-MlW3-XHE-FH-3 L 2.lOOE-002 5.000E+OOO FZ 662 A-M1W3-XHE-FH-7 L 5.600E-002 5.000E+OOO FX 663 A-M1W3-XHE-FL-3 L 5.290E-002 5.000E+OOO Fl 664 A-M1W3-,XHE-FL-7 L 1.450E-001 2.000E+OOO FY 665 A-MlW3-XH;E-Sl-7 L 2.000E-001 2.000E+OOO FG 666 A-M3Wl-XHE-FH-10 L 7.200E-001 1.000E+OOO FS 667 A-M3Wl-XHE-R-12 L 5.900E-001 1.000E+OOO FT 668 A-M3Wl-XHE-R-3 L 5.900E-001 l.OOOE+OOO FT 669 A-M3W2-XHE-FH-10 L 2.600E-001 2.000E+OOO F2 670 A-M3W2-XHE-FH-5 L 2.600E-001 2.000E+OOO F2 671 A-M3W2-XHE-FL-10 L 5.800E-001 1.000E+OOO F3 672 A-M3W2-XHE-FL-5 L 5.800E-001 1.000E+OOO F3 1993/09/28 11:48:16 page 14 N-14

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 673 A-M3W2-XHE-R-12 L 2.400E-001 2.000E+OOO FU 674 A-M3W2-XHE-R-3 L 2.400E-001 2.000E+OOO FU 675 A-M3W2-XHE-S2-8 L 2.BOOE-002 S.OOOE+OOO F4 676 A-M3W3-XHE-FH-4 L 2.600E-001 2.000E+OOO F2 677 A-M3W3-XHE-FH-7 L 2.600E-001 2.000E+OOO F2 678 A-M3W3-XHE-FL-4 L 5.BOOE-001 1. OOOE+OOO F3 679 A-M3W3-XHE-FL-7 L 5.BOOE-001 1.000E+OOO F3 680 A-M3W3-XHE-R-3 L 2.400E-001 2.000E+OOO FU 681 A-M3W3-XHE-S2-4 L 2.BOOE-002 S.OOOE+OOO F4 682 A-M3W4-XHE"?.FH-7 L 9.lOOE-002 S.OOOE+OOO FS.

683 A-M3W4-XHE-'FL-7 L 2.290E-001 2.000E+OOO F6 684 A-M3W4-XHE-R-3 L 7.lOOE-002 5.000E+OOO F7 685 A-M4Wl-XHE-Sl-8 L 2.000E-001 2.000E+OOO FG 

  . 686   A-M4W2-XHE-Sl-8           L           2.000E-001      2.000E+OOO       FG 687   A-M4W3-XHE-Sl-7           L           2.000E-001      2.000E+OOO       FG 688   A-M4W4-XHE-Sl-7           L           2.000E-001      2.000E+OOO       FG 689   A-MBWl-XHE-FL-9           L           2.llOE-001      2.000E+OOO       FW 690   A-MBW2-XHE-FL-9           L           1. 450E-001     2.000E+OOO       FY 691   A-MBW2-XHE-Sl-8           L           2.000E-001      2.000E+OOO       FG 692   A-MBW3-XHE-FL-3           L           S.290E-002      5.000E+OOO       Fl 693   A-MBW3-XHE-FL-7           L           1. 450E-001     2.000E+OOO       FY 694   A-MBW3-XHE-Sl-7           L           2.000E-001      2.000E+OOO       FG 695   A-MBW4-XHE-FL-4           L           2.920E-002      S.OOOE+OOO       F8 696   A-M8W4-XHE-FL-7           L           2. 920E-002     S.OOOE+OOO       F8 697   A-MAWl-XHE-FH-9           L           8.300E-002     *s. OOOE+OOO      FV 698   A-MAWl-XHE-FL-9           L           2.llOE-001      2.000E+OOO       FW 699   A-MAWl-XHE-Sl-8           L           2.000E-001      2.000E+OOO       FG 700   A-MAW2-XHE-FH-4           L           2.lOOE-002      5.000E+OOO       FZ 701   A-MAW2-XHE-FH-9           L           S.600E-002      S.OOOE+OOO       FX 702   A-MAW2-XHE-FL-4           L           5.290E-002      5.000~+000       Fl 703   A-MAW2-XHE-FL-9           L           1.450E-001      2.000E+OOO       FY 704   A-MAW2-XHE-Sl-8           L           2.000E-001      2.000E+OOO       FG 705   A-MAW2-XHE-X              L           1.000E-003      1.000E+OOl       FL 706   A-MAW3-XHE-FH-3           L           2.lOOE-002      5.000E+OOO       FZ 707   A-MAW3-XHE-FH-7           L           5.600E-002      S.OOOE+OOO       FX 708   A-MAW3-XHE-FL-3           L           5.290E-002      S.OOOE+OOO       Fl 709   A-MAW3-XHE-FL-7*          L           1.450E-001      2.000E+OOO       FY 710   A-MAW3-XHE-Sl-7           L           2.000E-001      2.000E+OOO       FG 711   A-MAW4-XHE-FH-4           L           1. 300E-002     S.OOOE+OOO       F9 712   A-MAW4-XHE-FH-7           L           1. 300E-002     S.OOOE+OOO       F9 713   A-MAW4-XHE-FL-4           L           2.920E-002      S.OOOE+OOO       FB 714   A-MAW4-XHE-FL-7           L           2.920E-002      S.OOOE+OOO       F8 715   A-MCWl-XHE-FH-9           L           8.300E-002      5.000E+OOO       FV 716   A-MCWl-XHE-FL-9           L           2.llOE-001      2.000E+OOO       FW 717   A-MCW2-XHE-FH-9           L           S.600E-002      S.OOOE+OOO       FX 718   A-MCW2-XHE-FL-9           L           1.450E-001      2.000E+OOO       FY 719   A-MCW2-XHE-Sl-8           L           2.000E-001      2.000E+OOO       FG 720   A-MCW3-XHE-FH-7           L           S.600E-002      5.000E+OOO       FX 1993/09/28                      11:48:16                            page     15
  • N-15

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 721 A-MCW3-XHE-FL-7 L l.4SOE-001 2.000E+OOO FY 722 A-MCW3-XHE-Sl-7 L 2.000E-001 2.000E+OOO FG 723 A-MGWl-XHE-C-18 L l.OOOE-003 l.OOOE+OOl FL 724 A-MGWl-XHE-FL-19 L 2.SOOE-001 2.000E+OOO AS 725 A-MGW1-XHE-S2-17 L 4.000E-001 1. SOOE+OOO FP 726 A-MGW2-XHE-FL-19 L S.400E-002 S.OOOE+OOO FD 727 A-MHWl-XHE-R-12 L 5.900E-001 1. OOOE+OOO FT 728 A-MHW2-XHE-R-12 L 2.400E-001 2.000E+OOO FU 729 A-NlWl-XHE-FL-19 L 4.710E-001 l.SOOE+OOO FA 730 A-NlWl-XHE-:R-12 L l.lOOE-001 2.000E+OOO FB 731 A-NlW2-XHE_;FL-19 L 2.370E-001 2.000E+OOO FC 732 A-NlW2-XHE-R-12 L S.400E-002 S.OOOE+OOO FD 733 A-NlW3-XHE-FL-10 L 2.370E-001 2.000E+OOO FC 734 A-N1W3-XHE-FL-13 L 2.370E-001 2.000E+OOO FC 735 A-NlW3-XHE-R-9 L S.400E-002 S.OOOE+OOO FD 736 A-N2Wl-XHE-FL-19 L 4.710E-001 1. SOOE+OOO FA 737 A-N2Wl-XHE-R-12 L 1.lOOE-001 2.000E+OOO FB 738 A-N2W2-XHE-FL-19 L 2.370E-001 2.000E+OOO FC 739 A-N2W2-XHE-R-12 L S.400E-002 S.OOOE+OOO FD 740 A-N2W3-XHE-FL-13 L 2.370E-001 2.000E+OOO FC 741 A-N2W3-XHE-R-9 L 5.400E-002 S.OOOE+OOO FD 742 A-R3D6-XHE-F-3 L 4.lOOE-002 1.000E+OOO 743 A-R3R10-XHE-F-4 L 6.900E-005 1. OOOE+OOO 744 A-R3R10-XHE-G-4 L 1.700E-004 1.000E+OOO 745 A-R3R6-XHE-F-4 L 1.200E-003 1.000E+OOO 746 A-R3R6-XHE-G-5 L 1. lOOE-003 1.000E+OOO 747 A-R3R6-XHE-S-8 L 4.200E-003 1.000E+OOO 748 A-R3Wl-XHE-C-3 L 1. OOOE-003 1.000E+OOl 749 A-R3Wl-XHE-C-8 L 1.000E-003 1.000E+OOl 750 A-R3Wl-XHE:-FH-4 L S.OOOE-005 1.000E+OOl 751 A-R3Wl-XHE-FH-9 L S.OOOE-005 1.000E+OOl 752 A-R3Wl-XHE-FL-4 L S.OOOE-003 l.OOOE+OOl 753 A-R3Wl-XHE-FL-9 L 1. OOOE-002 S.OOOE+OOO 754 A-R3Wl-XHE-G-5 L 1.000E+OOO 1.000E+OOO 755 A-R3Wl-XHE-P-3 L 1.000E-004 1. OOOE+OOl 756 A-R3Wl-XHE-Sl-8 L 4.lOOE-002 S.OOOE+OOO 757 A-R3Wl-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 758 A-R3Wl-XHE-SF-8 L 1. OOOE-003 1. OOOE+OOl 759 A-R3W2-XHE-C-3 L 1.000E-003 1.000E+OOl 760 A-R3W2-XHE-C-8 L l.OOOE-003 1. CiOOE+OOl 761 A-R3W2-XHE-FH-4 L 2.000E-005 1.000E+OOl 762 A-R3W2-XHE-FH-9 L 2.000E-005 1.000E+OOl 763 A-R3W2-XHE-FL-4 L 1.200E-003 1.000E+OOl 764 A-R3W2-XHE-FL-9 L 1.200E-003 1.000E+OOl 765 A-R3W2-XHE-G-5 L 1.000E+OOO 1. OOOE+OOO . 766 A-R3W2-XHE-P-3 L l.OOOE-004 1. 00.0E+OOl 767 A-R3W2-XHE-Sl-8 L 4.200E-002 5.000E+OOO 768 A-R3W2-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 16 N-16

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 769 A-R3W2-XHE-SF-8 L 1.000E-003 1.000E+OOl 770 A-R3W2-XHE-X L 1. OOOE-003 1.000E+OOl 771 A-R3W3-XHE-FH-3 L 2.000E-005 1.000E+OOl 772 A-R3W3-XHE-FH-7 L 2.000E-005 l.OOOE+OOl 773 A-R3W3-XHE-FL-3 L 1.200E-003 1.000E+OOl 774 A-R3W3-XHE-FL-7 L 1.200E-003 1.000E+OOl 775 A-R3W3-XHE-G-4 L 1. OOOE+OOO 1. OOOE+OOO 776 A-R3W3-XHE-S1-7 L 4.200E-002 5. OOOE;+OOO 777 A-R3W3-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 778 A-R3W3-XHE-SF-7 L 1.000E-003 1.000E+OOl 779 A-R3W4-XHE--FH-4 L 2.000E-005 1.000E+OOl 780 A-R3W4-XHE-FH-7 L 2.000E-005 1.000E+OOl 781 A-R3W4-XHE-FL-4 L 1.200E-003 1.000E+OOl 782 A-R3W4-XHE-FL-7 L 1.200E-003 1.000E+OOl 783 A-R3W4-XHE-G-4 L 1.000E+OOO 1.000E+OOO 784 A-R3W4-XHE-Sl-7 L 4.200E-002 5.000E+OOO 785 A-R3W4-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 786 A-R3W4-XHE-SF-7 L 1.000E-003 1.000E+OOl 787 A-R4D6-XHE.-F-4 L 1. OOOE-002 1. OOOE+OOO 788 A-R4D6-XHE:..R-4 L 1. 200E-003 1.000E+OOO 789 A-R4R10-XHE-F-5 L 6.900E-005 1.000E+OOO 790 A-R4R10-XHE-G-5 L 1.700E-004 1.000E+OOO 791 A-R4R10-XHE-R-5 L 1.200E-004 1.000E+OOO 792 A-R4R6-XHE-F-5 L 7.600E-004 1. OOOE+OOO 793 A-R4R6-XHE-F-9 L 2.000E-003 1.000E+OOQ 794 A-R4R6-XHE-G-6 L 6.200E-004 1. OOOE+OOO 795 A-R4R6-XHE-R-5 L 5.200E-004 1.000E+OOO 796 A-R4R6-XHE-S-9 L 2.600E-003 1.000E+OOO 797 A-R4Wl-XHE-C-4 L 1.000E-003 l.OOOE+OOO 798 A-R4Wl-XHE-C-9 L 1.000E-003 1. OOOE+OOO 799 A-R4Wl-XHE-FH-10 L 1.000E-002 1. OOOE+OOO 800 A-R4Wl-XHE-FH-5 L 5.000E-005 1.000E+OOO 801 A-R4.Wl-XHE-FL-.10 L 5.000E-005 1.000E+OOO 802 A-R4Wl-XHE-FL-5 L 5.000E-003 1.000E+OOO 803 A-R4Wl-XHE-G-6 L 1. OOOE+OOO 1.000E+OOO 804 A-R4Wl-XHE-P-4 L 1. OOOE-004 1.000E+OOO 805 A-R4Wl-XHE-R-4 L 1. 200E-003 l.OOOE+OOO 806 A-R4Wl-XHE-S1-9 L 4.000E-002 1. OOOE+OOO 807 A-R4W1-XHE-S2-9 L 1.000E+OOO l.OOOE+OOO 808 A-R4Wl-XHE-SF-9 L 1.000E-003 1.000E+OOO 809 A-R4W2-XHE-C-4 L 1.000E-003 l.OOOE+OOO 810 A-R4W2-XHE-C-9 L 1.200E-003 l.OOOE+OOO 811 A-R4W2-XHE-FH-10 L 1.200E-003 l.OOOE+OOO 812 A-R4W2-XHE-FH-5 L 2.000E-005 l.OOOE+OOO 813 A-R4W2-XHE-FL-10 L 2 .. OOOE-005 l.OOOE+OOO 814 A-R4W2-XHE-FL-5 L 1. 200E-003 l.OOOE+OOO 815 A-R4W2-XHE-G-6 L 1.000E+OOO LOOOE+OOO 816 A-R4W2-XHE-P-4 L 1.000E-004 l.OOOE+OOO 1993/09/28 11:48:16 page 17 N-17

BASIC EVENTS UNCERTAINTY VALUES REPORT Fatnily: RHRTEST Case: ALTERNATE Event Disttibution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 817 A-R4W2-XHE-R-4 L 5.200E-004 1.000E+OOO 818 A-R4W2-XHE-Sl-9 L 2.600E-003 1.000E+OOO 819 A-R4W2-XHE-S2-9 L 1.000E+OOO 1.000E+OOO 820 A-R4W2-XHE-SF-9 L 1.000E-003 1.000E+OOO 821 A-R4W2-XHE-X L 1.000E-003 1.000E+OOO 822 A-R4W3-XHE-FH-4 L 2.000E-005 1.000E+OOO 823 A-R4W3-XHE-FH-8 L 1.200E-003 1.000E+OOO 824 A-R4W3-XHE-FL-4 L 1.200E-003 1.000E+OOO 825 A-R4W3-XHE~FL-8 L 2.000E-005 1.000E+OOO 826 A-R4W3-XHE,0-5 L 1.000E+OOO 1.000E+OOO 827 A-R4W3-XHE.:R-4 L 5.200E-004 1.000E+OOO 828 A-R4W3-XHE-Sl-8 L 2.600E-003 1.000E+OOO 829 A-R4W3-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 830 A-R4W3-XHE-SF-8 L 1.000E-003 1.000E+OOO 831 A-R4W4-XHE-FH-5 L 2.000E-005 1.000E+OOO 832 A-R4W4-XHE-FH-8 L 1.200E-003 1.000E+OOO 833 A-R4W4-XHE-FL-5 L 1.200E-003 1. OOOE+'OOO 834 A-R4W4-XHE-FL-8 L 2.000E-005 1.000E+OOO 835 A-R4W4-XHE-G-5 L 1.000E+OOO 1.000E+OOO 836 A-R4W4-XHE-R-5 L 1.200E-004 1. OOOE+OOO 837 A-R4W4_:XHE-S1-8 L 1.000E-003 1.000E+OOO 838 A-R4W4-XHE-S2-8 L 1. OOOE+OOO 1.000E+OOO 839 A-R4W4-XHE-SF-8 L 1.000E-003 1.000E+OOO 840 A-R5D6-XHE-F-4 L 1.000E-002 1.000E+OOO 841 A-R5D6-XHE-R-4 L 1.200E-003 1.000E+OOO 842 A-R5R10-XHE-F-5 L 6.900E-005 1.000E+OOO 843 A-R5R10-XHE-G-5 L 1.700E-004 1.000E+OOO 844 A-R5R10-XHE-R-5 L 1. 200E-004 1.000E+OOO 845 A-R5R6-XHE-F-5 L 7.600E-004 1.000E+OOO 846 A-R5R6-XHE-F-9 L 2.000E-003 1.000E+OOO 847 A-R5R6-XHE-G-6 L 6.200E-004 1.000E+OOO 848 A-R5R6-XHE-R-5 L 5.200E-004 1.000E+OOO 849 A-R5R6-XHE-S-9 L 2.600E-003 1.000E+OOO 850 A-R5Wl-XHE-C-4 L 1.000E-003 1.000E+OOO 851 A-R5Wl-XHE-C-9 L 1.000E-003 1.000E+OOO 852 A-R5Wl-XHE-FH-10 L 1.000E-002 1.000E+OOO 853 A-R5Wl-XHE-FH-5 L 5.000E-005 1.000E+OOO 854 A-R5Wl-XHE-FL-10 L 5.000E-005 1.000E+OOO 855 A-R5Wl-XHE-FL-5 L 5.000E-003 1.000E+OOO 856 A-R5Wl-XHE-G-6 L 1.000E+OOO 1.000E+OOO 857 A-R5Wl-XHE-P-4 L 1.000E-004 1.000E+OOO 858 A-R5Wl-XHE-R-4 L 1.200E-003 1.000E+OOO 859 A-R5W1-XHE-S1-9 L 4.000E-002 1.000E+OOO 860 A-R5W1-XHE-S2-9 L 1.000E+OOO 1.000E+OOO 861 A-R5Wl-XHE-SF-9 L 1.000E-003 1.000E+OOO 862 A-R5W2-XHE-C-4 L 1.000E-003 1.000E+OOO 863 A-RSW2-XHE-C-9 L 1.200E-003 1.000E+OOO 864 A-RSW2-XHE-FH-10 L 1.200E-003 1.000E+OOO 1993/09/28 11:48:16 page 18 N-18

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 865 A-R5W2-XHE-FH-5 L 2.000E-005 l.OOOE+OOO 866 A-R5W2-XHE-FL-10 L 2.000E-005 l.OOOE+OOO 867 A-RSW2-XHE-FL-5 L l.200E-003 l.OOOE+OOO 868 A-RSW2-XHE-G-6 L l.OOOE+OOO 1. OOOE+OOO 869 A-RSW2-XHE-P-4 L 1.000E-004 1. OOOE+OOO 870 A-RSW2-XHE-R-4 L S.200E-004 1.000E+OOO 871 A-RSW2-XHE-Sl-9 L 2.600E-003 l.OOOE+OOO 872 A-RSW2-XHE-S2-9 L 1. OOOE+OOO 1. OOOE+OOO 873 A-RSW2-XHE-SF-9 L 1. OOOE-003 1. OOOE+OOO
   .874   A-RSW2-XHE-~             L          1.000E-003     1.000E+OOO 875    A-RSW3-XHE-FH-4          L          1. 200E-003    1.000E+OOO 876    A-RSW3-XHE-FH-8          L          1.200E-003     1.000E+OOO 877    A-RSW3-XHE-FL-4          L          1. 200E-003    1.000E+OOO 878    A-RSW3-XHE-FL-8          L          2.000E-005     1.000E+OOO 879    A-RSW3-XHE-G-5           L          1.000E+OOO     1. OOOE+OOO 880    A-RSW3-XHE-R-4           L          S.200E-004     1.000E+OOO 881    A-RSW3-XHE-S1-8          L          2.600E-003     1.000E+OOO 882    A-RSW3-XHE-S2-8          L          l.OOOE+OOO     1.000E+OOO 883    A-R5W3-XHE-SF-8          L          1.000E-003     1.000E+OOO 884    A-R5W4-XHE-FH-5          L          2.000E-005     1.000E+OOO 885    A-R5W4-XHE-FH-8          L          1. 200E-003    1.000E+OOO 886    A-RSW4-XHE-FL-5          L          1.200E-003     1. OOOE+OOO 887    A-R5W4-XHE-FL-8          L          2.000E-005     1.000E+OOO 888    A-R5W4-XHE-G-5           L
  • 1. OOOE+OOO 1.000E+OOO 889 A-R5W4-XHE-R-5 L l.200E-004 1. OOOE+OOO 890 A-RSW4-XHE-S1-8 L 1.000E-003 1.000E+OOO 891 A-R5W4-XHE-S2-8 L 1.000E+OOO 1.000E+OOO 892 A-R5W4-XHE-SF-8 L 1. OOOE-003 1.000E+OOO 893 A-RAD6-XHE-F-4 L 1.000E-002 1. OOOE+OOO 894 A-RAD6-XHE-F-6 L 6.600E-002 1.000E+OOO 895 A-RAD6-XHE-M-6 L 1.lOOE-004 1.000E+OOO 896 A-RAD6-XHE-R-4 L l.200E-003 1.000E+OOO 897 A-RARlO-XHE-F-5 L 6.900E-005 1.000E+OOO 898 A-RARlO-XHE-G-10 L 2.800E-004 1.000E+OOO 899 A-RARlO-XHE-G-5 L 1. 700E-004 1.000E+OOO 900 A-RARlO-XHE-M-10 L 6.700E-006 1.000E+OOO 901 A-RARlO-XHE-R-5 L 1. 200E-004 1.000E+OOO 902 A-RAR6-XHE-F-13 L 3.300E-003 1. OOOE+OOO 903 A-RAR6-XHE-F-16 L S.400E-003 1.000E+OOO 904 A-RAR6-XHE-F-5 L 7.600E-004 1.000E+OOO 905 A-RAR6-XHE-F-9 L 2.000E-003 1.000E+OOO 906 A-RAR6-XHE-G-13 L 9.800E-004 1. OOOE+OOO 907 A-RAR6-XHE-G-6 L 6.200E-004 1.000E+OOO 908 A-RAR6-XHE-M-12 L 2.000E-005 1.000E+OOO 909 A-RAR6-XHE-R-5 L 5.200E-004 1.000E+OOO 910 A-RAR6-XHE-S-16 L 6.900E-003 1.000E+OOO 911 A-RAR6-XHE-S-9 L 2.600E-003 1.000E+OOO 912 A-RBD6-XHE-F-4 L 1.000E-002 1.000E+OOO 1993/09/28 11:48:16 page 19
  • N-19

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 913 A-RBD6-XHE-F-6 L 6.600E-002 1.000E+OOO 914 A-RBD6-XHE-M-6 L 1.lOOE-004 1.000E+OOO 915 A-RBD6-XHE-R-4 L 1.200E-003 1.000E+OOO 916 A-RBRlO-XHE-F-5 L 6.900E-005 1.000E+OOO 917 A-RBRlO-XHE-G-10 L 2.800E-004 1.000E+OOO 918 A-RBRlO-XHE-G-5 L 1.700E-004 1.000E+OOO 919 A-RBRlO-XHE~M-10 L 6.700E-006 1.000E+OOO 920 A-RBRlO-XHE-R-5 L 1.200E-004 1.000E+OOO 921 A-RBR6-XHE-F-13 L 3.300E-003 1.000E+OOO 922 A-RBR6 -XHE-'.F-16 L 5.400E-003 1.000E+OOO 923 A-RBR6-XHE-*F-5 L 7.600E-004 1.000E+OOO 924 A-RBR6-XHE-F-9 L 2.000E-003 1.000E+OOO 925 A-RBR6-XHE-G-13 L 9.800E-004 l.OOOE+OOO 926 A-RBR6-XHE-G-6 L 6.200E-004 l.OOOE+OOO 927 A-RBR6-XHE-M-12 L 2.000E-005 l.OOOE+OOO 928 A-RBR6-XHE-R-5 L 5.200E-004 l.OOOE+OOO 929 A-RBR6-XHE-S-16 L 6.900E-003 l.OOOE+OOO 930 A-RBR6-XHE-S-9 L 2.600E-003 1.000E+OOO 931 A-SRD6-XHE-2CHG L 1.000E+OOO 1.000E+OOO 932 A-SRD6-XHE-CW-4 L l.OOOE+OOO l.OOOE+OOO 933 A-SRR10-XHE-2CHG L l.OOOE+OOO l.OOOE+OOO 934 A-SRRlO-XHE-CW-5 L 1.000E+OOO l.OOOE+OOO 935 A-SRR10-XHE-CW-7 L 1.000E+OOO l.OOOE+OOO 936 A-SRR6-XHE-2CHG L l.OOOE+OOO l.OOOE+OOO 937 A-SRR6-XHE-CW-5 L l.OOOE+OOO 1.000E+OOO 938 A-SRR6-XHE-CW-9 L l.OOOE+OOO 1.000E+OOO 939 A-SRW1-XHE-2CH-4 L 3.300E-001 l.OOOE+OOO 940 A-SRW1-XHE-2CH-7 L 3.300E-001 1.000E+OOO 941 A-SRWl-XHE-CW-4 L +O.OOOE+OOO 1.000E+OOO 942 A-SRWl-XHE-CW-7 L +O.OOOE+OOO 1.000E+OOO 943 A-SRWl-XHE-G-5 L 1.000E+OOO l.OOOE+OOO 944 A-SRWl-XHE-Sl-7 L 8.000E-002 1.000E+OOO 945 A-SRW1-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 946 A-SRWl-XHE-SF-7 L 1.000E-003 1.000E+OOO 947 A-SRW2-XHE-2CH-4 L 3.700E-002 l.OOOE+OOO 948 A-SRW2-XHE-2CH-7 L 3.700E-002 1.000E+OOO 949 A-SRW2-XHE-CW-4 L +O.OOOE+OOO l.OOOE+OOO 950 A-SRW2-XHE-CW-7 L +O.OOOE+OOO l.OOOE+OOO 951 A-SRW2-XHE-G-5 L 1.000E+OOO 1.000E+OOO 952 A-SRW2-XHE-S1-7 L 5.300E-003 1.000E+OOO 953 A-SRW2-XHE-S2-7 L 1.000E+OOO 1.000E+OOO 954 A-SRW2-XHE-SF-7 L 1.000E-003 1.000E+OOO 955 A-SRW3-XHE-2CH-4 L 3.700E-002 1.000E+OOO 956 A-SRW3-XHE-2CH-7 L 3.700E-002 1.000E+OOO 957 A-SRW3-XHE-CW-4 L +O.OOOE+OOO 1.000E+OOO 958 A-SRW3-XHE-CW-7 L +O.OOOE+OOO 1.000E+OOO 959 A-SRW3-XHE-G-5 L 1.000E+OOO 1.000E+OOO 960 A-SRW3-XHE-S1-5 L 5.300E-003 1.000E+OOO 1993/09/28 11:48:16 page 20 N-20

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability *value Class 961 A-SRW3-XHE-S2-5 L l.OOOE+OOO 1.000E+OOO 962 A-SRW3-XHE-SF-5 L 1.000E-003 1. OOOE+OOO 963 A-SRW4-XHE-2CH-5 L 1.400E-003 1.000E+OOO 964 A-SRW4-XHE-2CH-7

  • L 1.400E-003 1.000E+OOO 965 A-SRW4-XHE-CW-5 L +O.OOOE+OOO 1. OOOE+OOO 966 A-SRW4-XHE-CW-7 L +O.OOOE+OOO 1. OOOE+OOO 967 A-SRW4-XHE-G-5 L l.OOOE+OOO 1. OOOE+OOO 968 A-SRW4-XHE..;S1-5 L 2.000E-003 1.000E+OOO 969 A-SRW4-XHE-S2-5 L 1.000E+OOO 1.000E+OOO 970 A-SRW4-XHE-SF-5 L l.OOOE-003 1.000E+OOO 971 A-VBD6-XHE-F-3 L 1.000E+OOO 1.000E+OOO 972 A-VBRlO-XHE-F-4 L 1. OOOE+OOO 1.000E+OOO 973 A-VBRlO-XHE-G-4 L l.OOOE+OOO 1.000E+OOO 974 A-VBR6-XHE-F-4 L l.OOOE+OOO 1. OOOE+OOO.

975 A-VBR6-XHE-G-5 L 1. OOOE+OOO 1.000E+OOO 976 A-VBR6-XHE-S-8 L l.OOOE+OOO l.OOOE+OOO 977. A-VBWl-XHE-C-13 L l.OOOE-003 1.000E+OOl 

 .978   A-VBWl-XHE-C-18           L           1.000E-003     1. OOOE+OOl 979   A-VBWl-XHE-C-4            L           l.OOOE-003     1.000E+OOl 980   A-VBWl-XHE-C-9            L           l.OOOE-003     1.000E+OOl 981   A-VBWl-XHE-FH-10.         L           5.000E-005     1. OOOE+OOl 982   A-VBWl-XHE-FH-14          L           5.000E-005     1. OOOE+OOl 983   A-VBWl-XHE-FH-19          L           5.000E-005     1. OOOE+OOl 984   A-VBWl-XHE-FH-4           L           1. OOOE+OOO    1. OOOE+OOO 985   A-VBWl-XHE-FH-5           L           5.000E-005     1.000E+OOl 986   A-VBWl-XHE-FH-9           L           l.OOOE+OOO     1.000E+OOO 987   A-VBWl-XHE-FL-10          L           6.600E-002     5.000E+OOO 988   A-VBWl-XHE-FL-14          L           2.500E-001     2.000E+OOO 989   A-VBWl-XHE-FL-19          L           2.500E-001     2.000E+OOO 990   A-VBWl-XHE-FL-4           L           1. OOOE+OOO    1.000E+OOO 991   A-VBWl-XHE-FL-5           L           l.OOOE-002     5.000E+OOO 992   A-VBWl-XHE-FL-9           L           l.OOOE+OOO     1.000E+OOO 993   A-VBWl-XHE-G-15           L           1. OOOE+OOO    1. OOOE+OOO 994   A-VBWl-XHE-G-6            L           1.000E+OOO     1.000E+OOO 995   A-VBWl-XHE-P-13           L           1.000E-004     1.000E+OOl 996   A-VBWl-XHE-P-18           L           1. OOOE-004    1. OOOE+OOl 997   A-VBWl-:XHE-P-4           L           1.000E-004     1. OOOE+OOl 998   A-VBWl-XHE-P-9            L           l.OOOE-004     1.000E+OOl 999   A-VBWl-XHE-R-12           L           3.300E-002     5.000E+OOO 1000   A-VBWl-XHE-R-3            L           1.200E-003     1.000E+OOl 1001   A-VBWl-XHE-Sl-17          L           l.OOOE-003     1.000E+OOl 1002   A-VBWl-XHE-Sl-8           L           l.OOOE-003     1.000E+OOl 1003   A-VBW1-XHE-S2-17          L           4.000E-001     1. 500E+OOO 1004   A-VBW1-XHE-S2-8           L           4.000E-002     5.000E+OOO

. 1005 A-VBW1-XHE-S3-17 L l.OOOE+OOO 1.000E+OOO 1006 A-VBW1-XHE-S3-8 L l.OOOE+OOO 1.000E;+OOO 1007 A-VBW2-XHE-C-13 L l.OOOE-003 l.OOOE+OOl 1008 A-VBW2-XHE-C-18 L l.OOOE-003 1.000E+OOl 1993/09/28 11:48:16 page 21 N-21

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1009 A-VBW2-XHE-C-4 L 1.000E-003 l.OOOE+OOl 1010 A-VBW2-XHE-C-9 L 1.000E-003 1.000E+OOl 1011 A-VBW2-XHE-FH-10 L 2.000E-005 l.OOOE+OOl 1012 A-VBW2-XHE-FH--14 L 2.000E-005 l.OOOE+OOl 1013 A-VBW2-XHE-FH-19 L 2.000E-005 1.000E+OOl 1014 A-VBW2-XHE-FH-4 L 1.000E+OOO l.OOOE+OOO 1015 A-VBW2-XHE-FH-5 L 2.000E-005 l.OOOE+OOl 1016 A-VBW2-XHE-FH-9 L 1.000E+OOO 1.000E+OOO 1017 A-VBW2-XHE-FL-10 L 2.000E-003 1.000E+OOl 1018 A-VBW2-XHE-:FL-14 L 3.500E-002 5.000E+OOO 1019 A-VBW2-XHE-FL-19 L 5.400E-002 5.000E+OOO 1020 A-VBW2-XHE-FL-4 L 1. OOOE+OOO l.OOOE+OOO 1021 A-VBW2-XHE-FL-5 L 7.600E-004 1.000E+OOl 1022 A-VBW2--XHE-FL-9 L 1.000E+OOO l.OOOE+OOO 1023 A-VBW2-XHE-G-15 L 1.000E+OOO 1.000E+OOO 1024 A-VBW2-XHE-G-5 L 1.000E+OOO l.OOOE+OOO 1025 A-VBW2-XHE-G-6 L 1. OOOE+OOO l.OOOE+OOO 1026 A-VBW2-XHE-P-13 L 1.000E-004 1.000E+OOl 1027 A-VBW2-XHE-P-18 L 1.000E-004 1.000E+OOl 1028 A-VBW2-XHE-P-4 L 1.000E-004 1. OOOE+OOl 1029 A-VBW2-XHE-P-9 L l.OOOE-004 1. OOOE+OOl 1030 A-VBW2-XHE-R-12 L 1.300E-002 5.000E+OOO 1031 A-VBW2-XHE-R-3 L 5.200E-004 l.OOOE+OOl 1032 A-VBW2-XHE-Sl-17 L 1. OOOE-003 1.000E+OOl 1033 A-VBW2-XHE-Sl-8 L 1.000E-003 l . OOOE+OOl 1034 A-VBW2-XHE-S2-17 L 2.600E-002 5.000E+OOO 1035 A-VBW2-XHE-S2-8 L 2.600E-003 1.000E+OOl 1036 A-VBW2-XHE-S3-17 L l . OOOE+OOO l . OOOE+OOO 1037 A-VBW2-XHE-S3-8 L l.OOOE+OOO l . OOOE+OOO 1038 A-VBW2-XHE-X L 1.000E-003 l . OOOE+OOl 1039 A-VBW3-XHE-FH-10 L 2.000E-005 l.OOOE+OOl 1040 A-VBW3-XHE-FH-13 L 2.000E-005 l . OOOE+OOl 1041 A-VBW3-XHE-FH-3 L 1.000E+OOO l . OOOE+OOO 1042 A-VBW3-XHE-FH-4 L 2.000E-005 l . OOOE+OOl 1043 A-VBW3-XHE-FH-7 L 2.000E-005 l . OOOE+OOl 1044 A-VBW3-XHE-FL-10 L 3.500E-002 5.000E+OOO 1045 A-VBW3-XHE-FL-13 L 2.000E-003 l.OOOE+OOl 1046 A-VBW3-XHE-FL-3 L 1.000E+OOO l.OOOE+OOO 1047 A-VBW3-XHE-FL-4 L 7.600E-004 l . OOOE+OOl 1048 A-VBW3-XHE-FL-7 L 5.400E-002 5.000E+OOO 1049 A-VBW3-XHE-G-11 L 1.000E+OOO l . OOOE+OOO 1050 A-VBW3-XHE-G-4 L l.OOOE+OOO 1.000E+OOO 1051 A-VBW3-XHE-G-5 L 1.000E+OOO 1.000E+OOO 1052 A-VBW3-XHE-R-3 L 5.200E-004 l . OOOE+OOl 1053 A-VBW3-XHE-R-9 L 1. 300E-002 5.000E+OOO 1054 A-VBW3-XHE-Sl-4 L 1.000E-003 1.000E+OOl 1055 A-VBW3-XHE-Sl-7 L- 1.000E+OOO l.OOOE+OOO 1056 A-VBW3-XHE-Sl-8 L 1.000E-003 l.OOOE+OOl 1993/09/28 11:48:16 page 22 N-22

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1057 A-VBW3-XHE-S2-4 L 2.600E-003 l.OOOE+OOl 1058 A-VBW3-XHE-S2-8 L 2.600E-002 S.OOOE+OOO 1059 A-VBW3-XHE-S3-4 L 1.000E+OOO l.OOOE+OOO 1060 A-VBW3-XHE-S3-8 L l.OOOE+OOO 1.000E+OOO 1061 A-VBW4-XHE-FH-10 L 2.000E-005 1.000E+OOl 1062 A-VBW4-XHE-FH-13 L 2.000E-005 1.000E+OOl 1063 A-VBW4-XHE-FH-4 L 2.000E-005 1. OOOE+OOl 1064 A-VBW4-XHE-FH-7 L 2.000E-005 1. OOOE+OOl 1065 A-VBW4-XHE-FL-10 L 5.000E-003 1. OOOE+OOl 1066 A-VBW4-XHE-FL-13 L 6.900E-005 l.OOOE+OOl 1067 A-VBW4-XHE-FL-4 L 6.900E-005 1. OOOE+OOl 1068 A-VBW4-XHE-FL-7 L S.OOOE-003 1.000E+OOl 1069 A-VBW4-XHE-G-ll L 1. OOOE+OOO l.OOOE+OOO 1070 A-VBW4-XHE-G-4 L l.OOOE+OOO l.OOOE+OOO 1071 A-VBW4-XHE-G-5 L 1.000E+OOO 1.000E+OOO 1072 A-VBW4-XHE-R-3 L 1.200E-004 1. OOOE+OOl 1073 A-VBW4-XHE-R-9 L 5.000E-003 1. OOOE+OOl 1074 A-VBW4-XHE-S1-4 L l.OOOE-003 1.000E+OOl 1075 A-VBW4-XHE-S1-7 L 1. OOOE+OOO 1. OOOE+OOO 1076 A-VBW4-XHE-S1-8 L 1.000E-003 l.OOOE+OOl 1077 A-VBW4-XHE-S2-4 L l.OOOE-003 1. OOOE+OOl 1078 A-VBW4-XHE-S2-8 L 9.SOOE-003 l.OOOE+OOl 1079 A-VBW4-XHE-S3-4 L 1. OOOE+OOO 1. OOOE+OOO 1080 A-VBW4-XHE-S3-8 L l.OOOE+OOO 1. OOOE+OOO 1081 ACC-CKV-FT-CV107 L 1.000E-004 3.ooo,+ooo 31 1082 ACC-CKV-FT-CV109 L 1.000E-004 3.000E+OOO 31 1083 ACC-CKV-FT-CV128 L 1.000E-004 3.000E+OOO 31 1084 ACC-CKV-FT-CV130 L l.OOOE-004 3.000E+OOO 31 1085 ACC-CKV-FT-CV145 L 1.000E-004 3.000E+OOO 31 1086 ACC-CKV-FT-CV147 L 1.000E-004 3.000E+OOO 31 1087 ACC-MOV-PG-1865A L 6.SOOE-004 3.000E+OOO 72 1088 ACC-MOV-PG-1865B L 6.SOOE-004 3.000E+OOO 72 1089 ACC-MOV-PG-1865C L 6.SOOE-004 3.000E+OOO 72 1090 ACC4 L 1.000E+OOO 1. OOOE+OOO 1091 ACCS L 1. OOOE+OOO 1. OOOE+OOO 1092 ACC6 L 1.000E+OOO 1. OOOE+OOO 1093 ACP-BAC-~-lA L +O.OOOE+OOO l.OOOE+OOO 1094 ACP-BAC-MA-1B L +O.OOOE+OOO 1. OOOE+OOO 1095 ACP-BAC-MA-lC L +O.OOOE+OOO l.OOOE+OOO 1096 ACP-BAC-MA-lG L +O.OOOE+OOO 1.000E+OOO 1097 ACP-BAC-MA-lH. L +O.OOOE+OOO l.OOOE+OOO 1098 ACP-BAC-MA-lHl L 7.270E-006 3.000E+OOO IPEl 1099 ACP-BAC-MA-lHl-1 L 7.270E-006 3.000E+OOO IPEl 1106 ACP-BAC-MA-lHl-2 L 7.270E-006 3.000E+OOO IPEl 1101 ACP-BAC-MA-lJ L +O.OOOE+OOO 1.000E+OOO IPEl 1102. ACP-BAC-MA-lJl L 7.270E-006 3.000E+OOO IPEl 1103 ACP-BAC-MA-lJl-1 L 7.270E-006 3.000E+OOO IPEl 1104 ACP-BAC-MA-lJl-2 L 7.270E-006 3.000E+OOO IPEl 1993/09/28 11:48:16 page 23 N-23

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1105 ACP-BAC-MA-4801H L 7.270E-006 3.000E+OOO IPEl 1106 ACP-BAC-MA-4801J L 7.270E-006 3.000E+OOO IPE1 1107 ACP-BAC-MA-4KV1H L +O.OOOE+OOO 3.000E+OOO IPE1 1108 ACP-BAC-MA-4KV1J L +O.OOOE+OOO 3.000E+OOO IPE1 1109 ACP-BAC-MA-STB1H L +O.OOOE+OOO 3.000E+OOO IPE1 1110 ACP-BAC-MA-STB1J L +O.OOOE+OOO 3.000E+OOO IPE1 1111 ACP-BAC-MA-VB1II L +O.OOOE+OOO 1.000E+OOO 1112 ACP-BAC-MAOVB1II L +O.OOOE+OOO 1.000E+OOO 1113 ACP-BAC-ST-1H1 L 9.000E-005 S.OOOE+OOO 11 1114 ACP-BAC-ST-~Hl-1 L 9.000E-005 5.000E+OOO 11 1115 ACP-BAC-ST-1H1-2 L 9.000E-005 5.000E+OOO 11 1116 ACP-BAC-ST-1J1 L 9.000E-005 5.000E+OOO 11 1117 ACP-BAC-ST-1J1-1 L 9.000E-005 5.000E+OOO 11 1118 ACP-BAC-S~-1J1-2 L 9.000E-005 5.000E+OOO 11 1119 ACP-BAC-ST-2H1 L 9.000E-005 5.000B+OOO 11 1120 ACP-BAC-ST-2H1-l L 9.000E-005 5.000E+OOO 11 1121 ACP-BAC-ST-4801H L 9.000E-005 5.000E+OOO 11 1122 ACP-BAC-ST-4801J L 9.oooE.:oos 5.000E+OOO 11 1123 ACP-BAC-ST-4KV1H L 9.000E-005 5.000E+OOO 11 1124 ACP-BAC-ST-4KV1J L 9.000E-005 5.000E+OOO 11 1125 ACP-BAC-ST-4KV2H L 9.000E-005 5.000E+OOO 11 1126 ACP-BAC-ST-4KV2J L 9.000E-005 5.000E+OOO 11 1127 ACP-BAC-ST-STB1H L 9.000E-005 5.000E+OOO 11 1128 ACP-BAC-ST-STB1J L 9.000E-005 5.000E+OOO 11 1129 ACP-BAC-ST-STB2H L 9.000E-005 S.OOOE+OOO 11 1130 ACP-BAC-ST-VlIII L 9.000E-005 5.000E+OOO 11 1131 ACP-BAC-ST:-VB1I L 9.000E-005 5.000E+OOO 11 1132 ACP-BAC-ST-VB1II L 9.000E-005 5.000E+OOO 11 1133 ACP-BAC-ST-VB1IV L 9.000E-005 S.OOOE+OOO 11 1134 ACP-BAT-LP-BAT1B L 1. OOOE+OOO 1.000E+OOO 1135 ACP-BCH-MA-UPSAl L +O.OOOE+OOO 1. OOOE+OOO 1136 ACP-BCH-MA-UPSA2 L +O.OOOE+OOO 1.000E+OOO 1137 ACP-BCH-MA-UPSBl L 4.003E-001 3.000E+OOO 1138 ACP-BCH-MA-UPSB2 L 4.003E-001 3.000E+OOO 1139 ACP-BCH-MAOUPSB1 L +O.OOOE+OOO 3.000E+OOO 1140* ACP-BCH-MAOUPSB2 L +O.OOOE+OOO 3.000E+OOO 1141 ACP-CRB-C0-14H1 L 2.900E-005 3.000E+OOO 34 1142 ACP-CRB-C0-14Hl3 L 2.900E-005 3.000E+OOO 34 1143 ACP-CRB-C0-14H14 L 2.900E-005 3.000E+OOO 34 1144 ACP-CRB-C0-14H15 L 2.900E-005 3.000E+OOO 34 1145 ACP-CRB-C0-14Jl L 2.900E-005 3.000E+OOO 34 1146 ACP-CRB-C0-14Jll L 2.900E-005 3.000E+OOO 34 1147 ACP-CRB-C0-14J14 L 2.900E-005 3.000E+OOO 34 1148 ACP-CRB-C0-14J16 L 2.900E-005 3.000E+OOO 34 1149 ACP-CRB-C0-15H7 L 2.900E-005 3.000E+OOO 34 1150 ACP-CRB-C0-15H8

  • L 2.900E-005 3.000E+OOO 34 1151 -ACP-CRB-C0-15H9 L 2.900E-005 3.000E+OOO 34 1152 ACP-CRB-C0-15J7 L 2.900E-005 3.000E+OOO 34 1993/09/28 11:48:16 page 24 N-24

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1153 ACP-CRB-C0-15J8 L 2.900E-005 3.000E+OOO 34 1154 ACP-CRB-C0-15J9 L

  • 2. 900E-005 3.000E+OOO 34 1155 ACP-CRB-C0-1!35 L 2.900E-005 3.000E+OOO 34 1156 ACP-CRB-tO-lII L 2.900E-005 3.000;E+OOO 34 1157 ACP-CRB-CO-lIV L 2.900E-005 3.000E+OOO 34 1158 ACP-CRB-C0-24Hl4 L 2.900E-005 3.000E+OOO 34 1159 ACP-CRB-C0-.24Hl5 L 2.900E-005 3.000E+OOO 34 1160 ACP-CRB-C0-25H7 L 2.900E-005 3 .'000E+OOO 34 1161 ACP-CRB-C0-..25H9 L 2.900E-005 3.000E+OOO 34 1162 ACP-CRB-CO~FE9AE L 2.900E-005 3.000E+OOO 34 1163 ACP-CRB-CO~FE9AF L 2.900E-005 3.000E+OOO 34 1164 ACP-CRB-CO-FE9AJ L 2.900E-005 3.000E+OOO 34 1165 ACP-CRB-CO-FE9AK L 2.900E-005 3.000E+OOO 34 1166 ACP-CRB-CO-FE9BE L 2.900E-005 3.000E+OOO 34 1167 ACP-CRB-CO-FE9BF L 2.900E-005 3.000E+OOO 34 1168 ACP-CRB-CO-FE9BJ L 2.900E-005 3.000E+OOO 34 1169 ACP-CRB-CO-FE9BK L 2.900E-005 3.000E+OOO 34 1170 ACP-CRB-CO-III35 L 2.900E-005 3.000E+OOO 34 1171 ACP-INV-MA-UPSAl L 2.000E-004 3.000E+OOO 801 1172 ACP-INV-MA-UPSA2 L 2.000E-004 3.000E+OOO 801 1173 ACP-INV-MA-UPSB1 L 2.000E-004 3.000E+OOO 801 1174 ACP-INV-MA-UPSB2 L 2.000E-004 3.000E+OOO 801 1175 ACP-INV-NO-UPSAl L 4.000E-002 3.000E+OOO 44 1176 ACP-INV-NO-UPSA2 L 4.000E-002 3.000E+OOO 44 1177 ACP-INV-NO-UPSB1 L 4.000E-002 3.000E+OOO 44 1178 ACP-INV-NO-UPSB2 L 4.000E-002 3.000E+OOO 44 li79 ACP-REC-NO-UPSAl L 4.000E-004 3.000E+OOO 77 1180 ACP-REC-NO-UPSA2 L 4.000E-004 3.000E+OOO 77 1181 ACP-REC-NO-UPSB1 L 4.000E-004 3.000E+OOO 77 1182 ACP-REC-NO-UPSB2 L 4.000E-004 3.000E+OOO 77 1183 ACP-TFM-NO-lAl-1 L 4.080E-005 3.000E+OOO 91 1184 ACP-TFM-NO-lAl-2 L 4.080E-005 3.000E+OOO 91 1185 ACP-TFM-N0-1A2-l L 4.080E-005 3.000E+OOO 91 1186 ACP-TFM-N0-1A2-2 L 4.080E-005 3.000E+OOO 91 1187 ACP-TFM-N0-1Bl-1 L 4.080E-005 3.000E+OOO 91 1188 ACP-TFM-N0-1Bl-2 L 4.080E-005 3.000E+OOO 91 1189 ACP-TFM-N0-1B2-1 L 4.080E-005 3.000E+OOO 91 1190 ACP-TFM-N0-1B2-2 L 4.080E-005 3.000E+OOO 91 1191 ACP-TFM-NO-lH L 4.080E-005 3.000E+OOO 91 1192 ACP-TFM-NO-lHl L 4.080E-005 3.000E+OOO 91 1193 ACP-TFM-NO-lJ L 4.080E-005 3.000E+OOO 91 1194 ACP-TFM-NO-lJl L 4.080E-005 3.000E+OOO 91 1195 ACP-TFM-N0-2Hl L 4.080E-005 3.000E+OOO 91 1196 ACP-XHE-FO-STBBS L S.OOOE-005 1.000E+OOl 122 1197 AFW-ACT-FA-PMP3A L 6.000E-004 5.000E+OOO 2 1198 AFW-ACT-FA-PMP3B L 6. OOOE-0*04 5.000E+OOO 2 1199 AFW-ACT-FA-VLVA L 6.000E-004 5.000E+OOO 2 1200 AFW-ACT-FA-VLVB L 6.000E-004 5.000E+OOO 2 1993/09/28 11:48:16 page 25 N-25

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name 1 Type Probability Value Class 1201 AFW-AOV-FT-102A L 1.000E-003 3.000E+OOO 5 1202 AFW-AOV-FT-102B L l.OOOE-003 3.000E+OOO 5 1203 AFW-AOV-FT-202A L l.OOOE-003 3.000E+OOO 5 1204 AFW-AOV-FT-202B L l.OOOE-003 3.000E+OOO 5 1205 AFW-AOV-PG-102A L 4.000E-005 3.000E+OOO 9 1206 AFW-AOV-PG-102B L 4.000E-005 3.000E+OOO 9 1207 AFW-AOV-PG-202A L 4.000E-005 3.000E+OOO 9 1208 AFW-AOV-PG-202B L 4.000E-005 3.000E+OOO 9 1209 AFW-CCF-FS-FW3AB L 3.500E-004 3.000E+OOO 1210 AFW-CCF-FT,102AB L l.OOOE-004 3.000E+OOO 301 1211 AFW-CCF-FT~202AB L l.OOOE-004 3.000E+OOO 301 1212 AFW-CCF-LK-2STMB L l.OOOE-004 3.000E+OOl 25 1213 AFW-CCF-LK-STMBD L l.OOOE-004 3.000E+OOl 25 1214 AFW-CKV-CC-27588 L l.OOOE-005 l.OOOE+OOl 302 1215 AFW-CKV-CC-3638 L l.OOOE-005 l.OOOE+OOl 302 1216 AFW-CKV-CC-42577 L l.OOOE-005 l.OOOE+OOl 302 1217 AFW-CKV-FT-CV131 L l.OOOE-004 3.000E+OOO 31 1218 AFW-CKV-FT-CV133 L l.OOOE-004 3.000E+OOO 31 1219 AFW-CKV-FT-CV136 L l.OOOE-004 3.000E+OOO 31 1220 AFW-CKV-FT-CV138 L l.OOOE-004 3.000E+OOO 31 1221 AFW-CKV-FT-CV142 L l.OOOE-004 3.000E+OOO 31 1222 AFW-CKV-FT-CV157 L . 1. OOOE-004 3.000E+OOO 31 1223 AFW-CKV-FT-CV172 L 1.000E-004 3.000E+OOO 31 1224 AFW-CKV-FT-CV176 L 1.000E-004 3.000E+OOO 31 1225 AFW-CKV-FT-CV178 L 1. OOOE-004 3.000E+OOO 31 1226 AFW-CKV-FT-CV182 L 1. OOOE-004 3.000E+OOO 31 1227 AFW-CKV-FT-CV232 L 1. OOOE-004 3.000E+OOO 31 1228 AFW-CKV-FT-CV233 L 1.000E-004 3.000E+OOO 31 1229 AFW-CKV-FT-CV236 L 1.000E-004 3.000E+OOO 31 1230 AFW-CKV-FT-CV238 L 1. OOOE-004 3.000E+OOO 31 1231 AFW-CKV-FT-CV242 L l.OOOE-004 3.000E+OOO 31 1232 AFW-CKV-FT-CV27 L 1. OOOE-004 3.000E+OOO 31 1233 AFW-CKV-FT-CV58 L 1. OOOE-004 3.000E+OOO 31 1234 AFW-CKV-FT-CV89 L 1. OOOE-004 3.000E+OOO 31 1235 AFW-CKV-00-CV142 L 1.000E-003 3.000E+OOO 33 1236 AFW-CKV-00-CV157 L 1.000E-003 3.000E+OOO 33 1237 AFW-CKV-00-CV172 L l.OOOE-003 3.000E+OOO 33 1238 AFW-CKV-00-CV257 L l.OOOE-003 3.000E+OOO 33 1239 AFW-CKV-OO-CV272 L l.OOOE-003 3.000E+OOO 33 1240 AFW-MDP-FR-3AlHR L 3.000E-005 l.OOOE+OOl 55 1241 AFW-MDP-FR-3A6HR L l.800E-004 l.OOOE+OOl 60 1242 AFW-MDP-FR-3BlHR L 3.000E-005 l.OOOE+OOl 55 1243 AFW-MDP-FR-3B6HR L l.800E-004 l.OOOE+OOl 60 1244 AFW-MDP-FS-FW3A L 6.300E-003 3.000E+OOO 61 1245 AFW-MDP-FS-FW3B L 6.300E-003 3.000E+OOO 61 1246 AFW-MDP-MA-FW3A L .2. OOOE-003 l.OOOE+OOl 66 1247 AFW-MDP-MA-FW3B u 5. 272E-001 l.OOOE+OOO 1248 AFW-MDP-MAOFW3A L 2.000E-003 1.000E+OOl 66 1993/09/28 11:48:16 page 26 N-26

BASIC EVENTS UNCERTAINTY VALUES REPORT Farr{ily: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1249 AFW-MDP-MAOFW3B L 5. llOE-001 l.OOOE+OOl 1250 AFW-MOV-CC-151 L 2.600E-:004 l.300E+001 15 1251 AFW-MOV-FT-151A L 3.000E-003 l.OOOE+OOl 69 1252 AFW-MOV-FT-151B L 3:000E-003 1.000E+OOl 69 1253 AFW-MOV-FT-151C L 3.000E-003 1.000E+OOl 69 1254 AFW-MOV-FT-151D L 3.000E-003 1.000E+OOl 69 1255 AFW-MOV-FT-151E L 3.000E-003 1.000E+OOl 69 1256 AFW-MOV-FT-151F L 3.000E-003 1.000E+OOl 69 1257 AFW-MOV-FT-160A L 3.000E-003 l.OOOE+OOl 69 1258 AFW-MOV-FT-:.16 OB L 3.000E-003 l.OOOE+OOl 69 1259 AFW-MOV-MA.:151A L 7.260E-002 3.000E+OOO 1260 AFW-MOV-MA-151B L 1.000E-003 l.OOOE+OOl 803 1261 AFW-MOV-MA-151C L 1. OOOE;-003 l.OOOE+OOl 803 1262 AFW-MOV-MA-151D L 1. OOOE-003 l.OOOE+OOl .*803 1263 AFW-MOV-MA-151E L l.OOOE-003 l.OOOE+OOl 803 1264 AFW-MOV-MA-151F L l.OOOE-003 1.000E+OOl 803 1265 AFW-MOV-MA-160A L l.OOOE-003 l.OOOE+OOl 803 1266 AFW-MOV-MA-1608 L 1.000E-003 1.000E+OOl 803. 1267 AFW-MOV-MA0151A L +O.OOOE+OOO 3.000E+OOO 1268 AFW-MOV-PG-151A L 4.000E-005 3.000E+OOO 74 1269 AFW-MOV-PG-151B L 4.000E-005 3.000E+OOO 74 1270 AFW-MOV-PG-151C L 4.000E-005 3.000E+OOO 74 1271 AFW-MOV-PG-151D L 4.000E-005 3.000E+OOO 74 1272 AFW-MOV-PG-151E L 4.000E-005 3.000E+OOO 74 1273 AFW-MOV-PG-151F L 4.000E-005 3.000E+OOO 74 1274 AFW-MS-PG-196 L 4.000E-005 l.OOOE+OOl 134 1275 AFW-MS-PG-296 L 4.000E-005 1.000E+OOl 134 1276 AFW-PSF-FC-XCONN L l.500E-004 3.000E+OOO 75 1277 AFW-TDP-FR-2PlHR L 5.000E-003 1.000E+OOl 86 1278 AFW-TDP-FR-2P6HR L 3.000E-002 l.OOOE+OOl 87 1279 AFW-TDP-FR-6HRU2 L 3.000E-002 l.OOOE+OOl 87 1280 AFW-TDP-:FS-FW2 L l. lOOE-002

  • l.OOOE+OOl 89 1281 AFW-TDP-FS-U2FW2 L l.lOOE-002 1.000E+OOl 89 1282 AFW-TDP-MA-FW2 L 3. 719E-001 l.OOOE+OOl 1283 AFW-TDP-MA-U2FW2 L 1.000E-002 l.OOOE+OOl 1284 AFW-TDP-MAOFW2 L 4.907E-001 1.000E+OOl 1285 AFW-TNK-VF-CST L l.OOOE-006 3.000E+OOO 93 1286 AFW-TNK-VF-U2CST L l.OOOE-006 3.000E+OOO 93 1287 AFW-XHE-FO-ACT L +O.OOOE+OOO 3.000E+OOO 1288 AFW-XHE-FO-UlSBO H +O.OOOE+OOO 3.000E+OOO 1289 AFW-XHE~FO-U2SBO H +O.OOOE+OOO 4.QOOE+OOO 1290 AFW-XVM-PG-XV120 L 4.000E-005 1.000E+OOl 134 1291 AFW-XVM-PG-XV153 L 4.000E-005 1.000E+OOl 134 1292 AFW-XVM-PG-XV158 L 4.000E-005 1.000E+OOl 134 1293 AFW-XVM-PG-XV168 L 4.000E-005 l.OOOE+OOl 134 1294 AFW-XVM-PG-XV183 L 4.000E-005 1.000E+OOl 134 1295 AFW-XVM-PG-XV253 L 4.000E-005 1.000E+001 134 1296 AFW-XVM-PG-XV87 L 4.000E-005 1.000E+001 134 1993/09/28 11:48:16 page 27 N-27

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1297 AFWl L 1.000E+OOO 1.000E+OOO 1298 AFW13 L 1.000E+OOO 1.000E+OOO 1299 AFW13A L 1.000E+OOO l.OOOE+OOO 1300 AFW13B L 1.000E+OOO l.OOOE+OOO 1301 AFW14 L l.OOOE+OOO 1.000E+OOO 1302 AFW14A L 1.000E+OOO 1. OOOE+OOO 1303 AFW14B L 1.000E+OOO 1. OOOE+OOO 1304 AFWlS L 1.000E+OOO 1.000E+OOO 1305 AFWlSA L 1.000E+OOO 1.000E+OOO 1306 AFWlSB L 1.000E+OOO 1.000E+OOO 1307 AFW16A L 1. OOOE+OOO 1.000E+OOO 1308 AFW17 L 1.000E+OOO 1.000E+OOO 1309 AFW17A L 1.000E+OOO 1. OOOE+OOO 1310 AFW17B L l.OOOE+OOO 1.000E+OOO 1311 AFW18 L 1.000E+OOO 1.000E+OOO 1312 AFW18A L 1.000E+OOO 1. OOOE+OOO 1313 AFW2 L 1.000E+OOO 1.000E+OOO 1314 AFW21 L 1.000E+OOO 1. OOOE+OOO 1315 AFW21A L 1.000E+OOO 1.000E+OOO 1316 AFW22 L l.OOOE+OOO l.OOOE+OOO 1317 AFW22A L 1.000E+OOO 1. OOOE+OOO 1318 AFW3 L 1.000E+OOO 1.000E+OOO 1319 AFW31 L 1.000E+OOO 1.000E+OOO 1320 AFW41 L 1.000E+OOO 1.000E+OOO 1321 AFW42 L 1.000E+OOO 1. OOOE+OOO . 1322 AFW43 L 1. OOOE+OOO 1. OOOE+OOO 1323 AFW44 L 1.000E+OOO 1.000E+OOO 1324 AFW45 L 1.000E+OOO 1.000E+OOO 1325 AFW46 L 1.000E+OOO 1.000E+OOO 1326 AFW5 L 1. OOOE+OOO 1. OOOE+OOO 1327 AFW6 L 1. OOOE+OOO 1.000E+OOO 1328 AFWS13 L 1.000E+OOO 1. OOOE+OOO 1329 AFWS13B ~ 1.000E+OOO 1. OOOE+OOO 1330 AFWS14 L 1. OOOE+OOO 1. OOOE+OOO 1331 AFWS14B L 1.000E+OOO 1.000E+OOO 1332 AFWS15 L 1.000E+OOO 1.000E+OOO 1333 AFWS15B L 1.000E+OOO 1. OOOE+OOO 1334 AFWS17 L 1. OOOE+OOO 1. OOOE+OOO 1335 AFWS17B L 1.000E+OOO 1.000E+OOO 1336 AFWSS L 1. OOOE+OOO 1. OOOE+OOO 1337 AFWS6 L 1.000E+OOO 1.000E+OOO 1338 AFWT13 L 1.000E+OOO 1. OOOE+OOO 1339 AFWT14 L 1.000E+OOO 1. OOOE+OOO 1340 AFWTS L 1.000E+OOO 1. OOOE+OOO 1341 AFWTDPU2 L 1.000E+OOO 1.000E+OOO 1342 ARCR6 L 1.000E+OOO 1.000E+OOO 1343 ARCWl L 1.000E+OOO 1.000E+OOO 1344 ARCW2 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 28 N-28

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1345 ARCW3 L 1.000E+OOO 1.000E+OOO 1346 ARCW4 L 1.000E+OOO 1. OOOE+OOO 1347 B1UNCFT L 1.000E+OOO 1.000E+OOO 1348 B2UNCFT L 1.000E+OOO 1.000E+OOO 1349 BAT-HTR-FC-TRACE L 5.000E-004 3.000E+OOO 1350 BAT-HTR-VF-STANK L 2.600E-004 3.000E+OOO 1351 BCW L 5.580E-006 1. OOOE+001 1352 C L 1.000E+OOO 1.000E+OOO 1353 C4KW1 L 1.000E+OOO 1. OOOE+OOO 1354 C4KW1-13 L 1. OOOE+OOO 1. OOOE+OOO 1355 C4KW1-4 L 1. OOOE+OOO 1. OOOE+OOO 1356 C4KW1V18 L 1. OOOE+OOO 1.000E+OOO 1357 C4KW1V9 L 1.000E+OOO 1.000E+OOO 1358 C4KW2 L 1. OOOE+OOO 1. OOOE+OOO 1359 C4KW2-13 L 1.000E+OOO 1.000E+OOO 1360 C4KW2-4 L 1.000E+OOO 1.000E+OOO 1361 C4KW2V18 L 1.000E+OOO 1. OOOE+OOO 1362 C4KW2V9 L 1. OOOE+OOO 1.000E+OOO 1363 CCW-AOV-FT-109A L 1.000E-003 3.000E+OOO' 5 1364 CCW-AOV-FT-109B L 1.000E-003 3.000E+OOO 5 1365 CCW-AOV-MA-109A L 2.000E-004 1.000E+OOO 1366 CCW-AOV-OC-109A L 7.500E-007 3.000E+OOO 7 1367 CCW-AOV-OC-109B 1 7.500E-007 3.000E+OOO 7 1368 CCW-AOV-OC-140A L 7.500E-007 3.000E+OOO 7 1369 CCW-AOV-OC-140B L 7.500E-007 3.000E+OOO 7 1370 CCW-AOV-PG-109A L 4.000E-005 3.000E+OOO 9 1371 CCW-AOV-PG-109B L 4.000E-005 3.000E+OOO 9 1372 CCW-AOV-PG-140A L 4.000E-005 3. OOOE+OOO " 9 1373 CCW-AOV-PG-140B L 4.000E-005 3.000E+OOO 9 1374 CCW-AOV-SC-120A L 7.500E-007 3.000E+OOO 7 1375 CCW-AOV-SC-120B L 7.500E-007 3.000E+OOO 7 1376 CCW-AOV-SC-120C L 7.500E-007 3.000E+OOO 7 1377 CCW-AOV-XHE-109 L 1. 700E-003 1.000E+OOO 1378 CCW-CCF-FS-MDPAB L 4.500E-004 3.000E+OOO 306 1379 CCW-CCF-FT-8185 L 1. 250E-005 3.000E+OOO IPE2 1380 CCW-CKV-FT-CC176 1 l.OOOE-004 3.000E+OOO 31 1381 CCW-CKV-FT-CC177 L 1. OOOE-004 3.000E+OOO 31 1382 CCW-CKV-FT-CC557 L 1.000E-004 1.000E+OOO 1383 CCW-CKV-FT-CC563 L 1.000E-004 3.000E+OOO 31 1384 CCW-CKV-FT-CV557 L 1. OOOE-004 3.000E+OOO 31 1385 CCW-CKV-00-563U2 L 1.000E-003 3.000E+OOO 33 1386 CCW-CKV-00-CV557 L 1.000E-003 3.000E+OOO 33 1387 CCW-HTX-LK-ElA L 7.2008-005 1.000E+OOl 41 1388 CCW-HTX-LK-E1B L 7.200E-005 1. OOOE+OOl 41 1389 CCW-HTX-LK-U2E1A L 7.200E-005 1.000E+OOl 41 1390 CCW-HTX-MA-E1B u 1.452E-001 2.904E-001 1391 CCW-HTX-MA-U2E1A L +O.OOOE+OOO 1.000E+OOO 1392 CCW-HTX-MAOE1B L 8.946E-001 1.000E+OOl 1993/09/28 11:48:16 page 29
  • N-29

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1393 CCW-HTX-MAOU2ElA L 5.280E-002 l.OOOE+OOO 1394 CCW-HTX-PG-ElA L 1. 368E-004 l.OOOE+OOl 43 1395 CCW-HTX-PG-ElB L 1. 368E-004 l.OOOE+OOl 43 1396 CCW~HTX-PG-U2ElA L 1. 368E-004 1.000E+OOl 43 1397 CCW-LF-PSlOlA L l.380E-002 3.000E+OOO 1398 CCW-LF-RHE2A L l.860E-002 3.000E+OOO IPE3 1399 CCW-LF-RHE2B L l.860E-002 3.000E+OOO IPE3 1400 CCW-LF-STKl L 2.660E-006 3.000E+OOO 1401 CCW-MDP-FR-CCPlA L 7.200E-004 l.OOOE+OOl 57 1402 CCW-MDP-FR,CCPlB L 7.200E-004 1.000E+OOl 57 1403 CCW-MDP-FR~CCP2A L 1. 800E-004 l.OOOE+OOl 60 1404 CCW-MDP-FS-CCPlA L 3.000E-003 1.000E+OOl 65 1405 CCW-MDP-FS-CCPlB L 3.000E-003 1.000E+OOl 65 1406 CCW-MDP-FS-CCP2A L 3.000E-003 1.000E+OOl 65 1407 CCW-MDP-MA-CCPlB L 2.000E-003 1.000E+OOl 66 1408* CCW-MDP-MA-CCP2A L 2.000E-003 1.000E+OOl 66 1409 CCW-SO-RV116A L 9.330E-005 3.000E+OOO IPE4 1410 CCW-SO-RV116B L 9.330E-005 3.000E+OOO IPE4 1411 CCW-S0-RV1l6C L 9.330E-005 3.000E+OOO IPE4 1412 CCW-S0-RV118 L 9.330E-005 3.000E+OOO IPE4 1413 CCW-SQ.,.RV119A L 9.330E-005 3.000E+OOO IPE4 1414

  • CCW-S0-RV1l9B L 9.330E-005 3.000E+OOO IPE4 1415 CCW-S0-RVl21 L 9.330E-005 3.000E+OOO IPE4 1416 CCW-S0-RVl50 L 9.330E-005 3.000E+OOO IPE4 1417 CCW-XHE-l0Pl4.l L l.200E".'005 l.OOOE+OOl 1418 CCW-XHE-lOP5l.l L 2.lOOE-005 1.000E+OOl 1419 CCW-XHE-FO-SPlB L. l.600E-004 1.000E+QOO 1420 CCW-XMV-PG-CClOO L 4.000E-005 1.000E+OOl 134 1421 CCW-XMV-PG-CCl04 L 4.000E-005 1.000E+OOl 134 1422 ~CW-XMV-PG-CCll2 L. 4.000E-005 l.OOOE+OOl 134 1423 CCW-XMV-PG-CCll6 L 4.000E-005 1.000E+OOl 134 1424 CCW-XMV-PG-CCll8 L 4.000E-005 1.000E+OOl 134 1425 ccw~XMV-PG-CCl22 L 4.000E-005 1.000E+OOl 134 1426 CCW-XMV-PG-CCl78 L 4.000E-005 l.OOOE+OOl 134 1427 CCW-XMV-PG-CCl81 L 4.000E-005 1.000E+OOl :1.34 1428 CCW-XMV-PG-CC182 L 4.000E-005 l.OOOE+OOl 134 1429 CCW-XMV-PG-CC185 L 4.000E-005 1.000E+OOl 134 1430 CCW-XMV-PG-CC214 L 4.000E-005 1.000E+OOl 134 1431 CCW-XMV-PG-CC220 L 4.000E-005 1.000E+OOl 134 1432 CCW-XVM-FT-CC181 L l.OOOE-004 3.000E+OOO 31 1433 CCW-XVM-FT-CC185 L l.OOOE-004 3.000E+OOO 31

. 1434 CCW-XVM-PG-580U2 L 4.000E-005 1.000E+OOl 134 1435 CCW-XVM-PG-583U2 L 4.000E-005 l.OOOE+OOl 134 1436 CCW-XVM-PG-CC104 L 4.400E-004 3. OOO'E+OOO 133 1437 CCW-XVM-PG-CC178 L 4.400E-004 3.000E+OOO 133 1438 CCW-XVM-PG-CCl82 L 4.400E-004 3.000E+OOO 133 1439 CCW-XVM-PG-CC2l4 L 4.400E-004 3.000E+OOO 133 1440 CCW-XVM-PG-CC560 L 4.000E-005 1.000E+OOl 134 1993/09/28 11:48:16 page 30 N-30

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1441 CCW-XVM-PG-CC564 L 4.000E-005 l.OOOE+OOl 134 1442 CCW-XVM-PG-XV580 L 4.000E-005 l.OOOE+OOl 134 1443 CCW-XVM-PG-XV583 L 4.000E-005 l.OOOE+OOl 134 1444 CCW-XVM-PG-XV584 L 4.000E-005 l.OOOE+OOl 134 1445 CCW-XVM-PG-XV587 L 4.000E-005 1.000E+OOl 134 1446 CCWl L 1.000E+OOO 1.000E+OOO 1447 CCW13 L 1.000E+OOO 1.000E+OOO 1448 CCW14 L 1.000E+OOO 1. OOOE+OOO 1449 CCW14S L 1. OOOE+OOO l.OOOE+OOO 1450 CCW19 L 1. OOOE+OOO 1. OOOE+OOO 1451 CCW1S L 1. OOOE+OOO

  • l. OOOE+OOO 1452 CCW2 L l.OOOE+OOO l.OOOE+OOO 1453 CCW23 L 1.000E+OOO 1.000E+OOO 1454 CCW23S L l.OOOE+OOO 1. OOOE+OOO 1455 CCW24 L l.OOOE+OOO l.OOOE+OOO 1456 CCW24S L 1.000E+OOO l.OOOE+OOO 1457 CCW2S L 1.000E+OOO l.OOOE+OOO 1458 CCW3 L 1.000E+OOO 1. OOOE+OOO 1459 CCW3S L 1.000E+OOO 1. OOOE+OOO 1460 CCW4 L 1. OOOE+OOO 1.000E+OOO 1461 CCW4S L 1. OOOE+OOO. 1.000E+OOO 1462 CCW5 L 1. OOOE+OOO 1. OOOE+OOO 1463 CCW6 L 1.000E-004 1.000E+OOO 1464 CCW7 L 1.000E-004 1. OOOE+OOO 1465 ccw0 L 1. OOOE-004 1.000E+OOO 1466 CIA L 1.000E+OOO 1. OOOE+OOO 1467 CIA-AOV-FT-IA103 L 1. OOOE-003 3.000E+OOO 5 1468 CIA-AOV-PG-lOlA L 4.000E-005 3.000E+OOO 9 1469 CIA-AOV-PG-101B L 4.000E-005 3.000E+OOO 9 1470 CIA-AOV-PG-TVlOO L 4.000E-005 3.000E+OOO 9 1471 CIA-AOV-PG-TV125 L 4.000E-005 3.000E+OOO 9 1472 CIA-CCF-FR-IAC4 L 4.800E-004 l.OOOE+OOl 1473 CIA-CPS-FR-IAC4A L 4.800E-003 1. OOOE+OOl 202 1474 CIA-CPS-FR-IAC4B L 4.800E-003 1.000E+OOl 202 1475 CIA-CPS-FS-IAC4B L 8.000E-002 3*. OOOE+OOO 203 1476 CIASUC L 1. OOOE+OOO 1.000E+OOO 1477 CIR-COND-UNAVLBL L 1.000E-002 5.000E+OOO 1478 CKV-CCF-FT-CLDLG L 1.000E-005 1.000E+OOl 302 1479 CKV-CCF-FT-HTLGl L 1. OOOE-005 1.000E+OOl 302 1480 CKV-CCF-FT-HTLG2 L 1.000E-005 1. OOOE+OOl 302 1481 CLlWl L 1.000E+OOO 1.000E+OOO 1482
  • CLlWl-13 L 1.000E+OOO 1.000E+OOO 1483 CLlWl-17 L 1.000E+OOO 1.000E+OOO 1484 CLlWl-4 L 1. OOOE+OOO 1.000E+OOO 1485 CLlWl-8 L 1. OOOE+OOO 1.000E+OOO 1486 CL1W1N13 L 1.000E+OOO 1.000E+OOO 1487 CL1W1N17 L 1. OOOE+OOO l.OOOE+OOO 1488 CL1W1N4 L 1.000E+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 31 N-31

Event Number Primary.Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 1489 CL1WlN8 L l.OOOE+OOO l.OOOE+OOO 1490 CLlWlV L l.OOOE+OOO l.OOOE+OOO 1491 CL1W2 L l.OOOE+OOO l.OOOE+OOO 1492 CL1W2-13 L l.OOOE+OOO l.OOOE+OOO 1493 CL1W2-17 L 1. OOOE+OOO 1.000E+OOO 1494 CL1W2-4 L l.OOOE+OOO 1.000E+OOO 1495 CL1W2-8 L 1. OOOE+OOO 1. OOOE+OOO 1496 CL1W2CPZM L 1. OOOE+OOO l.OOOE+OOO 1497 CL1W2N13 L l.OOOE+OOO 1. OOOE+OOO 1498 CL1W2N17 L l.OOOE+OOO 1. OOOE+OOO 1499 CL1W2N4 L 1.000E+OOO 1.000E+OOO 1500 CL1W2N8 L l.OOOE+OOO 1. OOOE+OOO 1501 CL1W2V L 1.000E+OOO l.OOOE+OOO 1502 CL2Wl L 1.000E+OOO 1. OOOE+OOO 1503 CL2Wl-13 L l.OOOE+OOO 1. OOOE+OOO 1504 CL2Wl-17 L l.OOOE+OOO 1. OOOE+OOO 1505 CL2Wl-4 L 1. OOOE+OOO 1. OOOE+OOO 1506 CL2Wl-8 L 1. OOOE+OOO l.OOOE+OOO 1507 CL2WlN13 L 1. OOOE+OOO 1.000E+OOO 1508 CL2WlN17 L 1.000E+OOO l.OOOE+OOO 1509 CL2WlN4 L 1. OOOE+OOO 1.000E+OOO 1510 CL2W1N8 L l.OOOE+OOO l.OOOE+OOO 1511 CL2W1V L l.OOOE+OOO l.OOOE+OOO 1512 CL2W2 L l.OOOE+OOO l.OOOE+OOO 1513 CL2W2-13 L 1. OOOE+OOO l.OOOE+OOO 1514 CL2W2-17 L l.OOOE+OOO l.OOOE+OOO 1515 CL2W2-4 L 1. OOOE+OOO l.OOOE+OOO 1516 CL2W2-8 L 1. OOOE+OOO 0 l . 000E+OOO 1517 CL2W2Nl3 L l.OOOE+OOO l.OOOE+OOO 1518 CL2W2Nl7 L l.OOOE+OOO l.OOOE+OOO 1519 CL2W2N4 L l.OOOE+OOO l.OOOE+OOO 1520 CL2W2N8 L l.OOOE+OOO l.OOOE+OOO 1521 CL2W2V L l.OOOE+OOO l.OOOE+OOO 1522 CL3Wl L l.OOOE+OOO l.OOOE+OOO 1523 CL3Wl-13 L 1. OOOE+OOO l.OOOE+OOO 1524 CL3Wl-17 L 1. OOOE+OOO 1.000E+OOO 1525 CL3Wl-4 L 1. OOOE+OOO 1. OOOE+OOO 1526 CL3Wl-8 L 1. OOOE+OOO 1.000E+OOO 1527 CL3WlN13 L 1. OOOE+OOO 1. OOOE+OOO 1528 CL3WlN17 L 1. OOOE+OOO 1. OOOE+OOO 1529 CL3WlN4 L l.OOOE+OOO 1. OOOE+OOO 1530 CL3WlN8 L 1. OOOE+OOO l.OOOE+OOO 1531 CL3W1V L 1. OOOE+OOO 1. OOOE+OOO 1532 CL3W2 L 1. OOOE+OOO 1. OOOE+OOO 1533 CL3W2-13 L l.OOOE+OOO l.OOOE+OOO 1534 CL3W2-17 L l.OOOE+OOO 1.000E+OOO 1535 CL3W2-4 L 1.000E+OOO 1. OOOE+OOO 1536 CL3W2-8 L l.OOOE+OOO 1. OOOE+OOO 1993/09/28 11:48:16 page 32 N-32

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1537 CL3W2N13 L 1.000E+OOO 1.000E+OOO 1538 CL3W2N17 L 1.000E+OOO 1.000E+OOO 1539 CL3W2N4 L 1.000E+OOO 1.000E+OOO 1540 CL3W2N8 L 1.000E+OOO 1.000E+OOO 1541 CL3W2V L 1.000E+OOO 1.000E+OOO 1542 CLCS-A L 1.000E+OOO 1.000E+OOO 1543 CLCS-B L 1.000E+OOO 1.000E+OOO 1544 CLPSD L 1.000E+OOO 1.000E+OOO 1545 CLS-ACT-FA-~LS2A L 1.600E-003 5.000E+OOO 1 1546 CLS-ACT-FA-:CLS2B L 1.600E-003 5.000E+OOO 1 1547 CLS-ACT-OP--CLS2 L +O.OOOE+OOO 1.000E+OOl 1548 CLS-H L +O.OOOE+OOO 1.000E+OOO 1549 CLS-HH L +O.OOOE+OOO 1.000E+OOO 1550 CON-VFC-RP-COREM L 2.000E-002 1.000E+OOO 94 1551 CONT/AFW-SGN L +O.OOOE+OOO 1.000E+OOl 1552 CP-INV-NO-UPSA2 L 1.000E+OOO 1.000E+OOO 1553 CPC-AOV-FT-108B L 1.000E-003 3.000E+OOO 5 1554 CPC-AOV-FT-108C L 1.000E-003 3.000E+OOO 5 1555 CPC-CCF-FT-8BC L 1.000E-004 5.000E+OOO 16 1556 CPC-CCF-LF-STRl L 4.700E-005 l.OOOE+OOl 18 1557 CPC-CCF-LF-STRAB L 4.700E-005 1.000E+OOl 18

.1559 1558 1560 1561 CPC-CKV-FT-CV108 CPC-CKV-FT-CV262 CPC-CKV-FT'-CV752 CPC-CKV-00-CV113 L L L L 1.000E-004 1.000E-004 1.000E-004 1.000E-003 3.000E+OOO 3.000E+OOO 3.000E+OOO 3.000E+OOO 31 31 31 33 1562 CPC-CKV-00-CV764 L 1.000E-003 3.000E+OOO 33 1563 CPC-ICC-FA-CCPBS L 3.200E-004 5.000E+OOO 3 1564 CPC-ICC-FA-SWPBS L 3.200E-004 5.000E+OOO 3 1565 CPC-ICC-FA-TCV8B L 1.600E-003 5.000E+OOO 1 1566 CPC-ICC-FA-TCV8C L l.600E-003 5.000E+OOO 1 1567 CPC-MDP-FR-2CC2A L l.800E-004 1. OOOE+OOl 60 1568 CPC-MDP-FR-CC2A L 7.200E-004 1.000E+OOl 57 1569 CPC-MDP-FR-CC2B L 7.200E-004 1.000E+OOl 57 15"'70 CPC-MDP-FR-SWlOA L 3.840E-003 3.000E+OOO 47A 1571 CPC-MDP-FR-SWlOB L 3.840E-003 3.000E+OOO 47A 1572 CPC-MDP-FR-SW20A L 9.600E-004 3.-000E+OOO 47 1573 CPC-MDP-FS-2CC2A L 3.000E-003 l.OOOE+OOl 65 1574 CPC-MDP-FS-CC2B L 3.000E-003 1.000E+OOl 65 1575 CPC-MDP-FS-SW10B L 8.000E-003 3.500E+OOO 62 1576 CPC-MDP-FS-SW20A L 8.000E-003 3.500E+OOO 62 1577 CPC-MDP-MA-CC2B L 2,000E-003 1.000E+OOl 66 1578 CPC-MDP-MA-SWlOA L +O.OOOE+OOO +O.OOOE+OOO 1579 CPC-MDP-MA-SWlOB u 9.274E-001 1.000E+OOO 1580 CPC-MDP-MAOCC2B L 2.000E-003 1.000E+OOl 66 1581 CPC-MDP-MAOSW10B u 4.473E-001 8.946E-001 1582 CPC-STR-PG-1AU26 L 1. 800E-004 1.000E+OOl 83 1583 CPC-STR-PG-2AU26 L 1. 800E-004 1.000E+OOl 83 1584 CPC-STR-PG-STRlA L 1.800E-004 1.000E+OOl 83 1993/09/28 11:48:16 page 33 N-33

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary, Name Type Probability Value Class 1585 CPC-STR-PG-STRlB L 1.800E-004 1.000E+OOl 83 1586 CPC-STR-PG-STR2A L 1. BOOE-004 1.000E+OOl 83 1587 CPC-STR-PG-STR2B L 1. 800E-004 1.000E+OOl 83 1588 CPC-XVM-PG-2SW11 L 8.400E-006 3.000E+OOO 135 1589 CPC-XVM-PG-SW474 L 8.400E-006 3.000E+OOO 135 1590 CPC-XVM-PG-XV109 L 8.400E-006 3.000E+OOO 135 1591 CPC-XVM-PG-XV117 L 3.650E-005 3.000E+OOO 198 1592 CPC-XVM~PG-XV118 L 8.400E-006 3.000E+OOO 135 1593 CPC-XVM-PG-XV119 L 8.400E-006 3.000E+OOO 135 1594 CPC-XVM-PG-XV120 L 3.650E-005 3.000E+OOO 198 1595 CPC-XVM-PG-XV122 L 3.650E-005 3.000E+OOO 198 1596 CPC-XVM-PG-XV123 I . L 3.650E-005 3.000E+OOO 198 1597 CPC-XVM-PG-XV124 L 3.650E-005 3.000E+OOO 198 1598 CPC-XVM-PG-XV125 L 3.650E-005 3.000E+OOO 198 1599 CPC-XVM.- PG-XV12 6 L 3.650E-005 3.000E+OOO 198 1600 CPC-XVM-PG-XV170 L 3.650E-005 3.000E+OOO 198 1601 CPC-XVM-PG-XV171 L 8.400E-006 3.000E+OOO 135 1602 CPC-XVM-PG-XV172 L 3.650E-005 3.000E+OOO 198 1603 CPC-XVM-PG-XV173 L 3.650E-005 3.000E+OOO 198 1604 CPC-XVM-PG-XV261 L 8.400E-006 3.000E+OOO 135 1605 CPC-XVM-PG-XV305 L 8.400E-006 3.000E+OOO 135 1606 CPC-XVM-PG-XV306 L 8.400E-006 3.000E+OOO 135 1607 CPC-XVM-PG-XV701 L 3.650E-005 3.000E+OOO 198 1608 CPC-XVM-PG-XV781 L 3.650E-005 3.000E+OOO 198 1609 CPCl L 1.000E+OOO 1.000E+OOO 1610 CPC2 L 1.000E+OOO 1.000E+OOO 1611 CPC3 L 1.000E+OOO 1.000E+OOO 1612 CPC4 L 1.000E+OOO 1.000E+OOO 1613 CPCA L l.OOOE+OOO 1.000E+OOO 1614 CPCB L 1.000E+OOO 1.000E+OOO 1615 CPCC L 1.000E+OOO 1.000E+OOO 1616 CR3Wl L 1.000E+OOO 1.000E+OOO 1617 CR3W1V L l.OOOE+OOO 1.000E+OOO 1618 CR3W2 L 1.000E+OOO 1.000E+OOO 1619 CR3W2V L 1.000E+OOO 1.000E+OOO 1620 CR3W3 L 1.000E+OOO l.OOOE+OOO 1621 CR4Wl L 1.000E+OOO 1.000E+OOO 1622 CR4W1V L 1.000E+OOO 1.000E+OOO 1.623 CR4W2 L 1.000E+OOO 1.000E+OOO 1624 CR4W2V L 1.000E+OOO 1.000E+OOO 1625 CR5Wl L 1.000E+OOO 1.000E+OOO 1626 CR5W1V L 1.000E+OOO 1.000E+OOO 1627. CR5W2 L 1.000E+OOO 1.000E+OOO 1628 CR5W2V L 1.000E+OOO 1.000E+OOO 1629 cs L 1.000E+OOO 1.000E+OOO 1630 CSRWl L 1.000E+OOO 1.000E+OOO 1631 CSS-CCF-FS-CS1AB L 3.300E-004 1.300E+001 1632 CSS-CCF-FT-101AB L 2.600E-004 1. 300E+001 15 1993/09/28 11:48:16 page 34 N-34

  • Event Number Primary Name BASIC EVENTS UNC_ERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation.

Class 1633 CSS-CCF-FT~lOlCD L 2.600E-004

1. 300E+001 15 1634 CSS-CKV-FT'-CV13 L 1. OOOE-004 3.000E+OOO 31 1635 CSS-CKV-FT-CV24 L l.OOOE-004 3.000E+OOO 31 1636 CSS-FLT-PG-CSlA L 3.000E-005 1. OOOE+OOl 81 1637 CSS-FLT-PG-CS1B L 3.000E-005 l.OOOE+OOl 81 1638 CSS-MDP-FR-lAlHR L 3.000E-005 1.000E+OOl 55 1639 CSS-MDP-FR-lBlHR L 3.000E-005 1. OOOE+OOl 55 1640 CSS-MDP-FS-CSlA L 3.000E-003 1. OOOE+OOl 65.

1641 C::SS-MDP-FS-E:S1B L 3.000E-003 1. OOOE+OOl 65 1642 CSS-MDP-MA-.CSlA L 2.000E-003 1.000E+OOl 66 1643 CSS-MDP-MA-*cs1B L 2.000E-003 1.000E+OOl 66 1644 CSS-MDP.-MAOCS1B L 2.000E-003 1.000E+OOl 66 1645 CSS-MDP-OP-AB L +O.OOOE+OOO 1. OOOE+OOl 1646 CSS-MOV-FT-101A L 3.000E-003 1. OOOE+OOl 69 1647 CSS-MOV-FT-101B L 3.000E-003 l.OOOE+OOl 69 1648 CSS-MOV-FT-lOlC L 3.000E-003 1. OOOE+OOl 69 1649 CSS-MOV-FT-101D L 3.000E-003 1.000E+OOl 69 1650 CSS-MOV-PG-lOOA L l.095E-004 3.000E+OOO 19.6 1651 CSS-MOV-PG-100B L 1. 095E-004 3.000E+OOO 196 1652 CSS-TRA-MA L 2.500E-001 1 .. 000E+OOl 1653 CSS-XVM-RE-XV15 L 3.000E-003 1.000E+OOl 136 1654 CSS-XVM-RE-XV8 L 3.000E-003 1.000E+OOl 136 1655 CSS1 L 1.000E+OOO 1.000E+OOO 1656 CSS1Nl15 L 1.000E+OOO 1.000E+OOO 1657 CSS1N313 L 1.000E+OOO 1.000E+OOO 1658 CSS2 L 1. OOOE+OOO 1. OOOE+OOO 1659 CSS2N115 L 1.000E+OOO 1.000E+OOO 1660 CV L 1.000E+OOO 1.000E+OOO 1661 CVBWl L 1. OOOE+OOO 1.000E+OOO 1662 CVBWl-13 L 1.000E+OOO 1.000E+OOO 1663 CVBWl-4 L 1. OOOE+OOO 1. OOOE+OOO 1664 CVBW1V18 L l.OOOE+OOO 1. OOOE+OOO 1665 CVBW1V9 L 1. OOOE+OOO 1. OOOE+OOO 1666 CVBW2 L 1.000E+OOO 1. OOOE+OOO 1667 CVBW2-13 L l.OOOE+OOO 1. OOOE+OOO 1668 CVBW2-4 L 1.000E+OOO l.OOOE+OOO 1669 CVBW2V18 L 1. OOOE+OOO 1. OOOE+OOO 1670 CVBW2V9 L 1.000E+OOO 1. OOOE+OOO 1671 CVC-MDP-FR-2AlHR L 3.000E-005 l.OOOE+OOl 55 1672 D-4KD6-XHE L l.OOOE+OOO 1. OOOE+OOO 1673 D-4KR10-XHE L l.OOOE+OOO 1. OOOE+OOO 1674 D-4KR6-XHE L 1.000E+OOO 1. OOOE+OOO 1675 D-4KW1-XHE L 2.300E-005 l.OOOE+OOl 1676 D-4KW2-XHE L l.200E-005 l.OOOE+OOl 1677 D-4KW3-XHE L 1.200E-005 1.000E+OOl 1678 D-4KW4-XHE L 1.lOOE-006 1.000E+OOl 1679 D-B1D6-XHE L l.OOOE+OOO 1.000E+OOO 1680 D-B1R10-XHE L 1.000E+OOO l.OOOE+OOO 1993/09/28 11:48:16 . page 35

  • N-35

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST I Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1681 D-BlR6-XHE L l.OOOE+OOO l.OOOE+OOO 1682 D-BlWl-XHE L 2.200E-002 l.OOOE+OOO 1683 D-B1W2-XHE L 4.300E-002 1.000E+OOO 1684 D-B1W3-XHE L 4.300E-002 1.000E+OOO 1685 D-B1W4-XHE L 1.200E-003 1.000E+OOO 168.6 D-B2Wl-XHE L 9.700E-003 1.000E+OOO 1687 D-B2W2-XHE L 7.400E-003 l.OOOE+OOO 1688* D-B2W3-XHE L 7.400E-003 l.OOOE+OOO 1689 D-B2W4-XHE L 7.200E-004 1.000E+OOO 1690 D-CTlWl-XHE L 1.900E-002 5.000E+OOO FlA 1691 D-CT1W2-XHE L 7.400E-003 l.OOOE+OOl FlB 1692 D-CT1W3-XHE L. 7.400E-003 l.OOOE+OOl FlB 1693 D-CT1W4-XHE L l.600E-003 l.OOOE+OOl F2A 1694 D-CT2Wl-XHE L 2.300E-005 1.000E+OOl F:\A 1695 D-CT2W2-XHE L 7.700E-006 1.000E+OOl F4A 1696 D-CT2W3-XHE L 7.700E-006 1.000E+OOl J:i'4A 1697 D-ElWl-XHE L 2.800E-003 1.000E+OOl FSA 1698 D-E1W2-XHE L 1. lOOE-003 1.000E+OOl F6A 1699 D-E1W3-XHE L 1. lOOE-003 1.000E+OOl F6A 1700 D-E1W4-XHE L 2.400E-004 1.000E+OOl F7A 1701 D-E2Wl-XHE L 2.800E-003 1.000E+OOl FSA 1702 D-E2W2-XHE L 1.lOOE-003 1.000E+OOl F6A 1703 D-E2W3-XHE L 1. lOOE-003 1.000E+OOl F6A 1704 D-E2W4-XHE L 2.400E-004 1.000E+OOl F7A 1705 D-E3Wl-XHE L 2.800E-003 1.000E+OOl FSA 1706 D-E3W2-XHE L 1.lOOE-003 1.000E+OOl F6A 1707 D-E3W3-XHE L 1. lOOE-003 1.000E+OOl F6A 1708 D-E3W4-XHE L 2.400E-004 1.000E+OOl F7A 1709 D-E6Wl-XHE L 1. 900E-002 5.000E+OOO 1710 D-E6W2-XHE L 7.400E-003 1.000E+OOl 1711 D-E6W3-XHE L 7.400E-003 1.000E+OOl 1712 D-E6W4-XHE L 1.600E-003 1.000E+OOl 1713 D-E7Wl-XHE L 1.900E-002 5.000E+OOO 1714 D-E7W2-XHE L 7.400E-003 1.000E+OOl 1715 D-E7W3-XHE L 7.400E-003 1.000E+OOl 1716 D-E7W4-XHE L 1.600E-003 1.000E+OOl 1717 D-EBWl-XHE L 2.900E-002 S.OOOE+OOO FSA 1718 D-E8W2-XHE L 1. SOOE-002 5.000E+OOO F9A 1719 D-E8W3-XHE L 1. SOOE-002 S.OOOE+OOO 'l.'9A 1720 D-E8W4-XHE L 2.lOOE-003 1.000E+OOl F4.X 1721. D-EAWl-XHE L 2.800E-003 1.000E+OOl 1"~A 1722 D-EAW2-XHE L 1. lOOE-003 1.000E+OOl F6A 1723 D-EAW3-XHE L 1.lOOE-003 1.000E+OOl F6A 1724 D-EAW4-XHE L 2.400E-004 1.000E+OOl F7A 1725 D-EBWl-XHE L 2.800E-003 1.000E+OOl FSA 1726 D-EBW2-XHE L 1.lOOE-003 l.OOOE+OOl F6A 1727 D-EBW3-XHE L l.lOOE-003 l.OOOE+OOl F6A 1728 D-EBW4-XHE L 2.400E-004 1.000E+OOl F7A 1993/09/28 11:48:16 page 36 N-36

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1729 D-ECWl-XHE L 8.000E-005 l.OOOE+OOl F2B 1730 D-ECW2-XHE L 2.700E-005 l.OOOE+OOl F3B 1731 D-ECW3-XHE L 2.700E-005 l.OOOE+OOl F3B 1732 D-LlWl-XHE L 8.200E-004 l.OOOE+OOO 1733 D-L1W2-XHE L 3.600E-004 1. OOOE+OOO 1734 D-LlW3-XHE L 3.600E-004 l.OOOE+OOO 1735 D-LlW4-XHE L 8.000E-005 l.OOOE+OOO 1736 D-L2Wl-XHE L l.OOOE-003 l.OOOE+OOO 1737 D-L2W2-XHE L 7.400E-004 l.OOOE+OOO 1738 D-L2W3-XHE L 7.400E-004 l.OOOE+OOO 1739 D-L2W4-XHE L 1. OOOE-004 1. OOOE+OOO 1740 D-L3Wl-XHE L 4.300E-003 l.OOOE+OOO 1741 D-L3W2-XHE L l.900E-003 1. OOOE+OOO 1742 D-L3W3-XHE L l.900E-003 l.OOOE+OOO 1743 D-L3W4-XHE L 4.lOOE-004 l.OOOE+OOO 1744 D-Ml3W2-XHE L l.900E-002 5.000E+OOO FlA 1745 D-Ml3W3-XHE L 1. 900E-002 5.000E+OOO FlA 1746 D-M3W2-XHE L 8.200E-004 1. OOOE+OOl F4B 1747 D-M3W3-XHE L 8.200E-004 l.OOOE+OOl F4B 1748 D-M4W2-XHE L 9.700E-003 l.OOOE+OOl F5B 1749 D-M4W3-XHE L 9.700E-003 l.OOOE+OOl F5B 1750 D-M8Wl-XHE L l.900E-002 5.000E+OOO FlA 1751 D-M8W2-XHE L 9.700E-003 l.OOOE+OOl FSB 1752 D-M8W3-XHE L 9.700E-003 l.OOOE+OOl 'FSB 1753 D-MAWl-XHE L l.600E-003 1. OOOE+OOl F6B 1754 D-MAW2-XHE L 5.400E-004 l.OOOE+OOl F7B 1755 D-MAW3-XHE L 5.400E-004 l.OOOE+OOl F7B 1756 D-MAW4-XHE L 8.000E-005 l.OOOE+OOl F2B 1757 D-NlWl-XHE L 2.800E-003 l.OOOE+OOl FSA 1758 D-NlW2-XHE L 1. lOOE-003 1. OOOE+OOl F6A 1759 D-NlW3-XHE L 1. lOOE-003 l.OOOE+OOl F6A 1760 D-NlW4-XHE L 2.400E-004 1.000E+001 F7A 1761 D-N2Wl-XHE L 2.800E-OQ3 1. OOOE+OOl FSA 1762 D-N2W2-XHE L l.lOOE-003 1.000E+001 F6A 1763 D-N2W3-XHE L l.lOOE-003 1.000E+001 F6A 1764 D-N2W4-XHE L 2.400E-004 1. OOOE+OOl F7A 1765 D-R3D6-XHE L 2.300E-005 1. OOOE+OOO 1766 D-R3R10-XHE L 1. lOOE-006 1.000E+OOO 1767 D-R3R6-XHE L 7.700E-006 l.OOOE+OOO 1768 D-R3Wl-XHE L 2.300E-005 1.000E+OOO 1769 D-R3W2-XHE L 7.700E-006 1.000E+OOO 1770 D-R3W3-XHE L 7.700E-006 l.OOOE+OOO 1771 D-R3W4-XHE L l.100E-006 1. OOOE+OOO 1772 D-R4D6-XHE L l.500E-005 1.000E+OOO 1773 D-R4Rl0-XHE L l.lOOE-006 l.OOOE+OOO 1774 D-R4R6-XHE L S.lOOE-006 l.OOOE+OOO 1775 D-R4Wl-XHE L l.SOOE-005 l.OOOE+OOO 1776 D-R4W2-XHE L S.lOOE-006 1.000E+OOO 1993/09/28 11:48:16 page 37

  • N-37

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 1777 D-R4W3-XHE L 5.lOOE-006 l.OOOE+OOO 1778 D-R4W4-XHE L l.lOOE-006 l.OOOE+OOO 1779 D-R5D6-XHE L 2.300E-005 l.OOOE+OOO 1780 D-R5Rl0-XHE L l.lOOE-006 l.OOOE+OOO 1781 D-R5R6-XHE L 1. 200E-005 l.OOOE+OOO 1782 D-RSWl-XHE L 2.300E-005 l.OOOE+OOO 1783 D-RSW2-XHE L l.200E-005 l.OOOE+OOO 1784 D-RSW3-XHE L l.200E-005 l.OOOE+OOO 1785 D-RSW4-XHE L 1.lOOE-006 1.000E+OOO 1786 D-RAD6-XHE L 1. 500E-005 1.000E+OOO 1787 D-RARlO-XHE L 1.lOOE-006 1.000E+OOO 1788 D-RAR6-XHE L 5.lOOE-006 1.000E+OOO 1789 D-RBD6-XHE L 1.SOOE-005 l.OOOE+OOO 1790 D-RBRlO-XHE L l.lOOE-006 l.OOOE+OOO 1791 D-RBR6-XHE L 5.lOOE-006 l.OOOE+OOO 1792 D-SRD6-XHE L 1. OOOE+OOO 1.000E+OOO 1793 D-SRRlO-XHE L 1.000E+OOO 1.000E+OOO 1794 D-SRR6-XHE L 1.000E+OOO 1. OOOE+OOO 1795 D-SRWl-XHE L 1.400E-002 1. OOOE+OOO 1796 D-SRW2-XHE L 1. 400E-002 1. OOOE+OOO 1797 D-SRW3-XHE L l.400E-002 l.OOOE+OOO 1798 D-SRW4-XHE L 4.800E-003 1. OOOE+OOO 1799 D-VBD6-XHE L 1. OOOE+OOO 1. OOOE+OOO 1800 D-VBRlO-XHE L 1. OOOE+OOO 1. OOOE+OOO 1801 D-VBR6-XHE L 1.000E+OOO l.OOOE+OOO 1802 D-VBWl-XHE L 8*. OOOE-005 1.000E+OOl 1803 D-VBW2-XHE L 2.700E-005 l.OOOE+OOl 1804 D-VBW3-XHE L 2.700E-005 1.000E+OOl 1805 D-VBW4-XHE L 5.900E-006 l.OOOE+OOl 1806 Dl L 1. OOOE+OOO 1.000E+OOO 1807 Dl-C L 1.000E+OOO 1.000E+OOO 1808 D1HLG L 1.000E+OOO 1. OOOE+OOO 1809 D2 L 1.000E+OOO l.OOOE+OOO 1810 D2-C L 1.000E+OOO 1.000E+OOO 1811 D223 L 1.000E+OOO 1.000E+OOO 1812 D2HLG L 1. OOOE+OOO 1.000E+OOO 1813 D2HLG23 L 1. OOOE+OOO 1. OOOE+OOO 1814 D3 L 1.000E+OOO 1.000E+OOO 1815 D3-C L 1.000E+OOO 1.000E+OOO 1816 D3U2 L 1.000E+OOO 1.000E+OOO 1817 D4 L 1. OOOE+OOO 1.000E+OOO 1818 DS L 1.000E+OOO 1. OOOE+OOO 1819 D6 L l.OOOE+OOO l.OOOE+OOO 1820 D6-C L l.OOOE+OOO 1.000E+OOO 1821 D6-CG L 1.000E+OOO 1.000E+OOO 1822 D630HLG L l.OOOE+OOO l.OOOE+OOO 1823 D631HLG L l.OOOE+OOO l.OOOE+OOO 1824 D640HLG L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 38 N-38

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1825 D641HLG L

1. OOOE+OOO
1. OOOE+OOO 1826 D6HLG L 1.000E+OOO 1.000E+OOO 1827 DCP-BAT-LP-BATlA L 7.200E-004 3.000E+OOO 12 1828 DCP-BAT-LP-BATlB L 7.200E-004 3.000E+OOO 12 1829 DCP-BAT-LP-BAT2A L 7.200E-004 3.000E+OOO 12 1830 DCP-BAT-LP-BAT2B L 7.200E-004 3.000E+OOO 12 1831 DCP-BDC-MA-BAT1B L +O.OOOE+OOO 1.000E+OOO 1832 DCP-BDC-MAOBAT1B L +O.OOOE+OOO 1.000E+OOO 1833 DCP-BDC-ST-BUS1A L 9.000E-005 5.000E+OOO 11 1834 DCP-BDC-ST-:BUS1B L 9.000E-005 5.000E+OOO 11 1835 DCP-CCF-LP~BTlAB L 5.800E-006 3.000E+OOO 303 1836 DCP-CCF-LP-BT2AB L 5.800E-006 3.000E+OOO 303 1837 DCP-CRB-C0-19 L 2.900E-005 3.000E+OOO 34 1838 DCP-CRB-C0-20 L 2.900E-005 3.000E+OOO 34 1839 DCP-CRB-C0-23 L 2.900E-005 3.000E+OOO 34 1840 DCP-CRB-C0-24 L 2.900E-005 3.000E+OOO 34 1841 DR-MT L 1. 200E+OOO 3.220E+OOO 1842 DURATION-D6 L 2.550E+002 8.970E+OOO 1843 DURATION-RlO L 4.440E+002 2.030E+001 1844 DURATION-R6 L 2.380E+002 7.850E+OOO 1845 DVBW3-XHE L 1. OOOE+OOO 1.000E+OOO 1846 ElA L 1. OOOE+OOO 1. OOOE+OOO
  • 1847 E1B L 1. OOOE+OOO 1. OOOE+OOO 1848 Ell L l.OOOE+OOO l.OOOE+OOO 1849 E21II L l.OOOE+OOO 1.000E+OOO 1850 E31III L 1.000E+OOO 1. OOOE+OOO 1851 E41IV L 1.000E+OOO 1.000E+OOO 1852 E4801H L 1. OOOE+OOO 1.000E+OOO 1853 E4801J L 1. OOOE+OOO 1. OOOE+OOO 1854 EHl L 1. OOOE+OOO l.OOOE+OOO 1855 EH2 L l.OOOE+OOO 1. OOOE+OOO 1856 EJl L 1. OOOE+OOO l.OOOE+OOO 1857 EJ2 L 1.000E+OOO 1.000E+OOO 1858 ESTB1H L 1. OOOE+OOO 1. OOOE+OOO 1859 ESTB1J L l.OOOE+OOO 1.000E+OOO 1860 Fl L l.OOOE+OOO 1. OOOE+OOO 1861 FlLPSD L 1.000E+OOO .1. OOOE+OOO 1862 F2 L 1. OOOE+OOO l.OOOE+OOO 1863 F2LPSD L l.OOOE+OOO 1.000E+OOO 1864 F4KW1 L l.OOOE+OOO 1.000E+OOO 1865 F4KW1-14 L l.OOOE+OOO 1.000E+OOO 1866 F4KW1-5 L 1. OOOE+OOO 1.000E+OOO 1867 F4KW1V10 L 1.000E+OOO 1. OOOE+OOO 1868 F4KW1V19 L 1.000E+OOO 1.000E+OOO 1869 F4KW2 L 1.000E+OOO l.OOOE+OOO
 . 1870   F4KW2-14                  L         1. OOOE+OOO     1.000E+OOO 1871   F4KW2-5                   L         1.000E+OOO      1.000E+OOO 1872   F4KW2Vl0                  L         1.000E+OOO      1.000E+OOO 1993/09/28                      11:48:16                            page     39
  • N-39

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 1873 F4KW2V19 L 1.000E+OOO 1.000E+OOO 1874 F4KW3 L 1.000E+OOO 1.000E+OOO 1875 F4KW3-10 L 1.000E+OOO 1.000E+OOO 1876 F4KW3-4 L 1.000E+OOO 1. OOOE+OOO 1877 F4KW3V13 L 1.000E+OOO 1. OOOE+OOO 1878 F4KW3V7 L 1. OOOE+OOO 1. OOOE+OOO 1879 F4KW4 L 1.000E+OOO 1. OOOE+OOO 1880 F4KW4-10 L 1. OOOE+OOO 1.000E+OOO 1881 F4KW4-4 L 1.000E+OOO 1.000E+OOO 1882 F4KW4V13 L 1. OOOE+OOO 1. OOOE+OOO 1883 F4KW4V7 L 1. OOOE+OOO. 1.000E+OOO 1884 FI-D-P- -SI1B L 1.000E+OOO 1.000E+OOO 1885 FI-D-P-CCP1B L 1.000E+OOO 1.000E+OOO 1886 FI-D-P-CHP1B L 1. OOOE+OOO 1.000E+OOO 1887 FI-D-P-CHPlC L 1.000E+OOO 1. OOOE+OOO 1888 FI-D-P-FW3A L 1.000E+OOO 1. OOOE+OOO 1889 FI-D-P-FW3B L 1.000E+OOO 1. OOOE+OOO 1890 FI-D-P-RHP1B L 1.000E+OOO 1.000E+OOO 1891 FI-D-P-SI1A L 1.000E+OOO 1.000E+OOO 1892 FI-D-P-SI1B L 1.000E+OOO 1.000E+OOO 1893 FI-D-P-SW10B L 1. OOOE+OOO 1.000E+OOO 1894 FI-D-V-101A L 1.000E+OOO 1.000E+OOO 1895 FI-D-V-1115B L 1. OOOE+OOO l.'OOOE+OOO 1896 FI-D-V-1115C L 1.000E+OOO 1.000E+OOO 1897 FI-D-V-1115D L 1.000E+OOO 1. OOOE+OOO 1898 FI-D:-V-1115E L 1. OOOE+OOO 1. OOOE+OOO 1899 FI-D-V-151A L 1. OOOE+OOO 1.000E+OOO 1900 FI-D-V-151B L 1. OOOE+OOO 1.000E+OOO 1901 FI-D-V-151C L 1.000E+OOO L OOOE+OOO 1902 FI-D-V-151D L 1.000E+OOO 1.000E+OOO 1903 FI-D-V-151E L 1.000E+OOO 1. OOOE+OOO 1904 FI-D-V-151F L 1.000E+OOO 1.000E+OOO 1905 FI-D-V-1890C L 1.000E+OOO 1.000E+OOO 1906 FI-P-P-CCPlA L 1.000E+OOO 1.000E+OOO 1907 FI-P-P .. CCP1B L 1.000E+OOO 1.000E+OOO 1908 FI-P-P-CHPlA L 1.000E+OOO 1.000E+OOO 1909 FI-P-P-CHP1B L 1.000E+OOO 1.000E+OOO 1910 FI-P-P-CHPlC L 1.000E+OOO 1. OOOE+OOO 1911 FI-P-P-FW3A L 1.000E+OOO 1. OOOE+OOO 1912 FI-P-P-FW3B L 1.000E+OOO 1.000E+OOO 1913 FI-P-P-RHPlA L 1.000E+OOO 1.000E+OOO 1914 FI-P-P-RHP1B L 1.000E+OOO 1.000E+OOO 1915 FI-P-P-SI1A L 1. OOOE+OOO 1.000E+OOO 1916 FI-P-P-SI1B L 1.000E+OOO 1.000E+OOO 1917 FI-P-P-SWlOA L 1.000E+OOO 1.000E+OOO 1918 FI-P-P-SW10B L 1.000E+OOO 1.000E+OOO 1919 FI-P-V-1115B L 1.000E+OOO 1. 00.0E+OOO 1920 FI-P-V-1115C L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 40 N-40 J

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST : Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 1921 FI-P-V-1115D L l.OOOE+OOO

1. OOOE+OOO
  • 1922 FI-P-V-1115E L l.OOOE+OOO l.OOOE+OOO 1923 FI-P-V-151A L 1.000E+OOO 1. OOOE+OOO 1924 FI-P-V-151B L l.OOOE+OOO l.OOOE+OOO 1925 FI-P-V-151C L 1.000E+OOO 1. OOOE+OOO 1926 Fl-P-V-151D L l.OOOE+OOO 1.000E+OOO 1927 FI-P-V-151E L 1.000E+OOO l.OOOE+OOO 1928 Fl-P-V-151F L 1. OOOE+OOO 1.000E+OOO 1929 FI-P-V-1890 L 1.000E+OOO 1.000E+OOO 1930 FI-S-P-CCPl:A 'L 1.000E-001 1.000E+OOO 1931 FI-S-P-CHPlA L 1.000E-001 1. OOOE+OOO 1932 FI-S-P-RHPlA L l.OOOE-001 1.000E+OOO 1933 FI-S-P-SWlOA L 1.000E-001 1. OOOE+OOO 1934 FI-S-V-1267A L 1.000E-001 l.OOOE+OOO 1935 FI-S-V-1269A L 1.000E-001 1.000E+OOO 1936 FI-S-V-12,70A L 1.000E-001 1.000E+OOO 1937 FI-S-V-1286A L 1.000E-001 1. OOOE+OOO 1938 FI-S-V-1286B L 1.000E-001 1.000E+OOO 1939 FI-S-V-1286C L 1.000E-001 1.000E+OOO 1940 FI-S-V-1535 L 1.000E-001 1.000E+OOO 1941 FI-S-V-1536 L 1.000E-001 1.000E+OOO 1942 FI-S-V-1700 L 1.000E-001 1.000E+OOO FI-S-V-1701 L 1.000E-001 1.000E+OOO

.1943 1944 FI-S-V-1720A L 1.000E-001 1.000E+OOO 1945 FI-S-V-1720B L 1.000E-001 1.000E+OOO 1946 Fl-S-V-1862A L 1.000E-001 1.000E+OOO 1947 FI-S-V-1862B L 1.000E-001 1.000E+OOO 1948 FIRE-PUMP L 1. 632E-001 1. OOOE+OOO 1949 FL1D6 L 1.000E+OOO 1.000E+OOO 1950 FL1D6A L 1.000E+OOO 1.000E+OOO 1951 FLlRlO L 1.000E+OOO 1. OOOE+OOO 1952 FLlRlOA L 1.000E+OOO 1. OOOE+OOO 1953 FLlRlOB L 1.000E+OOO 1.000E+OOO 1954 FL1R10C L. 1.000E+OOO 1. OOOE+OOO 1955 FL1R6 L 1.000E+OOO 1. OOOE+OOO. 

  -1956   FL1R6A                    L         1.000E+OOO      1. OOOE+OOO 1957   FL1R6B                    L         1.000E+OOO      1.000E+OOO 1958   FL1R6C                    L         1.000E+OOO      1.000E+OOO 1959   FLlWl                     L         1.000E+OOO      1.000E+OOO 1960   FLlWl-14                  L          l.OOOE+OOO     1.000E+OOO 1961   FLlWl-18                  L          l.OOOE+OOO     1. OOOE+OOO 1962   FLlWl-5                I  L         1.000E+OOO      1.000E+OOO 1963   FLlWl-9                   L        *l.OOOE+OOO      1.000E+OOO 1964   FL1W2                     L          l.OOOE+OOO     1.000E+OOO 1965   FL1W2-14                  L          1.000E+OOO     1.000E+OOO 1966   FL1W2-18                  L          l.OOOE+OOO     1.000E+OOO 1967   FL1W2-4                   L          1.000E+OOO     l.OOOE+OOO 1968   FL1W2-5                   L          1.000E+OOO     1.000E+OOO 1993/09/28                     11:48:16                             page    41 N-41

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 1969 FL1W2-9 L l.OOOE+OOO l.OOOE+OOO 1970 FL1W3 L l.OOOE+OOO l.OOOE+OOO 1971 FL1W3-10 L 1. OOOE+OOO l.OOOE+OOO 1°972 FL1W3-12 L l.OOOE+OOO 1. OOOE+OOO 1973 FL1W3-4 L l.OOOE+OOO l.OOOE+OOO 1974 FL1W3-7 L l.OOOE+OOO l.OOOE4-000 1975 FL1W4 L l.OOOE+OOO l.OOOE+OOO 1976 FL1W4-10 L 1. OOOE+OOO 1. OOOE+OOO 1977 FL1W4-12 L 1. OOOE+OOO 1. OOOE+OOO 1978 FL1W4-5 L l.OOOE+OOO 1. OOOE+OOO 1979 FL1W4-8 L l.OOOE+OOO l.OOOE+OOO 1980 FL2D6 L l.OOOE+OOO l.OOOE+OOO 1981 FL2D6A L l.OOOE+OOO l.OOOE+OOO 1982 FL2Rl0 L l.OOOE+OOO l.OOOE+OOO 1983 FL2RlOA L l.OOOE+OOO l.OOOE+OOO 1984 FL2RlOB L l.OOOE+OOO l.OOOE+OOO 1985 FL2RlOC L l.OOOE+OOO l.OOOE+OOO 1986 FL2R6 L 1. OOOE+OOO l.OOOE+OOO 1987 FL2R6A L 1. OOOE+OOO 1. OOOE+OOO 1988 FL2R6B L l.OOOE+OOO l.OOOE+OOO 1989 FL2R6C L l.OOOE+OOO l.OOOE+OOO 1990 FL2Wl L l.OOOE+OOO l.OOOE+OOO 1991 FL2Wl-14 L l.OOOE+OOO l.OOOE+OOO 1992 FL2Wl-18 L l.OOOE+OOO 1. OOOE+OOO 1993 FL2Wl-5 L l.OOOE+OOO 1. OOOE+OOO 1994 FL2Wl-9 L l.OOOE+OOO 1. OOOE+OOO 1995 FL2W2 L 1.000E+OOO 1.000E+OOO 1996 FL2W2-14 L 1.000E+OOO 1.000E+OOO 1997 FL2W2-18 L 1.000E+OOO 1.000E+OOO 1998 FL2W2-5 L 1. OOOE+OOO 1.000E+OOO 1999

  • FL2W2-9 L 1. OOOE+OOO 1. OOOE+OOO 2000 FL2W3 L 1.000E+OOO 1. OOOE+OOO 2001 FL2W3-10 L l.OOOE+OOO 1. OOOE+OOO
  • 2002 FL2W3-12 L 1. OOOE+OOO 1. OOOE+OOO 2003 FL2W3-4 L l.OOOE+OOO 1.000E+OOO 2004 FL2W3-7 L l.OOOE+OOO 1.000E+OOO 2005 FL2W4 L l.OOOE+OOO 1.000E+OOO 2006 FL2W4-10 L l.OOOE+OOO 1. OOOE+OOO 2007 FL2W4-12 L l.OOOE+OOO 1. OOOE+OOO 2008 FL2W4-5 L l.OOOE+OOO 1. OOOE+OOO 2009 FL2W4-8 L l.OOOE+OOO 1.000E+OOO 2010 FL3D6 L l.OOOE+OOO 1.000E+OOO 2011 FL3R10 L l.OOOE+OOO 1.000E+OOO 2012 FL3R6 L l.OOOE+OOO 1. OOOE+OOO 2013 FL3Wl L 1.000E+OOO l.OOOE+OOO 2014 FL3Wl-14 L l.OOOE+OOO l.OOOE+OOO 2015 FL3Wl-18 L l.OOOE+OOO 1. OOOE+OOO 2016 FL3Wl-5 L 1. OOOE+OOO 1.000E+OOO 1993/09/28 11:48:16 page 42 N-42
  • Event Number Primary ~ame BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Pr~bability Uncertainty Value Correlation Class 2017 FL3Wl-9 L 1. OOOE+OOO 1. OOOE+OOO 2018 FL3W2 L 1. OOOE+OOO 1.000E+OOO 2019 FL3W2-14 L 1. OOOE+OOO 1.000E+OOO 2020 FL3W2-18 L 1.000E+OOO 1.000E+OOO 2021 FL3W2-5 L 1. OOOE+OOO 1.000E+OOO 2022 FL3W2-9 L 1. OOOE+OOO 1.000E+OOO 2023 FL3W3 L 1.000E+OOO l.OOOE+OOO 2024 FL3W3-10 L 1. OOOE+OOO l.OOOE+OOO 2025 FL3W3-12 L l.OOOE+OOO l.OOOE+OOO 2026 FL3W3-4 L 1. OOOE+OOO l.OOOE+OOO 2027 FL3W3-7 L 1. OOOE+OOO 1. OOOE+OOO 2028 FL3W4 L 1. OOOE+OOO l.OOOE+OOO 2029 FL3W4-10 L 1. OOOE+OOO l.OOOE+OOO 2030 FL3W4-12 L l.OOOE+OOO l.OOOE+OOO 2031 FL3W4-5 L l.OOOE+OOO l.OOOE+OOO 20,32 FL3W4-8 L l.OOOE+OOO l.OOOE+OOO 2033 FR3D6 L l.OOOE+OOO 1. OOOE+0.00 2034 FR3Rl0 L 1. OOOE+OOO l.OOOE+OOO 2035 FR3R6 L 1.000E+OOO 1.000E+OOO 2036 FR3Wl L l.OOOE+OOO l.OOOE+OOO 2037 FR3W1V L 1. OOOE+OOO l.OOOE+OOO 2038 FR3W2 L 1.000E+OOO l.OOOE+OOO 2039 FR3W2V L l.OOOE+OOO l.OOOE+OOO 2040 FR3W3 L l.OOOE+OOO l.OOOE+OOO 2041 FR3W3V L 1. OOOE+OOO l.OOOE+OOO 2042 FR3W4 L 1. OOOE+OOO 1. OOOE+OOO 2043 FR3W4V L l.OOOE+OOO l.OOOE+OOO 2044 FR4D6 L 1. OOOE+OOO l.OOOE+OOO 2045 FR4Rl0 L 1. OOOE+OOO l.OOOE+OOO 2046 FR4R6 L 1. OOOE+OOO l.OOOE+OOO 2047 FR4R6-9 L l.OOOE+OOO l.OOOE+OOO 2048 FR4Wl L l.OOOE+OOO l.OOOE+OOO 2049 FR4W1V L l.OOOE+OOO 1. OOOE+OOO 2050 FR4W2 L l.OOOE+OOO l.OOOE+OOO 2051 FR4W2V L l.OOOE+OOO l.OOOE+OOO 2052 FR4W3 L l.OOOE+OOO l.OOOE+OOO 2053 FR4W3V L l.OOOE+OOO 1.000E+OOO 2054 FR4W4 L 1.000E+OOO l.OOOE+OOO 2055 FR4W4V L 1.000E+OOO l.OOOE+OOO 2056 FR5D6 L 1.000E+OOO l.OOOE+OOO 2057 FR5R10 L 1.000E+OOO 1. OOOE+OOO 2058 FR5R6 L l.OOOE+OOO l.OOOE+OOO 2059. FR5R6-9 L 1.000E+OOO l.OOOE+OOO 2060 FR5Wl L l.OOOE+OOO l.OOOE+OOO 2061 FR5WlV L l.OOOE+OOO l.OOOE+OOO 2062 FR5W2 L l.OOOE+OOO l.OOOE+OOO 2063 FR5W2V L l.OOOE+OOO l.OOOE+OOO 2064 FR5W3 L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 43 N-43

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 2065 FR5W3V L 1.000E+OOO 1.000E+OOO 2066 FR5W4 L 1.000E+OOO 1.000E+OOO 2067 FR5W4V L 1.000E+OOO 1.000E+OOO 2068 FRAC-POSlO u 5.000E-001 1.000E+OOO 2069 FRAD6 L 1.000E+OOO 1.000E+OOO 2070 FRAD6-6 L 1.000E+OOO 1.000E+OOO 2071 FRARlO L 1.000E+OOO 1.000E+OOO 2072 FRAR6 L 1.000E+OOO 1.000E+OOO 2073 FRAR6-13 L l.OOOE+OOO 1.000E+OOO 2074 FRAR6-16 L 1.000E+OOO 1.000E+OOO 2075 FRAR6-9 L 1.000E+OOO 1.000E+OOO 2076 FRBD6 L 1.000E+OOO 1.000E+OOO 2077 FRBD6-6 L l.OOOE+OOO 1.000E+OOO 2078. FRBRlO L 1.000E+OOO 1.000E+OOO 2079 FRBR6 L 1.000E+OOO 1.000E+OOO 2080 FRBR6-13 L 3.300E-003 1.000E+OOO 2081 FRBR6-16 L 1.000E+OOO 1.000E+OOO 2082 FRBR6-9 L 1.000E+OOO 1.000E+OOO 2083 FREQ-4K L 1.000E+OOO 1.000E+OOO 2084 FREQ-4KV L 2.llOE-005 2.340E+OOO 2085 FREQ-Bl L 1.514E-008 3.230E+OOO 2086 FREQ-B2 L 3. 872E-009 3.230E+OOO 2087 FREQ-Ll L 6.150E-006 3.230E+OOO 2088 FREQ-L2 L 7.290E-007 3.230E+OOO 2089 FREQ-L3 L 3.075E-008 3.230E+OOO 2090 FREQ-LOSP-LPSD L 6.960E-006 3.230E+OOO 2091 FREQ-RHR2B L 1.220E-005 3.290E+OOO 2092 FREQ-RHR3 L 4 .170E-,006 3.680E+OOO 2093 FREQ-RHR4 L 5.325E-006 3.760E+OOO 2094 FREQ-RHRS L 2.lOOE-005 2.200E+OOO 2095 FREQ-SBO-Ul L 1.000E+OOO 1.000E+OOO 2096 FREQ-SB0-U1U2 L 1. OOOE+OOO 1.000E+OOO 2097 FREQ-SR L 1.810E-008 3.000E+OOO 2098 FREQ-VB L 1.870E-006 3.870E+OOO 2099 FSW12H L 1.000E+OOO 1.000E+OOO 2100 FSW12L L 1.000E+OOO 1.000E+OOO 2101 FSW34H L 1.000E+OOO 1.000E+OOO 2102 FSW34L L 1.000E+OOO 1.000E+OOO 2103 FVBWl L l.OOOE+OOO 1.000E+OOO 2104 FVBWl-14 L 1.000E+OOO 1.000E+OOO 2105 FVBWl-5 L 1.000E+OOO 1.000E+OOO 2106 FVBWlVlO L 1.000E+OOO 1.000E+OOO 2107 FVBW1V19 L 1.000E+OOO 1.000E+OOO 2108 FVBW2 L 1.000E+OOO 1.000E+OOO 2109 FVBW2-14 L 1.000E+OOO 1.000E+OOO 2110 FVBW2-5 L 1.000E+OOO 1.000E+OOO 2111 FVBW2V10 L 1.000E+OOO 1.000E+OOO 2112 FVBW2V19 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 44 N-44

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2113 FVBW3 I L 1.000E+OOO 1.000E+OOO 2114 FVBW3-10 L 1.000E+OOO 1.000E+OOO 2115 FVBW3-4 L 1. OOOE+OOO 1.000E+OOO 2116 FVBW3V13 L 1.000E+OOO 1.000E+OOO 2117 FVBW3V7 L 1.000E+OOO 1. OOOE+OOO 2118 FVBW4 L 1.000E+OOO 1.000E+OOO 2119 FVBW4-10 L 1.000E+OOO 1.000E+OOO 2120 FVBW4-4 L 1.000E+OOO 1.000E+OOO 2121 FVBW4V13 L 1.000E+OOO 1.000E+OOO 2122 FVBW4V7 L 1.000E+OOO 1.000E+OOO 2123 G4KW1 L 1.000E+OOci 1.000E+OOO 2124 G4KW1-15 L l.OOOE+OOO 1. OOOE+OOO 2125 G4KW1-6 L 1. OOOE+OOO l.OOOE+OOO 2126 G4KW2 L l.OOOE+OOO 1. OOOE+OOO 2127 G4KW2-15 L 1.000E+OOO 1. OOOE+OOO 2128 G4KW2-6 L 1.000E+OOO l.OOOE+OOO 2129 G4KW3 L 1.000E+OOO 1.000E+OOO 2130 G4KW3-11 L 1.000E+OOO 1. OOOE+OOO 2131 G4KW3-5 L 1. OOOE+OOO 1. OOOE+OOO 2132 G4KW4 L l.OOOE+OOO l.OOOE+OOO 2133 G4KW4-11 L 1. OOOE+OOO l.OOOE+OOO 2134 G4KW4-5 L 1.000E+OOO 1.000E+OOO 2135 GB1R10 L 1.000E+OOO 1. OOOE+OOO 2136 GB1R6 t.. l.OOOE+OOO 1. OOOE+OOO 2137 GB1R6R L l.OOOE+OOO 1. OOOE+OOO 2138 GB1Wl L l.OOOE+OOO 1.000E+OOO  ! 2139 GB1W2 L l.OOOE+OOO l.OOOE+OOO I 2140 GB1W3 L l.OOOE+OOO 1.000E+OOO 2141 GB1W4 L 1. OOOE+OOO 1.000E+OOO I 2142 GB2W1 L 1.000E+OOO 1.000E+OOO 2143 GB2W2 L 1.000E+OOO 1. OOOE+OOO 2144 GB2W3 L 1.000E+OOO 1.000E+OOO 2145 GB2W4 L 1.000E+OOO 1.000E+OOO 2146 GCW1813 L 1. OOOE+OOO 1.000E+OOO 2147 GLlRlO L 1.000E+OOO 1.000E+OOO 2148 GL1R10A L 1.000E+OOO 1. OOOE+OOO 2149 GL1R6 L 1.000E+OOO 1.000E+OOO 2150 GL1R6A L 1. OOOE+OOO 1.000E+OOO 2151 GL1R6R L 1.000E+OOO 1.000E+OOO 2152 GL1R6RA L 1. OOOE+OOO 1. OOOE+OOO 2153 GL1W1 L 1.000E+OOO 1.000E+OOO 2154 GLlWl-10 L 1.000E+OOO 1. OOOE+OOO 2155 GL1W1-6 L 1. OOOE+OOO 1. OOOE+OOO 2156 GL1W1R L 1.000E+OOO 1.000E+OOO 2157 GL1W2 L 1.000E+OOO 1.000E+OOO 2158 GL1W2-10 L 1. OOOE+OOO 1. OOOE+OOO 2159 GL1W2-6 L 1.000E+OOO 1.000E+OOO 2160 GL1W3 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 45 N-45

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary*Name Type Probability Value Class 2161 GL1W3-5 L l.OOOE+OOO 1. OOOE+OOO 2162 GL1W3-8 L l.OOOE+OOO 1. OOOE+OOO 2163 GL1W4 L l.OOOE+OOO l.OOOE+OOO 2164 GL1W4-5 L l.OOOE+OOO l.OOOE+OOO 2165 GL1W4-8 L l.OOOE+OOO 1. OOOE+OOO 2166 GL2Rl0 L l.OOOE+OOO l.OOOE+OOO 2167 GL2RlOA L 1. OOOE+OOO l.OOOE+OOO 2168 GL2R6 L l.OOOE+OOO l.OOOE+OOO 2169 GL2R6A L 1.000E+0-00 1.000E+OOO 2170 GL2R6R L 1. OOOE+OOO 1. OOOE+OOO 2171 GL2R6RA L 1. OOOE+OOO 1.000E+OOO 2172 GL2Wl L 1. OOOE+OOO 1.000E+OOO 2173 GL2Wl-10 L 1.000E+OOO 1.000E+OOO 2174 GL2Wl-6 L 1. OOOE+OOO 1.000E+OOO 2175 GL2W1R L l.OOOE+OOO 1.000E+OOO 2176 GL2W2 L l.OOOE+OOO l.OOOE+OOO 2177 GL2W2-10 L l.OOOE+OOO l.OOOE+OOO 2178 GL2W2-6 L 1. OOOE+OOO 1. OOOE+OOO . 2179 GL2W3 L 1. OOOE+OOO 1. OOOE+OOO 2180 GL2W3-5 L 1.000E+OOO 1. OOOE+OOO 2181 GL2W3-8 L 1. OOOE+OOO 1.000E+OOO 2182 GL2W4 L 1. OOOE+OOO l.OOOE+OOO 2183 GL2W4-5 L l.OOOE+OOO 1.000E+OOO 2184 GL2W4-8 L 1.000E+OOO l.OOOE+OOO 2185 GL3R10 L 1.000E+OOO l.OOOE+OOO 2186 GL3R6 L l.OOOE+OOO l.OOOE+OOO 2187 GL3R6R L l.OOOE+OOO 1.000E+OOO 2188 GL3Wl L l.OOOE+OOO l.OOOE+OOO 2189 GL3Wl-10 L l.OOOE+OOO l.OOOE+OOO 2190 GL3Wl-6 L l.OOOE+OOO l.OOOE+OOO 2191 GL3WlR L l.OOOE+OOO l.OOOE+OOO 2192 GL3W2 L l.OOOE+OOO 1. OOOE+OOO 2193 GL3W2-10 L 1.000E+OOO 1.000E+OOO 2194 GL3W2-6 L 1.000E+OOO 1. OOOE+OOO 2195 GL3W3 L l.OOOE+OOO l.OOOE+OOO 2196 GL3W3-5 L l.OOOE+OOO l.OOOE+OOO 2197 GL3W3-8 L l.OOOE+OOO 1.000E+OOO 2198 GL3W4 L 1. OOOE+OOO 1. OOOE+0.00 2199 GL3W4-5 L 1. OOOE+OOO_ 1.000E+OOO 2200 GL3W4-8 L l.OOOE+OOO 1. OOOE+OOO 2201 GR3R10 L l.OOOE+OOO l.OOOE+OOO 2202 GR3R6 L l.OOOE+OOO 1:ooOE+OOO 2203 GR3R6R L l.OOOE+OOO l.OOOE+OOO 2204 GR3Wl L l.OOOE+OOO 1. OOOE+OOO 2205 GR3W2 L l.OOOE+OOO l.OOOE+OOO 2206 GR3W3 L l.OOOE+OOO l.OOOE+OOO 2207 GR3W4 L l.OOOE+OOO l.OOOE+OOO 2208 GR4Rl0 L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 46 N-46

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2209 GR4R6 L 1.000E+OOO 1. OOOE+OOO 2210 GR4R6R L 1.000E+OOO 1. OOOE+OOO 2211 GR4Wl L 1. OOOE+OOO 1. OOOE+OOO 2212

  • GR4W2 L 1.000E+OOO 1.000E+OOO 2213 GR4W3 L 1.000E+OOO 1.000E+OOO 2214 GR4W4 L 1.000E+OOO 1. OOOE+OOO 2215 GR5Rl0 L 1.000E+OOO 1.000E+OOO 2216 GR5R6 L 1. OOOE+OOO 1.000E+OOO 2217 GR5R6R L 1. OOOE+OOO 1. OOOE+OOO 2218 GR5Wl L 1.000E+OOO 1.000E+OOO 2219 GR5W2 L 1.000E+OOO 1.000E+OOO 2220 GR5W3 L 1.000E+OOO 1.000E+OOO 2221 GR5W4 L 1. OOOE+OOO 1.000E+OOO 2222 GRARlO L 1.000E+OOO 1.000E+OOO 2223 GRAR1010 L 1.000E+OOO 1.000E+OOO 2224 GRAR6 L 1.000E+OOO 1.000E+OOO 2225 GRAR6-13 L 1.000E+OOO 1.000E+OOO 2226 GRAR6R L 1.000E+OOO 1. OOOE+OOO 2227 GRBRlO L 1.000E+OOO 1. OOOE+OOO 2228 GRBR1010 L 1. OOOE+OOO 1.000E+OOO 2229 GRBR6 L 1.000E+OOO 1.000E+OOO 2230 GRBR6-13 L 1. OOOE+OOO 1. OOOE+OOO 2231 GRBR6R L 1.000E+OOO l.'OOOE+OOO 2232 GSRWl L 1.000E+OOO 1. OOOE+OOO 2233 GSRW2 L 1. OOOE+OOO 1. OOOE+OOO 2234 GSRW3 L 1. OOOE+OOO 1.000E+OOO 2235 GSRW4 L 1.000E+OOO 1. OOOE+OOO 2236 GTBA113 L 1. OOOE+OOO 1. OOOE+OOO 2237 GTBA213 L 1. OOOE+OOO 1.000E+OOO 2238 GTBA313 L 1.000E+OOO 1.000E+OOO 2239 GTBA413 L 1. OOOE+OOO 1.000E+OOO 2240 GTBA613 L 1.000E+OOO 1.000E+OOO 2241 GTBA663 L 1.000E+OOO 1. OOOE+OOO 2242 GTBA713 L 1.000E+OOO 1.000E+OOO 2243 GVBWl L 1.000E+OOO 1.000E+OOO 2244 . GVBWl-15 L 1. OOOE+OOO 1.000E+OOO 2245 GVBWl-6 L 1.000E+OOO 1.000E+OOO 2246 GVBW2 L 1.000E+OOO 1. OOOE+OOO 2247 GVBW2-15 L 1.000E+OOO 1.000E+OOO 2248 * .GVBW2-6 L 1. OOOE+OOO 1.000E+OOO 2249 GVBW3 L 1. OOOE+OOO 1.000E+OOO 2250 GVBW3-11 L 1.000E+OOO 1.000E+OOO 2251 GVBW3-5 L 1.000E+OOO 1.000E+OOO 2252 GVBW4 L 1.000E+OOO 1. OOOE+OOO 2253 GVBW4-11 L 1.000E+OOO 1.000E+OOO 2254 GVBW4-5 L 1.000E+OOO 1.000E+OOO 2255 GVS11013 L 1.000E+OOO 1. OOOE+OOO 2256 GVS11113 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 47 N-47

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2257 GVS1213 L l.OOOE+OOO l.OOOE+OOO 2258 GVS1313 L l.OOOE+OOO 1.000E+OOO 2259 GVS1613 L l.OOOE+OOO l.OOOE+OOO 2260 GVS1713 L 1.000E+OOO l.OOOE+OOO 2261 GVS1763 L l.OOOE+OOO l.OOOE+OOO 2262 GVS1813 L 1.000E+OOO l.OOOE+OOO 2263 GVS1913 L 1. OOOE+OOO l.OOOE+OOO 2264 GVS3113 L l.OOOE+OOO l.OOOE+OOO

  • 2265 GVS3213 L l.OOOE+OOO l.OOOE+OOO 2266 GVS3313 L l.OOOE+OOO l.OOOE+OOO 2267 H-4KV-REC-Wl L 1. 800E-002 3.000E+OOO 2268 H-4KV-REC-W2 L 1. 300E-002 3.000E+OOO 2269 H-4KV-REC-W3 L 9.000E-003 3.000E+OOO 2270 H-4KV-REC-W4 L 8.000E-003 3.000E+OOO 2271 H-CCW-REC-Wl u 8.000E-001 1. OOOE+OOO 2272 H-CCW-REC-W2 u 4.SOOE-001 9.000E-001 2273 H-CCW-REC-W3 u 2.SOOE-001 5.000E-001 2274 H-CCW-REC-W4 u l.SOOE-001 3.000E-001 2275 H-SI-REC-Wl u 3.500E-001 7.000E-001 2276 H"-SI-REC-W2 u 2.200E-001 4.400E-001 2277 H-SI-REC-W3 u 1.600E-001 3.2008-001 2278 H-SI-REC-W4 u 1. 3008-001 2.6008-001 2279 H-VB-REC-Wl u 3.000E-001 6.000E-001 2280 H-VB-REC-W2 u 2.000E-001 4.000E-001 2281 H-VB-REC-W3 u l.SOOE-001 3.000E-001 2282 H-VB-REC-W4 u l.200E-001 2.400E-001 2283 . Hl L 1.000E+OOO l.OOOE+OOO
  • 2284 H2 L 1.000E+OOO l.OOOE+OOO 2285 H4KW1 L l.OOOE+OOO l.OOOE+OOO 2286 H4KW2 L 1. OOOE+OOO l.OOOE+OOO 2287 H4KW3 L 1.000E+OOO l.OOOE+OOO 2288 H4KW4 L 1.000E+OOO 1. OOOE;+OOO.

2289 HAS L 1. OOOE+OOO 1. OOOE+OOO 2290 HASHLG L 1. OOOE+OOO 1.000E+OOO 2291 HOUSE-AIR L 1.000E+OOO 1.000E+OOO 2292 HOUSE-ALOCA L +O.OOOE+OOO l.OOOE+OOO 2293 HOUSE-Bl L +O.OOOE+OOO l.OOOE+OOO 2294 HOUSE-B2 L +O.OOOE+OOO 1.000E+OOO 2295 HOUSE-L2 L +O.OOOE+OOO l.OOOE+OOO 2296 HOUSE-L3 L +O.OOOE+OOO 1.000E+OOO 2297 HOUSE-LOSP L +O.OOOE+OOO 1.000E+OOO 2298 HOUSE-NOT-POS313 L +O.OOOE+OOO 1.000E+OOO 2299 HOUSE-NOT-POS412 L +O.OOOE+OOO 1.000E+OOO 2300 HOUSE-POS3l3 L 1.000E+OOO 1.000E+OOO 2301 HOUSE-POS4i2 L 1.000E+OOO 1.000E+OOO 2302 HOUSE-RHR5A L +O.OOOE+OOO 1.000E+OOO 2303 HOUSE-SBO L +O.OOOE+OOO 1.000E+OOO 2304 HOUSE-SB01 L +O.OOOE+OOO 1.000E+OOO 1993/09/28 11:48:16 page 48 N-48

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2305 HOUSE-SB02 L +O.OOOE+OOO 1.000E+OOO 2306 HOUSE-STBUSA L +O.OOOE+OOO 1.000E+OOO 2307 HPI-CCF-FS-CH1BC L 8.400E-004 5.000E+OOO 14 2308 HPI-CCF-FT-115BD L 2.600E-004 1.300E+001 15 2309 HPI-CCF-FT-867CD L 2.600E-004 1.300E+001 15 2310 HPI-CCF-FT-869AB L 2.600E-004 l.300E+001 15 2311 HPI-CKV-FT-CV225 L 1.000E-004 3.000E+OOO 31 2312 HPI-CKV-FT-CV25 L 1.000E-004 3.000E+OOO 31 2313 HPI-CKV-FT-CV267 L l.OOOE-004 3.000E+OOO 31 2314 HPI-CKV-FT-i~V276 L l.OOOE-004 3.000E+OOO 31 2315 HPI-CKV-FT..:cv410 L l.OOOE-004 3.000E+OOO 31 2316 HPI-CKV-00-267U2 L 1. OOOE-003 3.000E+OOO 33 2317 HPI-CKV-00-276U2 L 1.000E-003 3.000E+OOO 33 2318 HPI-CKV-00-CV258 L 1.000E-003 3.000E+OOO 33 2319 HPI-MDP-FR-1A6HR L 3.780E-004 2.900E+OOO 52 2320 HPI-MDP-FR-1B6HR L 3.780E-004 2.900E+OOO 52 2321 HPI-MDP-FR-1C12H L 7.560E-004 2.900E+OOO 51 2322 HPI-MDP-FR-1C6HR L 3.780E-004 2.900E+OOO 52 2323 HPI-MDP-FR-2C6HR L 3.780E-004 2.900E+OOO 52 2324 HPI-MDP-FS-CH1B L 4.000E-003 3.500E+OOO 63 2325 HPI-MDP-FS-CHlC L 4.000E-003 3;500E+OOO 63 2326 HPI-MDP-FS-CH2C L 4;000E-003 3.500E+OOO 63 2327 HPI-MDP-MA-CHlA L +O.OOOE+OOO 3.000E+OOO 2328 HPI-MDP-MA-CH1B L 1.000E+OOO 1.000E+OOl 66 2329 HPI-MDP-MA-CHlC L 1.000E+OOO 1.000E+OOl 66 2330 HPI-MDP-MAOCHlA L +O.OOOE+OOO 3.000E+OOO 2331 HPI-MDP-MAOCH1B L 1.000E+OOO 1.000E+001 66 2332 HPI-MDP-MAOCHlC L 1. OOOE+OOO 1. OOOE+OOO 66 2333 HPI-MOD-FT-101B L 1.090E-002 3.000E+OOO IPE5 2334 HPI-M0D-FT-101C L l.090E-002 3.000E+OOO IPE5 2335 HPI-MOV-FT-1115B L 3.000E-003 1. OOOE+001 69 2336 HPI-MOV-FT-1115C L 3.000E-003 1.000E+001 69 2337 HPI-MOV-FT-1115D L 3.000E-003 1.000E+OOl 69 2338 HPI-MOV-FT*-1115E L 3.000E-003 1.000E+001 69 2339 HPI-MOV-FT-1350 L 3.000E-003 1. OOOE+001 69 2340 HPI-MOV-FT-1867C L 3.000E-003 1.000E+001 69 2341 HPI-MOV-FT-1867D L 3.000E-003 1.000E+001 69 2342 HPI-MOV-FT-1869A L 3.000E-003 1. OOOE+001 69 2343 HPI-MOV-FT-1869B L 3.000E-003 1.000E+001 69 2344 HPI-MOV-PG-1115B L 4.000E-005 3.000E+OOO 74 2345 HPI-MOV-PG-1115D L 4. OOOE-005. 3.000E+OOO 74 2346 HPI-MOV-PG-1269A L 4.000E-005 3.000E+OOO 74 2347 HPI-MOV-PG-1270A L 4.000E-005 3.000E+OOO 74 2348 HPI-MOV-PG-1286B L 4.000E-005 3.000E+OOO 74 2349 HPI-MOV-PG-1286C L 4.000E-005 3.000E+OOO 74 2350 HPI-MOV-PG-1350 L 4.000E-005 3.000E+OOO 74 2351 HPI-MOV-PG-1867C L 4.000E-005 3.000E+OOO 74 2352 HPI-MOV-PG-1867D L 4.000E-005 3.000E+OOO 74 1993/09/28 11:48:16 page 49 N-49

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2353 HPI-MOV-PG-1869A L 4.000E-005 3.000E+OOO 74 2354 HPI-MOV-PG-1869B L 4.000E-005 3.000E+OOO 74 2355 HPI-XHE-FO-PLLCK L 2.700E-006 l.OOOE+OOO 2356 HPI-XHE-FO-COLD H +O.OOOE+OOO 1. 300E+001 2357 HPI-XHE-FO-FBHLG H +O.OOOE+OOO l.300E+001 2358 HPI-XHE-FO-FDBLD H +O.OOOE+OOO l.300E+001 2359 HPI-XHE-FO-HOTLG H +O.OOOE+OOO l.300E+001 2360 HPI-XHE-FO-PLLCK L 2.700E-006 l.OOOE+OOl 95 2361 HPI-XVM-PG-XV24 L 4.000E-005 l.OOOE+OOl 134 2362 HPI21 L l.OOOE+OOO l.OOOE+OOO 2363 HPI4 L l.OOOE+OOO l.OOOE+OOO 2364 HPI4A L l.OOOE+OOO 1.oooE\+000 2365 HPI6 L l.OOOE+OOO l.OOOE+OOO 2366 HPI6A L l.OOOE+OOO l.OOOE+OOO 2367 HPI7 L l.OOOE+OOO l.OOOE+OOO 2368 HPI700 L l.OOOE+OOO l.OOOE+OOO 2369 HPI8 L l.OOOE+OOO l.OOOE+OOO 2370 HPI800 L l.OOOE+OOO l.OOOE+OOO 2371 HPI9 L l.OOOE+OOO l.OOOE+OOO 2372 HPI9A L l.OOOE+OOO l.OOOE+OOO 2373 HPR-MDP-FR-1C12H L 8.000E-004 l.OOOE+OOO 2374 HPR-MDP-FR-A18HR L l.224E-003 2.900E+OOO so 237.5 HPR-MDP-FR-B18HR L l.224E-003 2.900E+OOO so 2376 HPR12 L l.OOOE+OOO 1. OOOE+OOO 2377 HPR13 L l.OOOE+OOO l.OOOE+OOO 2378 HPR14 L l.OOOE+OOO l.OOOE+OOO 2379 HPRlS L l.OOOE+OOO l.OOOE+OOO 2380 HPR8 L l.OOOE+OOO l.OOOE+OOO 2381 HVBWl L l.OOOE+OOO l.OOOE+OOO 2382 HVBW2 L l.OOOE+OOO l.OOOE+OOO 2383 HVBW3 L l.OOOE+OOO l.OOOE+OOO 2384 HVBW4 L l.OOOE+OOO l.OOOE+OOO 2385 Il3BW3D6 L l.OOOE+OOO l.OOOE+OOO 23~6 I4KD6* L l.OOOE+OOO l.OOOE+OOO 2387 I4KR10* L l.OOOE+OOO l.OOOE+OOO 2388 I4KR6* L l.OOOE+OOO l.OOOE+OOO 2389 I4KW1 L l.OOOE+OOO l.OOOE+OOO 2390 I4KW2 L l.OOOE+OOO l.OOOE+OOO 2391 I4KW3 L l.OOOE+OOO l.OOOE+OOO 2392 I4KW4 L l.OOOE+OOO l.OOOE+OOO 2393 IAS-AOV-FT-TV126 L l.OOOE-003 3.000E+OOO 5 2394 IAS-AOV-LK-CC107 L 2.400E-005 3.000E+OOO 6 2395 IAS-AOV-OC-CC107 L 7.SOOE-007 3.000E+OOO 7 2396 IAS-AOV-PG-CC107 L 4.000E-005 3.000E+OOO 9 2397 IAS-AOV-PG-TV125 L 4.000E-005 3.000E+OOO 9 2398 IAS-CCF-LF-INAIR L 2.700E-005 l.OOOE+OOl 26 2399 IAS-CPS-FR-IAC-1 L 4.BOOE-003 l.OOOE+OOl 202 2400 IAS-CPS-FS-IAC-1 L 8.000E-002 3.000E+OOO 203 1993/09/28 11:48:16 page so N-50

  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 2401 IAS-DYR-1..F-IADl L

7.200E-004 1.000~+001 2402 IB1D6* L 1.000E+OOO l.OOOE+OOO 2403 IB1Rl0* L 1.000E+OOO l.OOOE+OOO 2404 IB1R6* L 1.000E+OOO l.OOOE+OOO 2405 IBlWl L 1.000E+OOO l.OOOE+OOO 2406 IB1W2 L 1.000E+OOO l.OOOE+OOO 2407 IB1W3 L 1.000E+OOO l.OOOE+OOO 2408 IB1W4 L l.OOOE+OOO 1. O_OOE+OOO 2409 IB2Wl L 1. OOOE+OOO 1.000E+OOO 2410 IB2W2 L 1.*oooE+OOO 1.000E+OOO 2411 IB2W3 L l.OOOE+OOO 1.000E+OOO 2412 IB2W4 L 1.000E+OOO 1.000E+OOO 2413 IB5D6 L 1.000E+OOO 1.000E+OOO 2414 ICT1W1D6 H 7.210E-007 1.780E+002 2415 ICT1W1R6 H 4.930E-008 l.740E+002 2416 ICT1W2D6 H 2.690E-006 l.790E+002 2417 ICT1W2R6 H 1.570E-006 l.750E+002 2418 ICT1W3D6 H 2.310E-006 1.800E+002 2419 ICT1W3R10 H 4.300E-008 1.820E+002 2420 ICT1W3R6 H 1.190E-006 1.760E+002 2421 ICT1W4D6 H 4.440E-007 1.810E+002 2422 ICT1W4R10 H 2.650E-006 1.830E+002 2423 ICT1W4R6 H 9.860E-008 l.770E+002 2,4124 ICT2W1D6 H 1. 790E-005 1. 880E+002 2425 ICT2W1R6 H 1. 230E-006 1.840E+002 2426 ICT2W2D6 H 6.670E-005 1.890E+002 2427 ICT2W2R6 H . 3. 920E-005 1.850E+002 2428 ICT2W3D6 H 5.740E-005 1.900E+002 2429 ICT2W3Rl0 H 1.070E-006 1. 920E+002 2430 ICT2W3R6 H 2.960E-005 1. 860E+002 2431 ICT2W4D6 H 1.llOE-005 1.910E+002 2432 ICT2W4R10 H 6.590E-005 1.930E+002 2433 ICT2W4R6 H 2.450E-006 1.870E+002 2434 ICV1W1D6 H 4.980E-007 1. 680E+002 2435 ICV1W1R6 H 3.400E-008 1. 640E+002 2436 ICV1W2D6 H 1.860E-006 1.690E+002 2437 ICV1W2R6 H 1.090E-006 1. 650E+002 2438 ICV1W3D6 H 1. 600E-006 l.700E+002 2439 ICV1W3R10 H 2.980E-008 1.720E+002 2440 ICV1W3R6 H 8.200E-007 1.660E+002 2441 ICV1W4D6 H 3.070E-007 1.710E+002 2442 ICV1W4R10 H 1.830E-006 1. 730E+002 

 -2443     ICV1W4R6                  H           6.800E-008     1. 670E+002 2444     IE-A                      L           5.000E-004     1.000E+OOl        137 2445     IE-Sl                     L           1.000E-003     1.000E+OOl        138 2446     IE-S2                     L           1. OOOE-003    1.000E+OOl        139 2447     IE-S3                     L           1.300E-002     1.000E+OOl        140 2448     IE-T                      L           6.600E+OOO     3.000E+OOO        141 1993/09/28                      11:48:16                            page     51 N-51

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2449 IE-Tl H 7.700E-002 4.SOOE+OOl 2450 IE-T2 L 9.400E-001 3.000E+OOO 144 2451 IE-T5A L 5.000E-003 1.000E+OOl 2452 IE-T5B L 5.000E-003 1.000E+OOl 2453 IE-T7 L 1.000E-002 5.000E+OOO 146 2454 IE-TN L 5.900E+OOO 3.000E+OOO 142 2455 IE-V L 1.000E+OOO 1.000E+OOO 2456 IE10W1D6 H 4.580E-008 1. 080E+002 2457 IE10W1R6 H 2.860E-008 1.040E+002 2458 IE10W2D6 H 1.700E-007 1. 090E+002 2459 IE10W2R6 H 1.000E-007 1. 050E+002 2460 IE10W3D6 H 1. 470E-007 1.100E+002 2461 'IE10W3R10 H 2.720E-009 1.120E+002 2462 IE10W3R6 H 7.560E-008 1. 060E+002 2463 IE10W4D6 H 2.820E-008 l.110E+002 2464 IE10W4R10 H 1.680E-007 1.130E+002 2465 IE10W4R6 H 6.300E-009 1.070E+002 2466 IE11W1D6 H 4.520E-007 1.180E+002 2467 IE11W1R6 H 3.090E-008 1.140E+002 2468 IE11W2D6 H 1. 680E-006 1.190E+002 2469 IE11W2R6 H 9.880E-007 1.150E+002 2470 IE11W3D6 H 1.450E-006 1.200E+002 2471 IE11W3R10 H 2.700E-008 1.220E+002 2472 IE11W3R6 H 7.460E-007 1.160E+002 2473 IE11W4D6 H 2.780E-007 1.210E+002

  • 2474 IE11W4R10 H 1. 660E-006 1. 230E+002 .

2475 IE11W4R6 H 6.190E-008 1.170E+002 2476 IE12W1D6 H 7.210E-006 1. 280E+002 2477 IE12W1R6 H 4.930E-007 1.240E+002 2478 .IE12W2D6 H 2.690E-005 1.290E+002 2479 IE12W2R6 H 1.570E*005 1. 250E+002 2480 IE12W3D6 H 2.310E-005 1.300E+002 2481 IE12W3R10 H 4.300E-007 1.320E+002 2482 IE12W3R6 H 1.190E-005 1. 260E+002 2483 IE12W4D6 H 4.430E-006 1.310E+002 2484 IE12W4R10 H 2.650E-005 1.330E+002 2485 IE12W4R6 H 9.860E-007 1.270E+002 2486 IE13AW1D6 H 3.370E-006 1.380E+002 2487 IE13AW1R6 H 2.30QE-007 1.340E+002 2488 IE13AW2D6 H 1. 260E-005 1. 390E+002 2489

  • IE13AW2R6 H 7.330E-006 1.350E+002
  • 2.490 IE13AW3D6 H 1.080E-005 1.400E+002 2491 IE13AW3R10 H 2.020E-007 1.420E+002 2492 IE13AW3R6 H 5.540E-006 1.360E+002 2493 IE13AW4D6 H 2.070E-006 L410E+002
*2494 IE13AW4R10                .H          1.240E-005     1.430E+002 2495 IE13AW4R6                  H          4.590E-007     l*. 370E+002 2496 IE13BW1D6                  H          1.050E-006     1.480E+002 1993/09/28                     11:48:16                            page     52 N-52
  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 2497 IE13BW1R6 H 7.190E-008 l.440E+002 2498 IE13BW2D6 H 3.920E-006 l.490E+002 2499 IE13BW2R6 H 2.300E-006 l.450E+002 2500 IE13BW3D6 H 3.380E-006 1. 500E+002 2501 IE13BW3Rl0 H 6.290E-008 l.520E+002 2502 IE13BW3R6 H l.730E-006 l.460E+002 2503 IE13BW4D6 H 6.480E-007 l.510E+002 2504 IE13BW4R10 H 3.870E-006 l.530E+002 2505 IE13BW4R6 H l.440E-007 l.470E+002 2506 IE1W1D6 H l.710E-007 5.800E+001 2507 IE1WlR6 H l. l 70E-008 5.400E+001 2508 IE1W2D6 H 6.370E-007 5.900E+001 2509 IE1W2R6 H 3.720E-007 5.500E+001 2510 IE1W3D6 H 5.480E-007 6.000E+OOl 2511 IE1W3Rl0 H 1. 020E-008 6.200E+001 2512 IE1W3R6 H 2.810E-007 5.600E+001 2513 IE1W4D6 H l.050E-007 6.lOOE+OOl 2514 IE1W4Rl0 H 6.270E-007 6.300E+001 2515 IE1W4R6 H 2.330E-008 5.700E+001 2516 IE2W1D6 H 4.790E-007 6.800E+001 2517 IE2.WlR6 H 3.280E-008 6.400E+001 2518 IE2W2D6 H l.780E-006 6.900E+001 2519 IE2W2R6 H 1. 050E-006 6.500E+001 2520 IE2W3D6 H 1. 530E-006 7.000E+OOl 2521 IE2W3Rl0 H 2.860E-008 7.200E+001 2522 IE2W3R6 H 7.910E-007 6.600E+001 2523 IE2W4D6 H 2.940E-007 7.lOOE+OOl 2524 IE2W4Rl0 H. l.760E-006 7.300E+001 2525 IE2W4R6 H 6.560E-008 6.700E+001 2526 IE3W1D6 H 4.790E-007 6.800E+001 2527 IE3WlR6 H 3.280E-008 6.400E+001 2528 IE3W2D6 H l.780E-006 6.900E+001 2529 IE3W2R6 H l.050E-006 6.500E+001
 ,2530   IE3W3D6                    H        1. 530E-006     7.000E+OOl 2531   IE3W3Rl0                   H        2.860E-008      7.200E+001 2532   IE3W3R6                    H        7.910E-007      6.600E+001 2533   IE3W4D6                    H        2.940E-007      7.lOOE+OOl 2534   IE3W4Rl0                   H        l.760E-006      7.300E+001 2535   IE3W4R6                    H        6.560E-008      6. 700E+001 .

2536 IE4W1D6 H 3.680E-007 7.800E+001 2537 IE4WlR6 H 2.530E-008 7.400E+001 2538 IE4W2D6 H 1. 370E-006 7.900E+001 2539 IE4W2R6 H 8.090E-007 7.500E+001 2540 IE4W3D6 H l.180E-006 8~000E+001 2541 IE4W3Rl0 H 2.210E-008 8.200E+001 2542 IE4W3R6 H 6.llOE-007 7.600E+001 2543 IE4W4D6 H 2.270E-007 8.lOOE+OOl 2544 IE4W4Rl0 H 1.360E-006 8.300E+001 1993/09/28 11:48:16 page 53

  • N-53

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRT8ST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 2545 I84W4R6 H 5.070E-008 7.700E+001 2546 I85W1D6 H 3.6808-007 7.8008+001 2547 I85W1R6 H 2.5308-008 7.400E+001 2548 IE5W2D6 H 1. 3708-006 7.900E+001 2549 IE5W2R6 H 8.090E-007 7.500E+001 2550 IE5W3D6 H 1.180E-006 8.000E+OOl 2551 IE5W3R10 H 2.210E-008 8.200E+001 2552 IE5W3R6 H 6.1108-007 7.6008+001 2553 I85W4D6 H 2.2708-007 8.lOOE+OOl 2554 IE5W4Rl0 H 1. 360E-006 8.300E+001 2555 IE5W4R6 H 5.0708-008 7.700E+001 2556 IE6W1D6 H 3.267E-008 2.680E+002 2557 IE6WlR6 H 2.2308-009 2.6408+002 255.8 I86W2D6 H 1.2208-007 2.6908+002 2559 IE6W2R6 H 7.105E-008 2.6508+002 2560 IE6W3D6 H l.046E-007 2.700E+002 2561 IE6W3Rl0 H l.948E-009 2.720E+002 2562 IE6W3R6 H 5.367E-008 2.660E+002 2563 IE6W4D6 H 2.0lOE-008 2.710E+002 2564 IE6W4R10 H l.198E-007 2.730E+002 2565 IE6W4R6 H 4.450E-009 2.670E+002

  • 2566 IE7W1D6 H 4.822E-007 2.780E+002 2567. IE7W1R6 H 3.290E-008 2.740E+002 2568 IE7W2D6 H l.796E-006 2.790E+002 2569 IE7W2R6 H l.050E-006 2.750E+002 2570 IE7W3D6 H l.550E-006 2.800E+002 2571 IE7W3Rl0 H 2.880E-008 2.820E+002 2572 IE7W3R6 H 7.900E-007 2.760E+002 2573 IE7W4D6 H 2.960E-"007 2.810E+002 2574 IE7W4Rl0 H l.768E-006 I 2.830E+002 2575 IE7W4R6 H 6.571E-008 2.770E+002 2576 IE8W1D6 H 2.llOE-008 8.8008+001 2577 I88W1R6 H l.440E-009 8.400E+001 2578 IE8W2D6 H 7.850E-008 8.900E+001 2579 IE8W2R6 H 4.590E-008 8.500E+001 2580 IE8W3D6 H 6.750E-008 9.000E+OOl 2581 IE8W3R10 H l.250E-009 9.200E+001 2582 IE8W3R6 H 3.460E-008 8.600E+001 2583 IE8W4D6 H 1.300E-008 9.lOOE+OOl 2584 I88W4Rl0 H 7.710E-008 9.300E+001 2585 IE8W4R6 H 2.8708-009 8.7008+001 2586 IE9W1D6 H 1.700E-008 9.800E+001 2587 I89W1R6 H l.160E-009 9.400E+001 2588 IE9W2D6 H 6.320E-008 9.900E+001 2589 IE9W2R6 H 3.710E-008 9.500E+001 2590 IE9W3D6 H 5.440E-008 l.OOOE+002 2591 IE9W3R10 H 1. OlOE-009 l.020E+002 2592 IE9W3R6 H 2.800E-008 9.600E+001 1993/09/28 11:48:16 page 54 N-54

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2593 IE9W4D6 H

1. 040E-008 1.010E+002 2594 IE9W4R10 H 6.230E-008 1.030E+002 2595 IE9W4R6 H 2.320E-009 9.700E+001 2596 IL1D6* L l.OOOE+OOO 1. OOOE+OOO 2597 ILlRlO* L 1.000E+OOO 1. OOOE+OOO 2598 IL1R6* L 1. OOOE+OOO 1.000E+OOO 2599 ILlWl L 1.000E+OOO 1.000E+OOO 2600 IL1W2 L l.OOOE+OOO 1.000E+OOO 2601 IL1W3 L 1.000E+OOO 1.000E+OOO 2602 IL1W4 L 1. OOOE+OOO 1.000E+OOO 2603 IL2D6* L l.OOOE+OOO 1.000E+OOO 2604 IL2Rl0* L 1. OOOE+OOO 1.000E+OOO 2605 IL2R6* L 1.000E+OOO 1.000E+OOO 2606 IL2Wl L l.OOOE+OOO 1.000E+OOO 2607 IL2W2 L 1.000E+OOO 1.000E+OOO 2608 IL2W3 L l.OOOE+OOO l.OOOE+OOO 2609 IL2W4 L l.OOOE+OOO 1. OOOE+OOO 2610 IL3D6 L 1. OOOE+OOO l.OOOE+OOO 2611 IL3Rl0 L l.OOOE+OOO 1. OOOE+OOO 2612 IL3R6 L l.OOOE+OOO l.OOOE+OOO 2613 IL3Wl L l.OOOE+OOO l.OOOE+OOO 2614 IL3W2 L l.OOOE+OOO l.OOOE+OOO 2615 IL3W3 L 1. OOOE+OOO l.OOOE+OOO 2616 IL3W4 L l.OOOE+OOO 1. OOOE+OOO 2617 IM12W1D6 L l.OOOE+OOO 1.000E+OOO 2618 IM12WlR6 L 1. OOOE+OOO 1. OOOE+OOO 2619 IM12W2D6 L l.OOOE+OOO 1. OOOE+OOO 2620 IM12W2R6 L l.OOOE+OOO 1.000E+OOO 2621 IM12W3D6 L 1.000E+OOO 1.000E+OOO 2622 IM12W3R10 L l.OOOE+OOO 1. OOOE+OOO 2623 IM12W3R6 L l.OOOE+OOO 1. OOOE+OOO 2624 IM12W4D6 L l.OOOE+OOO 1.000E+OOO 2625 IM12W4Rl0 L *1. OOOE+OOO 1. OOOE+OOO 2626 IM12W4R6 L 1. OOOE+OOO l.OOOE+OOO 2627 IM13W1D6- H 3.040E-009 2.380E+002 2628 IM13WlR6 H 2.070E-010 2.340E+002 2629 IM13W2D6 H 1.130E-008 2.390E+002 2630 IM13W2R6 H 6.620E-009 2.350E+002 2631 IM13W3D6 H 9.750E-009 2.400E+002 2632 IM13W3Rl0 H l.820E-010 2.420E+002 2633 IM13W3R6 H 5.000E-009 2.360E+002 2634 IM13W4D6 H l.870E-009 2.410E+002 2635 IM13W4Rl0 H 1.120E-008 2.430E+002 2636 IM13W4R6 H 4.150E-010 2.370E+002 2637 IM1W1D6 H 8.300E-008 1.980E+002 2638 IM1WlR6 H 5.680E-009 1.940E+002 2639 IM1W2D6 H 3.lOOE-007 1.990E+002 2640 IM1W2R6 H 1.810E-007 1.950E+002 1993/09/28 11:48:16 page 55 N-55

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2641 IM1W3D6 H 2.660E-007 2.000E+002 2642 IM1W3R10 H 4.960E-009 2.020E+002 2643 IM1W3R6 H 1. 370E-007 1.960E+002 2644 IM1W4D6 H 5.llOE-008 2.010E+002 2645 IM1W4R10 H 3.050E-007 2.030E+002 2646 IM1W4R6 H 1.140E-008 1. 970E+002 2647 IM3W1D6 H 6.070E-008 2.080E+002 2648 IM3WlR6 H 4.150E-009 2.040E+002 2649 IM3W2D6 H 2.260E-007 2.090E+002 2650 IM3W2R6 H 1. 320E-007 2.050E+002 2651 IM3W3D6 H 1. 950E-007 2.100E+002 2652 IM3W3Rl0 H 3.620E-009 2.120E+002 2653 IM3W3R6 H 1. OOOE-007 2.060E+002 2654 IM3W4D6 H 3.740E-008 2.110E+002 2655 IM3W4R10 H 2. 200E-*007 2.130E+002 2656 IM3W4R6 H 8.300E-009 2.070E+002 2657 IM4W1D6 H 1. OOOE-008 2.180E+002 2658 IM4W1R6 H 6.830E-010 2.140E+002 2659 IM4W2D6 H 3.730E-008 2.190E+002 2660 . IM4W2R6 H 2.180E-008 2.150E+002 2661 IM4W3D6 H 3.210E-008 2.200E+002 2662 IM4W3Rl0 H 5.980E-010 2.220E+002 2663 IM4W3R6 H l.650E-008 2.160E+002 2664 IM4W4D6 H 6.160E-009 2.210E+002 2665 IM4W4Rl0 H 3.680E-008 2.230E+002 2666 IM4W4R6 H 1. 370E-009 2.170E+002 2667 IM5W1D6 L 1.000E+OOO 1.000E+OOO 2668 IM5W1R6 L 1.000E+OOO 1.000E+OOO 2669 IM5W2D6 L 1.000E+OOO 1. OOOE+OOO 2670 IM5W2R6 L l.OOOE+OOO 1. OOOE+OOO 2671 IM5W3D6 L 1.000E+OOO 1. OOOE+OOO 2672 IM5W3Rl0 L l.OOOE+OOO 1.000E+OOO 2673 IM5W3R6 L 1.000E+OOO l.OOOE+OOO 2674 IM5W4D6 L l.OOOE+OOO 1.000E+OOO 2675 IM5W4Rl0 L l.OOOE+OOO 1.000E+OOO 2676 IM5W4R6 L 1.000E+OOO 1. OOOE+OOO 2677 IM8W1D6 H 7.040E-009 2.280E+002 2678 IM8WlR6 H 4;180E-010 2.240E+002 2679 IM8W2D6 H 2.620E-008 2.290E+002 2680 IM8W2R6 H 1. 540E-008 2.250E+002 2681 IM8W3D6 H 2.260E-008 2.300E+002 2682 IM8W3R10 H 4.210E-010 2.320E+002 2683 IM8W3R6 H 1.160E-008 2.260E+002 2684 IM8W4D6 H 4.330E-009 2.310E+002 2685

  • IM8W4R10 H 2.590E-008 2.330E+002 2686 IM8W4R6 H 9.620E-010 2.270E+002 2687 IM9E4D6 L 1.000E+OOO 1.000E+OOO 2688 IM9W1D6 L l.OOOE+OOO 1.000E+OOO 1993/09/28 11:48:16 page 56 N-56

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2689 IM9WlR6 L l.OOOE+OOO l.OOOE+OOO 2690 IM9W2D6 L l.OOOE+OOO l.OOOE+OOO 2691 IM9W2R6 L l.OOOE+OOO l.OOOE+OOO 2692 IM9W3D6 L l.OOOE+OOO l.OOOE+OOO 2693 IM9W3Rl0 L l.OOOE+OOO l.OOOE+OOO 2694 IM9W3R6 L l.OOOE+OOO l.OOOE+OOO 2695 IM9W4Rl0 L l.OOOE+OOO l.OOOE+OOO 2696 IM9W4R6 L l.OOOE+OOO l.OOOE+OOO 2697 IMAW1D6 H l. lOOE-006. 2.480E+002 2698 IMAW1R6 H 7.500E-008 2.440E+002 2699 IMAW2D6 H 4.080E-006 2.490E+002 2700 IMAW2R6 H 2.390E-006 2.450E+002 2701 IMAW3D6 H 3.510E-006 2.500E+002 2702 IMAW3Rl0 H 6.540E-008 2.520E+002 2703 IMAW3R6 H 1. 810E-006 2.460E+002 2704 IMAW4D6 H 6.740E-007 2.510E+002 2705 IMAW4Rl0 H 4.020E-006 2.530E+002 2706 IMAW4R6 H 1. 500E-007 2.470E+002 2707 IMCW1D6 H 2.430E-008 2.580E+002 2708 IMCW1R6 H l.660E-009 2.540E+002 2709 IMCW2D6 H 9.070E-008 2.590E+002 2710 IMCW2R6 H 5.320E-008 2.550E+002 2711 IMCW3D6 H 7.800E-008 2.600E+002 2712 IMCW3Rl0 H l.450E-009 2.620E+002 2713 IMCW3R6 H 4.0lOE-008 2.560E+002 2714 IMCW4D6 H l.500E-008 2.610E+002 2715 IMCW4Rl0 H 8.940E-008 2.630E+002 2716 IMCW4R6 H 3.330E-009 2.570E+002 2717 IMDW1D6 L l.OOOE+OOO l.OOOE+OOO 2718 IMDW1R6 L l.OOOE+OOO l.OOOE+OOO 2719 IMDW2D6 L l.OOOE+OOO 1. OOOE+OOO 2720 IMDW2R6 L 1. OOOE+OOO 1. OOOE+OOO 2721 IMDW3D6 L l.OOOE+OOO l.OOOE+OOO 2722 IMDW3Rl0 L l.OOOE+OOO 1. OOOE+OOO 2723 IMDW3R6 L 1. OOOE+OOO l.OOOE+OOO 2724 IMDW4D6 L l.OOOE+OOO 1. OOOE+OOO 2725 IMDW4Rl0 L l.OOOE+OOO l.OOOE+OOO 2726 IMDW4R6 L 1. OOOE+OOO l.OOOE+OOO 2727 IMGW1D6 H 4.380E-007 2.880E+002 2728 IMGW1R6 H 2.995E-008 2.840E+002 2729 IMGW2D6 H l.631E-006 2.890E+002 2730 IMGW2R6 H 9.523E-007 2.850E+002 2731 IMGW3D6 H 1. 403E-006 2.900E+002 2732 IMGW3Rl0 H 2.611E-008 2.920E+002 2733 IMGW3R6 H 7.194E-007 2.860E+002 2734 IMGW4D6 H 2.688E-007 2.910E+002 2735 IMGW4Rl0 H 1.605E-006 2.930E+002 2736 IMGW4R6 H 5.965E-008 2.870E+002 1993/09/28 11:48:16 page 57

  • N-57

Event Number Primary, Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 2737 IMHWl.D6 H 5.61.0E-008 2.980E+002 2738 IMHWl.R6 H 3.840E-009 2.940E+002 2739 IMHW2D6 H 2.089E-007 2.990E+002 2740 IMHW2R6 H l.. 220E-007 2.950E+002 2741. IMHW3D6 H l.. 797E-007 3.000E+002 2742 IMHW3R10 H 3.346E-009 3.020E+002 2743 IMHW3R6 H 9.220E-008 2.960E+002 2744 IMHW4D6 H 3.440E-008 3.0l.OE+002 2745 IMHW4R10 H 2.057E-007 3.030E+002 2746 IMHW4R6 H 7.642E-009 2.970E+002 2747 IN1Wl.D6 H l..050E-006 l..480E+002 2748 INl.Wl.R6 H 7.190E-008 l..440E+002 2749 IN1W2D6 H 3.920E-006 1.490E+002 2750 INl.W2R6 H 2.300E-006 l.. 450E+002 . 2751. INl.W3D6 H 3.380E-006 1.500E+002 2752 INl.W3Rl.O H 6.290E-008 1.520E+002 2753 IN1W3R6 H l.730E-006 l.460E+002 2754 IN1W4D6 H 6.480E-007 l.510E+002 2755 IN1W4Rl.O H 3.870E-006 l.530E+002 2756 IN1W4R6 H 1. 440E-007 1. 470E+002 2757 IN2WlD6 H 5.l.70E-007 1.580E+002 2758 IN2WlR6 H 3.540E-008 1. 540E+002 2759 IN2W2D6 H 1. 930E-006 1. 590E+002 2760 IN2W2R6 H 1.130E-006 1. 550E+002 2761 IN2W3D6 H 1.660E-006 1. 600E+002 2762* IN2W3R10 H 3.090E-008 1. 620E+002 2763 IN2W3R6 H 8.530E-007 1. 560E+002 2764 IN2W4D6 H 3.180E-007 1. 610E+002 2765 IN2W4Rl0 . H l.900E-006 1. 630E+002 2766 IN2W4R6 H 7.070E-008 1. 570E+002 2767 IN3WlD6 H 2. llOE:-008 8.800E+001 2768 IN3WlR6* H 1. 440E-009 8.400E+OOl. 2769 IN3W2D6 H 7.850E-008 8.900E+001 2770 IN3W2R6 H 4.590E-008 8.500E+001 2771 IN3W3D6 H 6.750E-008 9.000E+OOl 2772 IN3W3Rl0 H l.250E-009 9.200E+001 2773 IN3W3R6 H 3.460E-008 8.600E+001 2774 IN3W4D6* H 1.300E-008 9.lOOE+OOl 2775 IN3W4Rl0 H 7.710E-008 9.300E+001 2776 IN3W4R6 H 2.870E-009 8.700E+001 2777 INSTLOSP L l.OOOE+OOO 1. OOOE+OOO 2778 IR3D6 L 1.000E+OOO 1. OOOE+*ooo 2779 IR3Rl0 L l.OOOE+OOO 1. OOOE+OOO 2780 IR3R6 L 1. OOOE+OOO l.OOOE+OOO 2781 IR3Wl L 1.000E+OOO l.OOOE+OOO 2782 IR3W2 L 1.000E+OOO 1.000E+OOO 2783 IR3W3 L 1. OOOE+OOO 1. OOOE+OOO 2784 IR3W4 L l..OOOE+OOO 1. OOOE+OOO 199.3/09/28 11:48:l.6 page 58 N-58

  • Event Number Primary Name
 ------ ----------L-----

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 2785 IR3W4R10 L 1.000E+OOO 1.000E+OOO 2786 IR4D6 L 1.000E+OOO 1.000E+OOO 2787 IR4R10 L 1. OOOE+OOO 1.000E+OOO 2788 IR4R6 L 1.000E+OOO 1.000E+OOO 2789 IR4Wl L 1.000E+OOO 1. OOOE+OOO 2790 IR4W2 L 1.000E+OOO 1.000E+OOO 2791 IR4W3 L 1.000E+OOO 1.000E+OOO 2792 IR4W4 L 1.000E+OOO 1.000E+OOO 2793 IR5D6 L 1.000E+OOO 1.000E+OOO 2794 IR5R10 L 1.000E+OOO

  • 1. OOOE+OOO 2795 IR5R6 L 1.000E+OOO 1.000E+OOO 2796 IR5Wl L 1. OOOE+OOO 1.000E+OOO 2797 IR5W2 L 1.000E+OOO 1.000E+OOO 2798 IR5W3 L 1.000E+OOO 1.000E+OOO 2799 IR5W4 L 1.000E+OOO 1. OOOE+OOO 2800 IRAD6 L 1.000E+OOO 1.000E+OOO 2801 IRARlO L 1. OOOE+OOO
  • l.OOOE+OOO
 . 2802   IRAR6                     L         l.OOOE+OOO      l.OOOE+OOO 2803   IRBD6                     L         l.OOOE+OOO      1.000E+OOO 2804   IRBRlO                    L         1.000E+OOO      1.000E+OOO 2805   IRBR6                     L         1.000E+OOO      1.000E+OOO 2806   ISBU12Wl                  L         1.000E+OOO      1. OOOE+OOO .

2807 ISBU12W2 L l.OOOE+OOO 1.000E+OOO 2808 ISBU12W3 L 1.00QE+OOO 1.000E+OOO 2809 ISBU12W4 L 1. OOOE+OOO 1. OOOE+OOO 2810 ISBUlWl L 1.000E+OOO 1. OOOE+OOO 2811 ISBU1W2 L 1. OOOE+OOO 1.000E+OOO 2812 ISBU1W3 L 1.000E+OOO 1.000E+OOO 2813 ISBU1W4 L 1.000E+OOO 1.000E+OOO 2814 ISO-Wl L 1. OOOE+OOO 1.000E+OOO 2815 ISO-W2 L 1.000E+OOO 1.000E+OOO 2816 ISO-W3 L 1.000E+OOO 1.000E+OOO 2817 ISO-W4 L 1.000E+OOO 1.000E+OOO 2818 ISR-CCF-FS-RSlAB L 4.200E-003 3.000E+OOO 2819 ISR-MDP-FR-RSlA L 7.200E-004 1.000E+OOl 57 2820 ISR-MDP-FR-RS1B L 7.200E-004 1.000E+OOl 57 2821 ISR-MDP-FS-RSlA L 3.800E-002 3.800E+OOO 64 2822 ISR-MDP-FS-RS1B L 3.800E-002 3.800E+OOO 64 2823 ISR-MDP-MA-RS1A L 2.000E-003 1. OOOE+OOl 66 2824 ISR-MDP-MA-RS1B L 2.000E-003 1. OOOE+OOl 66 2825 ISR-MDP-OP-lAB L +O.OOOE+OOO l.OOOE+OOl 2826 ISR-STR-PG-RS1AS L 7.200E-004 1.000E+OOl 85 2827 ISR-STR-PG-RS1BS L 7.200E-004 1.000E+OOl 85 2828 ISR-TRA-MA u 2.500E-001

  • 5. OOOE-001 804 2829 ISR1Nl15 L 1.000E+OOO 1. OOOE+OOO 2830 ISR1N313 L 1.000E+OOO 1.000E+OOO 2831 ISR2 L 1.000E+OOO 1.000E+OOO 2832 ISR2N115 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 59 N-59

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2833 ISRW1 L 1.000E+OOO 1.000E+OOO 2834 ISRW2 L 1.000E+OOO 1. OOOE+OOO 2835 ISRW3 L 1.000E+OOO 1.000E+OOO 2836 ISRW4 L 1.000E+OOO 1.000E+OOO 2837 IVBW1 L 1.000E+OOO 1.000E+OOO 2838 IVBW2 L 1. OOOE+OOO 1.000E+OOO 2839 IVBW3 L 1.000E+OOO 1.000E+OOO 2840 IVBW4 L 1.000E+OOO 1.000E+OOO 2841 K L 6.000E-005 5.000E+OOO 147 2842 L L 1.000E+OOO 1.000E+OOO 2843 L1UNCFT L 1.000E+OOO 1.000E+OOO 2844 L1W2CPZM L 1.000E+OOO 1.000E+OOO 2845 L2 L 1. OOOE+OOO 1. OOOE+OOO 2846 L2UNCFT L 1. OOOE+OOO 1.000E+OOO 2847 L2W2CPZM L 1. OOOE+OOO 1.000E+OOO 2848 L3 L 1. OOOE+OOO 1.000E+OOO 2849 L3UNCFT L 1. OOOE+OOO 1. OOOE+OOO 2850 L3W2CPZM L 1.000E+OOO 1.000E+OOO 2851 LOOP-ISOLATED~6E L 3.000E-001 1.000E+OOO 2852 LOOP-ISOLATED-GT L 7.000E-001 3.000E+OOO 2853 LOOP1 L 1.000E+OOO 1. OOOE+OOO 2854 LOOPISOLATED1D6 L 1.000E+OOO 1. OOOE+OOO 2855 LOOPISOLATED1R10 L 1.000E+OOO 1. OOOE+OOO 2856 LOOPISOLATED1R6 u 3.000E-001 6.000E-001 2857 LOOPIS0LATED2D6 L +O.OOOE+OOO 1. OOOE+OOO 2858 LOOPISOLATED2R10 L 1.000E+OOO 1.000E+OOO 2859 LOOPISOLATED2R6 u 7.000E-001 1.000E+OOO 2860 LOOPISOLATED3D6 L +O.OOOE+OOO 1.000E+OOO 2861 LOOPIS0LATED3R10 L 1.000E+OOO 1.000E+OOO 2862 LOOPIS0LATED3R6 L 1.000E+OOO 1. OOOE+OOO 2863 L00PIS0LATED4D6 L +O.OOOE+OOO 1. OOOE+OOO 2864 LOOPISOLATED4R10 L 1.000E+OOO 1.000E+OOO 2865 LOOPISOLATED4R6 L 1.000E+OOO 1.000E+OOO 2866 LOSP L 1.670E-004 3.230E+OOO 2867 LOSP-Ll L 1. OOOE+OOO 1.000E+OOO 2868 LOSP-L1B L 1. OOOE+OOO 1.000E+OOO 2869 LOSP-LlF L 1. OOOE+OOO 1. OOOE+OOO 2870 LOSP-LlI L 1.000E+OOO 1.000E+OOO 2871 L0SP-L2 L 1.000E+OOO 1.000E+OOO 2872 L0SP-L2F L 1.000E+OOO l.OOOE+OOO 2873 L0SP-L2I L 1.000E+OOO 1.000E+OOO 2874 L0SP-L2J L 1. OOOE+OOO 1.000E+OOO 2875 L0SP-L3 L 1. OOOE+OOO 1.000E+OOO 2876 L0SP-L3F L 1.000E+OOO 1.000E+OOO 2877 L0SP-L3J L 1.000E+OOO 1.000E+OOO 2878 LOSP-TOT L 1.000E+OOO 1.000E+OOO 2-879 LPI-CCF-FS-SI1AB L 4.500E-004 3.000E+OOO 306 2880 LPI-CKV-FT-243 L 1.000E-004 3.000E+OOO 31 1993/09/28 11:48:16 page 60 N-60

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 2881 LPI-CKV-FT-CV239 L 1.000E-004 3.000E+OOO 31 2882 LPI-CKV-FT-CV240 L 1.000E-004 3.000E+OOO 31 2883 LPI-CKV-FT-CV241 L 1.000E-004 3.000E+OOO 31 2884 LPI-CKV-FT-CV242 L 1. OOOE-004 3.000E+OOO 31 2885 LPI-CKV-FT-CV46A L 1. OOOE-004 3.000E+OOO 31 2886 LPI-CKV-FT-CV46B L 1.000E-004 3.000E+OOO 31 2887 LPI-CKV-FT-.CV50 L 1. OOOE-004 3.000E+OOO 31 2888 LPI-CKV-FT-CV58 L 1. OOOE-004 3.000E+OOO 31 2889 LPI-CKV-FT-CV79 L 1.000E-004 3.000E+OOO 31 2890 LPI-CKV-FT.,-:CV82 L 1.000E-004 3.000E+OOO 31 2891 LPI-CKV-FT-CV85 L 1.000E-004 3.000E+OOO 31 2892 LPI-CKV-FT-CV91* L 1.000E-004 3.000E+OOO 31 2893 LPI-CKV-FT-CV94 L 1. OOOE-004 3.000E+OOO 31 2894 LPI-CKV-00-CV50 L 1.000E-003 3.000E+OOO 33 2895 LPI-CKV-00-CV58 L 1. OOOE-003 3.000E+OOO 33 2896 LPI-MDP-FR-1A1HR L 3.000E-005 1. OOOE+001 55 2897 LPI-MDP-FR-1A6HR L 1. 800E-004 1.000E+001 60 2898 LPI-MDP-FR-1B1HR L 3.000E-005 1.000E+001 55 2899 LPI-MDP-FR-1B6HR L 1. 800E-004 1.000E+001 60 2900 LPI-MDP-FR-A18HR L 5.400E-004 1. OOOE+001 58 2901 LPI-MDP-FR-A24HR L 7.200E-004 1.000E+001 57 2902 LPI-MDP-FR-B18HR L 5.400E-004 1.000E+001 58 2903 LPI-MDP-FR-B24HR L 7.200E-004 1:000E+001 57 2904 LPI-MDP-FS-SI1A L 3.000E-003 1. OOOE+001 65 2905 LPI-MDP-FS-SI1B L 3.000E-003 1.000E+OOl: 65 2906 LPI-MDP-MA-SI1A L 1.000E+OOO 1.000E+001 2907 LPI-MDP-MA-SI1B L +O.OOOE+OOO 1.000E+001 2908 LPI-MDP-MA0SI1A L 1.000E+OOO 1.000E+OOl 2909 LPI-MDP-MA0SI1B L +O.OOOE+OOO 1.000E+001 2910 LPI-MOV-CC-1890C L 3.000E-003 1.000E+001 69 2911 LPI-MOV-MA-1862A L +O.OOOE+OOO 1.000E+OOO 2912 LPI-MOV-MA01862A L +O.OOOE+OOO 1. OOOE+OOO 2913 LPI-MOV-00-1890C L 5.200E-003 1. OOOE+001 68 2914 LPI-MOV-PG-1862A L 4.000E-005 3.000E+OOO 74 2915 LPI-MOV-PG-1862B L 4.000E-005 3.000E+OOO 74 2916 LPI-MOV-PG-1864A L 4.400E-004 3.000E+OOO 73 2917 LPI-MOV-PG-1864B L 4.400E-004 3.000E+OOO 73 2918 LPI-MOV-PG-1890C L 4.400E-004 3.000E+OOO 73 2919 LPI-XHE-FO-COLD H +O.OOOE+OOO 1. 300E+001 2920 LPI-XHE-FO-HOTLG H +O.OOOE+OOO 1. 300E+001 2921 LPI-XVM-PG-XV48 L 3.650E-005 3.000E+OOO 198 2922 LPI-XVM-PG-XV57 L 3.650E-005 3.000E+.000 198 2923 LPI300 L 1. OOOE+OOO 1.000E+OOO 2924 LPI301 L 1.000E+OOO 1.000E+OOO 2925 LPI400 L 1.000E+OOO 1.000E+OOO 2926 LPI401 L 1. OOOE+OOO 1.000E+OOO 2927 LPIHLG L 1.000E+OOO 1.000E+OOO 2928 LPPS43 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 61

  • N-61

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 2929 LPR-CCF-FT-860AB L 2.600E-004 l.300E+001 15 2930. LPR-CCF-FT-862AB L 2.600E-004 1. 300E+001 15 2931 LPR-CCF-FT-863AB L 2.600E-004 1. 300E+001 15 2932 LPR-CCF-FT-890AB L 2.600E-004 1. 300E+001 15 2933 LPR-CCF-PG-SUMP L 5.000E-005 1.000E+002 27 2934 LPR-CCF-PG-SUMPl L l.OOOE-002 l.OOOE+OOl 2935 LPR-CCF-PG-SUMP2 u l.OOOE-001 2.000E-001 2936 LPR-CKV-FT-CV228 L 1. OOOE-004 3.000E+OOO 31 2937 LPR-CKV-FT-CV229 L 1. OOOE-004 3.000E+OOO 31 2938 LPR-CKV-FT,.CV4 7 L 1. OOOE-004 3.000E+OOO 31 2939 LPR-CKV-FT.:CV56 L 1. OOOE-004 3.000E+OOO 31 2940 LPR-HHl L l.OOOE+OOO 1. OOOE+OOO 2941 LPR-HH2 L l.OOOE+OOO 1. OOOE+OOO 2942 LPR-HH3 L l.OOOE+OOO 1. OOOE+OOO 2943 LPR-HH5 L 1.000E+OOO 1. OOOE+OOO 2944 LPR-HH8 L 1. OOOE+OOO l.OOOE+OOO 2945 LPR-HHA L 1. OOOE+OOO l.OOOE+OOO 2946 LPR-HHB L 1. OOOE+OOO 1. OOOE+OOO 2947 LPR-HHE L 1.000E+OOO 1. OOOE+OOO 2948 LPR-MOV-FT-1860A L 3.000E-003 1.000E+OOl 69 2949 LPR-MOV-FT-1860B L 3.000E-003 1. OOOE+OOl 69 2950 LPR-MOV-FT-1862A L 5.200E-003 1. OOOE+OOl 68 2951 LPR-MOV-FT-1862B L 5.200E-003 1. OOOE+OOl 68 2952 LPR-MOV-FT-1863A L 3.000E-003 1. OOOE+OOl 69 2953 LPR-MOV-FT-1863B L 3.000E-003 1. OOOE+OOl 69 2954 LPR-MOV-FT-1890A L 3.000E-003 1.000E+OOl 69 2955 LPR-MOV-FT-1890B L 3.000E-003 1. OOOE+OOl 69 2956 LPR-MOV-PG-1863A L 6.600E-004 3.000E+OOO 71 2957 LPR-MOV-PG-1863B L 6.600E-004 3.000E+OOO 71 2958 LPR-MOV-PG-1890A L 6.600E-004 3.000E+OOO 71 2959 LPR-MOV-PG-1890B L 6.600E-004 3.000E+OOO 71 2960 LPR-XHE-FO-HOTLG L +O.OOOE+OOO l.OOOE+OOl 131 2961 LPRlO L l.OOOE+OOO 1.000E+OOO 2962 LPRlOO L 1. OOOE+OO.O 1.000E+OOO 2963 LPRlOl L l.OOOE+OOO 1.000E+OOO 2964 LPRll L 1.000E+OOO 1.000E+OOO 2965 LPR4 L l.OOOE+OOO 1.000E+OOO 2966 LPR6 L 1. OOOE+OOO l.OOOE+OOO 2967 LPR7 L 1. OOOE+OOO 1. OOOE+OOO 2968 LPR800 L 1.000E+OOO l.OOOE+OOO 2969 LPR801 L l.OOOE+OOO 1. OOOE+OOO 2970 LPR9 L l.OOOE+OOO l.OOOE+OOO 2971 LS L l.OOOE+OOO l.OOOE+OOO 2972 LS3 L 1.000E+OOO 1.000E+OOO 2973 LSWl L l.OOOE+OOO l.OOOE+OOO 2974 LSW1-B1 L l.OOOE+OOO l.OOOE+OOO 2975 LSW23 L l.OOOE+OOO 1.000E+OOO 2976 LSW23-Bl L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 62 N-62

  • Event Number Primary* Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean*

Probability Uncertainty Value Correlation Class 2977 LSW4 L 1.000E+OOO 1.000E+OOO 2978 LSW4-Bl L 1.000E+OOO 1.000E+OOO 2979 LTDU L 1.000E+OOO 1.000E+OOO 2980 LTDU13 L 1.000E+OOO 1. OOOE+*ooo 2981 LTDU14 L 1. OOOE+OOO 1.000E+OOO 2982 LTDU15 L 1.000E+OOO 1. OOOE+OOO 2983 LTDU18 L 1.000E+OOO 1.000E+OOO 2984 LTDU21 L l.OOOE+OOO 1.000E+OOO 2985 LTDU22 L 1. OOOE+OOO l.OOOE+OOO 2986 LTDU5 L 1. OOOE+OOO l.OOOE+OOO 2987 M L 2.900E-003 l.OOOE+OOl 150 2988 M8W3Rl0 L l.OOOE+OOO l.OOOE+OOO 2989 MA-103A L 1. OOOE+OOO l.OOOE+OOO 2990 MA-104D L 1.000E+OOO 1. OOOE+OOO 2991 MA-1455C L 1. OOOE+OOO 1. OOOE+OOO 2992 MA-1456 L l.OOOE+OOO l.OOOE+OOO 2993 MA-151A L l.OOOE+OOO 1.000E+OOO 2994 MA-1720A L l.OOOE+OOO l.OOOE+OOO 2995 MA-1862A L 1. OOOE+OOO l.OOOE+OOO 2996 MA-BATlB L 1. OOOE+OOO 1. OOOE+OOO 2997 MA-CC2B L l.OOOE+OOO l.OOOE+OOO 2998 MA-CHlA L 1.000E+OOO 1. OOOE+OOO 2999 MA-CHlB L 1. OOOE+OOO 1. OOOE+OOO 3000 MA-CHlC L l.OOOE+OOO l.OOOE+OOO 3001 MA-CSlB L 1. OOOE+OOO 1. OOOE+OOO 3002 MA-DGOl L 1. OOOE+OOO l.OOOE+OOO 3003 MA-0003 L l.OOOE+OOO 1. OOOE+OOO 3004 MA-ElB L 1.000E+OOO l.OOOE+OOO 3005 MA-FW2 L 1.000E+OOO 1.000E+OOO 3006 MA-FW3A L l.OOOE+OOO 1. OOOE+OOO 3007 MA-FW3B L 1. OOOE+OOO 1. OOOE+OOO 3008 MA-RCPlC L l.OOOE+OOO 1. OOOE+OOO 3009 MA-RHRlB L l.OOOE+OOO 1. OOOE+OOO 3010 MA-SilA L l.OOOE+OOO l.OOOE+OOO 3011 MA-SilB L 1.000E+OOO 1.000~+000 3012 MA-SWlOB L 1.000E+OOO 1. OOOE+OOO 3013 MA-U2ElA L 1. OOOE+OOO l.OOOE+OOO 3014 MA-UPSBl L 1. OOOE+OOO l.OOOE+OOO 3015 MA-UPSB2 L 1. OOOE+OOO 1. OOOE+OOO 3016 MA-VBlII L 1. OOOE+OOO 1.000E+OOO 3017 MA-VSE4B L l.OOOE+OOO l.OOOE+OOO 3018 MCW-CCF-VF-INLVL L 1.000E-009 l.OOOE+OOl 28 3019 MCW-CCF-VF-SBO L +O.OOOE+OOO 1. OOOE+OOl 3020 MMA-1455C L l.OOOE+OOO 1.000E+OOO 3021 MPR-CCF-PG-SUMPl L l.OOOE+OOO 1.000E+OOO* 3022 MRAD6 L l.OOOE+OOO l.OOOE+OOO 3023 MRARlO L l.OOOE+OOO 1.000E+OOO 3024 MRAR6 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 63 N-63

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean pncertainty Correlation Number Primary Name Type Probability

  • Value Class 3025 MRBD6 L 1.000E+OOO l.OOOE+OOO 3026 MRBRlO L 1.000E+OOO 1.000E+OOO 3027 MRBR6 L 1.000E+OOO l.OOOE+OOO 3028 MSS-AOV-FC-lOlA L 1. 500E-001 3.000E+OOO 4 3029 MSS-AOV-FC-101B L 1.500E-001 3.000E+OOO 4 3030 MSS-AOV-FC-lOlC L 1.500E-001 3.000E+OOO 4 3031 MSS-AOV-FT-101A L 1. OOOE-003 3.000E+OOO 5 3032 MSS-AOV-FT-101B L 1. OOOE-003 3.000E+OOO 5 3033 MSS-AOV-FT-101C L 1.000E-003 3.000E+OOO 5 3034 MSS-AOV-MA-lOJ,.A L 5.000E-002 5.000E+OOO 802 3035 MSS-AOV-MA-10.lB L 5.000E-002 5.000E+OOO 802 3036 MSS-AOV-MA-lOlC L. 5.000E-002 5.000E+OOO 802 3037 MSS-AOV-PG-101A L 4.000E-005 3.000E+OOO 9 3038 MSS-AOV-PG-101B L 4.000E-005 3.000E+OOO 9 3039 MSS-AOV-PG-101C L 4.000E-005 3.000E+OOO 9 3040 MSS-AOV-XHE-105 L l.300E-002 l.OOOE+OOO 3041 MSS-CCF-FT-OlABC L 7.000E-005 5.000E+OOO 17 3042 MSS-CCF-FT-NRV L 7.000E-005 5. OOOE+OOO
  • 17 3043 MSS-CCF-FT-STV L 7.000E-005 5.000E+OOO 17 3044 MSS-CCF-PG-XVM L 4.000E-005 1. OOOE+OOl 134 3045 MSS-HCV-FT-104 L l.OOOE-003 5.000E+OOO 3046 MSS-HCV-PG-104 L 4.000E-005 l.OOOE+OOl 134 3047 MSS-NRV-FT-101A L 3.000E-003 l.OOOE+OOl 69 3048 MSS-NRV-FT-101B L 3.000E-003 1. OOOE+OOl 69 3049 MSS-NRV-FT-101C L 3.000E-003 l.OOOE+OOl 69 3050 MSS-NRV-MA-101A L 5.000E-002 5.000E+OOO 802 3051 MSS-NRV-MA-101B L 5.000E-002 5.000E+OOO 802 3052 MSS-NRV-MA-101C L 5.000E-002 5.000E+OOO 802 3053 MSS-NRV-PG-101A L 6.000E-004 3.000E+OOO 304 3054 MSS-NRV-PG-101B L 6.000E-004 3.000E+OOO 304 3055 MSS-NRV-PG-101C L 6.000E-004 3.000E+OOO 304 3056 MSS-STV-FT-101A L l.OOOE-004 3.000E+OOO 31 3057 MSS-STV-FT-101B L 1. OOOE-004 3.000E+OOO 31 3058 MSS-STV-F7'-101C .L l.OOOE-004 3.000E+OOO 31 3059 MSS-STV-MA-101A L 5.000E-002 5.000E+OOO 802 3060 MSS-STV-MA.!101B L 5.000E-002 5.000E+OOO 802 3061 MSS-STV-MA-101C L 5.000E-002 5.000E+OOO 802 3062 MSS-STV-PG-101A L 4.000E-005 3.000E+OOO 74 3063 MSS-STV-PG-101B L 4.000E-005 3.000E+OOO 74 3064 MSS-STV-PG-101C L 4.000E-005 3.000E+OOO 74 3065 MSS-XVM-MA-084 L +O.OOOE+OOO 1. OOOE+OOO 3066 MSS-XVM-MA-116 L +O.OOOE+OOO l.OOOE+OOO 3067 MSS-XVM-MA-153 L +O.OOOE+OOO l.OOOE+OOO 3068 MSS-XVM-PG-084 L 4.400E-004 3.000E+OOO 133 3069 MSS-XVM-PG-116 L 4.400E-004 3.000E+OOO 133 3070 MSS-XVM-PG-153 L 4.400E-004 3.000E+OOO 133 3071 MSS-XVM-XHE-BYPS L l.700E-003 l.OOOE+OOO 3072 NB1D6 L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 64 N-64

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event* Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3073 NBlRlO L l.OOOE+OOO l.OOOE+OOO 3074 NB1R6 L l.OOOE+OOO l.OOOE+OOO 3075 NBlWl L l.OOOE+OOO l.OOOE+OOO 3076 NBlWlNU L l.OOOE+OOO l.OOOE+OOO 3077 NB1W2 L 1. OOOE+OOO 1. OOOE+OOO 3078 NB1W2NU L l.OOOE+OOO 1. OOOE+OOO 3079 NB1W3 L l.OOOE+OOO l.OOOE+OOO 3080 NB1W3NU L l.OOOE+OOO 1. OOOE+OOO 3081 NB1W4 L l.OOOE+OOO 1.000E+OOO 3082 NB2W1 L 1. OOOE+OOO 1.000E+OOO 3083 NB2W1NU L 1. OOOE+OOO l.OOOE+OOO 3084 NB2W2 L 1. OOOE+OOO l.OOOE+OOO 3085 NB2W2NU L l.OOOE+OOO l.OOOE+OOO 3086 NB2W3 L l.OOOE+OOO 1.000E+OOO 3087 NB2W3NU L l.OOOE+OOO 1.000E+OOO 3088 NB2W4 L l.OOOE+OOO l.OOOE+OOO 3089 NFWHLG L 1.000E+OOO 1. OOOE+OOO 3090 NL1D6 L 1. OOOE+OOO 1.000E+OOO 3091 NL1R10 L 1.000E+OOO 1.000E+OOO 3092 NL1R6 L 1. OOOE+OOO 1.000E+OOO 3093 NL1W1 L 1.000E+OOO 1.000E+OOO 3094 NL1W2 L 1.000E+OOO 1.000E+OOO 3095 NL1W3 L 1.000E+OOO l.OOOE+OOO 3096 NL1W4 L 1.000E+OOO 1.000E+OOO 3097 NL2D6 L 1.000E+OOO 1. OOOE+OOO 3098 NL2R10 L 1.000E+OOO 1.000E+OOO 3099 NL2R6 L 1.000E+OOO 1.000E+OOO 3100 NL2W1 L 1. OOOE+OOO 1. OOOE+OOO 3101 NL2W2 L 1.000E+OOO 1.000E+OOO 3102 NL2W3 L 1.000E+OOO 1.000E+OOO 3103 NL2W4 L 1. OOOE+OOO 1.000E+OOO 3104 NL3D6 L 1.000E+OOO 1.000E+OOO 3105 NL3Rl0 L 1.000E+OOO 1.000E+OOO 3106 NL3R6 L l.OOOE+OOO 1.000E+OOO 3107 NL3Wl L 1.000E+OOO l.OOOE+OOO 3108 NL3W2 L l.OOOE+OOO l.OOOE+OOO 3109 NL3W3 L 1.000E+OOO 1. OOOE+OOO 3110 NL3W4 L 1.000E+OOO 1.000E+OOO 3111 NOSWl L 1. OOOE-004 1.000E+OOO 3112 NRl L 1.000E+OOO 1. OOOE+OOO 3113 NR7 L 1.000E+OOO 1.000E+OOO 3114 NRAC-lHR H 4.400E-001 3.700E+001 3115 NRAC-7HR H* 5.000E-002 4.300E+001 3116 NRAC-HALFHR H 6.000E-001 4.400E+001 3117 NRAC200 L 3.200E-001 1.440E+OOO 3118 NRAC262 L 2.600E-001 l.540E+OOO 3119 NRAC346 L 1.900E-001 1.700E+OOO 3120 NRAC455 L 1.400E-001 l.900E+OOO 1993/09/28 11:48:16 pag~ 65

  • N-65

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3121 NRH L 1.000E+OOO 1.000E+OOO 3122 NRS L 1.000E+OOO l.OOOE+OOO 3123 OD L +O.OOOE+OOO 1.000E+OOO 3124 ODlOS L 1.000E+OOO 1.000E+OOO 3125 OD14 L 1.000E+OOO 1.000E+OOO 3126 OD15 L 1.000E+OOO 1.000E+OOO 3127 OD16 L 1.000E+OOO 1.000E+OOO 3128 OD17 L 1.000E+OOO 1.000E+OOO 3129 OD6 L 1.000E+OOO 1.000E+OOO 3130 OD7 L 1.000E+OOO 1.000E+OOO 3131 ODS L l.OOOE+OOO 1.000E+OOO 3132 ODS L 1.000E+OOO 1.000E+OOO 3133 OEP-BAC-ST'-FDRD L 9.000E-005 5.000E+OOO 11 3134 OEP-BAC-ST-FDRF L 9.000E-005 5.000E+OOO 11 3135 OEP-CCF-FS-DG12 L 8.400E-004 5.000E+OOO 14 3136 OEP-CCF-FS-DG123 L 4.000E-004 3.000E+OOO 3137 OEP-CCF-FS-DG13 L 8.400E-004 5.000E+OOO 14 3138 OEP-CCF-FS-DG23 L. 8.400E-004 5.000E+OOO 14 3139 OEP-CRB-FT-15H3 L 3.000E-003 l.OOOE+OOl 35 3140 OEP-CRB-FT-15J3 L 3.000E-003 l.OOOE+OOl 35 3141 OEP-CRB-FT-25H3 L 3.000E-003 1.000E+OOl 35 3142 OEP-CRB-FT-25J3 L 3.000E-003 1.000E+OOl 35 3143 OEP-DGN-FC-D3U2 L 3.400E-002 1.000E+OOO 3144 OEP-DGN-FC-DG3U2 L 3.400E-002 3.000E+OOO 36 3145 OEP-DGN-FR-6HDG1 L 1.200E-002 l.OOOE+OOl 38 3146 OEP-DGN-FR-6HDG2 L 1.200E-002 1.000E+OOl 38 3147 OEP-DGN-FR-6HDG3 L 1.200E-002 1.000E+OOl 38 3148 OEP-DGN-FR-DGOl L 2.000E-003 1.000E+OOl 37 3149 OEP-DGN-FR-DG03 L 2.000E-003 1.000E+OOl 37 3150 OEP-DGN-FS-DGOl L 2.200E-002 3.000E+OOO 39 3151 OEP-DGN-FS-DG02 L 2.200E-002 3.000E+OOO 39 3152 OEP-DGN-FS-DG03 L 2.200E-002 3.000E+OOO 39 3153 OEP-DGN-MA-DGOl L +O.OOOE+OOO 1.000E+OOl 3154 OEP-DGN-MA-DG02 L 6.000E-003 1.000E+OOl 3155 OEP-DGN-MA-DG03 L +O.OOOE+OOO 1.000E+OOl 3156 OEP-DGN-MAODGOl L +O.OOOE+OOO 1.000E+OOl 3157 OEP-DGN-MA0DG03 L +O.OOOE+OOO 1.000E+OOl 3158 OSR-CCF-FS-RS2AB L 3.300E-004 1. 300E+001 3159 OSR-CKV-FT-CVll L 1.000E-004 3.000E+OOO 31 3160 0SR-CKV-FT-CV17 L 1.000E-004 3.000E+OOO 31 3161 0SR-MDP-FR-A24HR L 7.200E-004 1. OOOE+OOl 57 3162 OSR-MDP-FR-B24HR L 7.200E-004 1.000E+OOl 57 3163 OSR-MDP-FS-RS2A L 3.000E-003 1.000E+OOl 65 3164 OSR-MDP-FS-RS2B L 3.000E-003 1.000E+OOl 65 3165 0SR-MDP-'MA-RS2A L 2.000E-003 1.000E+OOl 66 3166 OSR-MDP-MA-RS2B L 2.000E-003 1.000E+OOl 66 3167 OSR-MDP-0P-2AB L +O.OOOE+OOO 1.000E+OOl 3168 OSR-MOV-PG-155A L 4.000E-005 3.000E+OOO 74 1993/09/28 11:48:16 page 66 N-66

  • Event Number Primary Name BASiC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 3169 OSR-MOV-PG-155B L 4.000E-005 3.000E+OOO 74 3170 OSR-MOV-PG-156A L 4.000E-005 3.000E+OOO 74
  • 3171 OSR-MOV-PG-156B L 4.000E-005 3.000E+OOO 74 3172 OSR- STR- PG.- RS2A L 7.200E-004 l.OOOE+OOl 85 3173 OSR-STR-PG-RS2B L 7.200E-004 l.OOOE+OOl 85 3174 OSR-TRA-MA u 2.500E-001 5.000E-001 804 3175 OSR1N115 L l.OOOE+OOO l.OOOE+OOO 3176 OSR1N313 L l.OOOE+OOO 1.000E+OOO 3177 0SR2Nl15 i. l.OOOE+OOO l.OOOE+OOO 3178 OSR5 L 1.000E+OOO 1.000E+OOO 3179 OSR6 L 1. OOOE+OOO 1.000E+OOO 3180 p L 1.000E+OOO l.OOOE+OOO 3181 Pl L 1.000E+OOO l.OOOE+OOO 3182 Pl-C L 1.000E+OOO l.OOOE+OOO 3183 P2 L 1.000E+OOO 1.000E+OOO 3184 P4KW1-13 L 1.000E+OOO 1.000E+OOO 3185 P4KW1-18 L 1.000E+OOO 1.000E+OOO 3186 P4KW1-4 L 1.000E+OOO 1. OOOE+OOO 3187 P4KW1-9 L 1.000E+OOO l.OOOE+OOO 3188 P4KW1Nl3 L 1.000E+OOO 1.000E+OOO 3189 P4KW1Ni8 L l.OOOE+OOO l.OOOE+OOO 3190 P4KW1N4 L 1. OOOE+OOO. 1. OOOE+OOO 3191 P4KW1N9 L 1.000E+OOO 1.000E+OOO 3192 P4KW2-13 L 1.000E+OOO 1. OOOE+OOO 3193 P4KW2-18 L* 1. OOOE+OOO l.OOOE+OOO 3194 P4KW2-4 L 1.000E+OOO l.OOOE+OOO 3195 P4KW2:.9 L 1.000E+OOO 1.000E+OOO 3196 P4KW2N13 L 1.000E+OOO 1.000E+OOO 3197 P4KW2N18 L 1.000E+OOO 1.000E+OOO 3198 P4KW2N4 L l.OOOE+OOO 1.000E+OOO 3199 P4KW2N9 L 1. OOOE+OOO 1.000E+OOO 3200 PCS-AOV-FT-BYP-A L l.OOOE-003 3.000E+OOO 5 3201 PCS-AOV-FT-BYP-B L 1. OOOE-003 3.000E+OOO 5 3202 PCS-AOV-FT-BYPA L 1. OOOE-003 3.000E+OOO 5 3203 PCS-AOV-FT-BYPB L 1.000E-003 3.000E+OOO 5 3204 PCS-AOV-FT-MSTVA L 1. OOOE-003 3.000E+OOO 5 3205 PCS-AOV-FT-MSTVB L 1. OOOE-003 *3.000E+OOO 5 3206 PCS-AOV-PG-BYP-A L 4.000E-005 3.000E+OOO 9 3207 PCS-AOV-PG-BYP-B L 4.000E-005 3.000E+OOO 9 3208 PCS-AOV-PG-BYPA L 4.000E-005 3.000E+OOO 9 3209 PCS-AOV-PG-BYPB L 4.000E-005 3.000E+OOO 9 3210 PCS-AOV-PG-MSTVA L 4.000E-005 3.000E+OOO 9 3211 PCS-AOV-PG-MSTVB L 4.000E-005 3.000E+OOO 9 3212 PCS-CCF-FT-TRBYP L 1.000E-004 3.000E+OOO 3213 PGW L 5.580E-006 1. OOOE+OOl 3214 *prA-CSD L 1.000E+OOO l.OOOE+OOO 3215 PL L l.OOOE-001 1.000E+OOO 3216 PLlWl L l.OOOE+OOO l.OOOE+OOO 1993/09/28 il:48:16 page 67 N-67

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3217 PLlWl-13 L 1.000E+OOO 1.000E+OOO 3218 PLlWl-17 L 1.000E+OOO 1.000E+OOO 3219 PLlWl-4 L 1.000E+OOO 1.000E+OOO 3220 PLlWl-8 L 1.000E+OOO 1.000E+OOO 3221 PL1W1N13 L 1.000E+OOO 1. OOOE+OOO 3222 PL1W1N17 L 1.000E+OOO 1.000E+OOO . 3223 PL1W1N4 L 1.000E+OOO 1.000E+OOO 3224 PL1W1N8 L 1.000E+OOO 1.000E+OOO 3225 PL1W2-13 L 1.000E+OOO 1.000E+OOO 3226 PL1W2-17 L 1.000E+OOO 1.000E+OOO 3227 PL1W2-4 L 1.000E+OOO 1.000E+OOO 3228 PL1W2-8 L 1.000E+OOO 1.000E+OOO 3229 PL1W2N13 L 1.000E+OOO 1.000E+OOO 3230 PL1W2N17 L 1. OOOE+OOO 1.000E+OOO 3231 PL1W2N4 L 1.000E+OOO 1.000E+OOO 3232 PL1W2N8 L 1.000E+OOO 1.000E+OOO 3233 PL2W1-13 L 1.000E+OOO 1.000E+OOO 3234 PL2Wl-17 L 1.000E+OOO 1.000E+OOO 3235 PL2W1-4 L 1.000E+OOO 1.000E+OOO 3236 PL2W1-8 L 1.000E+OOO 1.000E+OOO 3237 PL2W1N13 L 1.000E+OOO 1.000E+OOO 3238 PL2W1N17 L 1.000E+OOO 1.000E+OOO 3239 PL2W1N4 L 1.000E+OOO 1.000E+OOO 3240 PL2W1N8 L 1.000E+OOO 1.000E+OOO 3241 PL2W2-13 L 1.000E+OOO 1.000E+OOO 3242 . PL2W2-17 L 1.000E+OOO 1. OOOE+OOO 3243 PL2W2-4 L 1.000E+OOO 1. OOOE+OOO 3244 PL2W2-8 L 1.000E+OOO 1.000E+OOO 3245 PL2W2N13 L 1.000E+OOO 1. OOOE+OOO 3246 PL2W2Nl7 L 1.000E+OOO 1.000E+OOO 3247 PL2W2N4 L 1. OOOE+OOO 1.000E+OOO 3248 PL2W2N8 L 1.000E+OOO 1. OOOE+OOO 3249 PL3Wl-13 L 1.000E+OOO 1.000E+OOO 3250 PL3W1-17 L 1.000E+OOO 1. OOOE+OOO 3251 PL3W1-4 L 1.000E+OOO 1. OOOE+OOO 3252 PL3Wl-8 L 1.000E+OOO 1.000E+OOO 3253 PL3W1N13 L 1.000E+OOO 1.000E+OOO 3254 PL3W1N17 L 1.000E+OOO 1. OOOE+OOO 3255 PL3W1N4 L 1.000E+OOO 1.000E+OOO 3256 PL3W1N8 L 1.000E+OOO l.OOOE+OOO 3257 PL3W2-13 L 1.000E+OOO 1.000E+OOO 3258' PL3W2-17 L 1.000E+OOO 1.000E+OOO 3259 PL3W2-4 L 1.000E+OOO 1.000E+OOO 3260 PL3W2-8 L 1.000E+OOO 1. OOOE+OOO 3261 PL3W2N13 L 1.000E+OOO 1.000E+OOO 3262 PL3W2N17 L 1.000E+OOO 1.000E+OOO 3263 PL3W2N4 L 1.000E+OOO 1.000E+OOO 3264 PL3W2N8 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 68 N-68

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3265 PORV-PATH-CLSD L 5.000E-002 3.000E+OOO 3266 PORVl L l.OOOE+OOO 1.000E+OOO 3267 PORV2 L 1.000E+OOO 1.000E+OOO 3268 POS-D6 L 1.000E+OOO 1. OOOE+OOO 3269 POS-RlO L 1. OOOE+OOO 1. OOOE+OOO 3270 POS-R6 L 1.000E+OOO 1. OOOE+OOO 3271 PPS-AOV-OC-1455C L 7.500E-007 3.000E+OOO 7 3272 PPS-CCF-FT-15356 L 3.500E-003 5.000E+OOO 3273 PPS-CCF-FT-PORV L 7.000E-005 5.000E+OOO 17 3274 PPS-CCF-FT-SRVS L 7.000E-005 5.000E+OOO 17 3275 PPS-MOV-FC-1535 L 3.000E-001 1. OOOE+OOO 4 3276 PPS-MOV-FC-1536 L 3.000E-001 1.000E+OOO 4 3277 PPS-MOV-FT-1535 L 4.000E-002 3.000E+OOO 67 3278 PPS-MOV-FT-1536 L *4.000E-002 3.000E+OOO 67 3279 PPS-MOV-MA-1536 L 1.000E-003 1. OOOE+OOO 3280 PPS-MOV-00-1535 L 4.000E-002 3.000E+OOO 67 3281 PPS-MOV-00-1536 L 4.000E-002 3.000E+OOO 67 3282 PPS-MOV-PG-1535 L 4.000E-005 3.000E+OOO 74 3283 PPS-MOV-PG-1536 L 4.000E-005 3.000E+OOO 74 3284 PPS-OP-SET-SD L 2.700E-003 1.000E+OOl 3285 PPS-PCV-MA-1455C L +O.OOOE+OOO 1. OOOE+OOO 3286 PPS-PCV-MA-1456 L +O.OOOE+OOO 1.000E+OOO 3287 PPS-PCV-MA01455C L +O.OOOE+OOO +O.OOOE+OOO 3288 PPS-PCV-MA01456 L 4.410E-002 +O.OOOE+OOO 3289 PPS-SOV-FT-1455C L 1. OOOE-003 3.000E+OOO 78 3290 PPS-SOV-F.T-1456 L l.OOOE-003 3.000E+OOO 78 3291 PPS-SOV-00-1455C L ~.OOOE-002 1.000E+OOl 79 3292 PPS-SOV-00-1456 L 3.000E-002 1.000E+OOl 79 3293 PPS-SRV-FT-1551A L 1. OOOE-003 3.000E+OOO 193 3294 PPS-SRV-FT-1551B L 1.000E-003 3.000E+OOO 193 3295 PPS-SRV-FT-1551C L 1. OOOE-003 3.000E+OOO 193 3296 PPS-XHE-FO-lPORV H +O.OOOE+OOO 1. 300E+001 3297 PPS-XHE-FO-EMBOR L +O.OOOE+OOO 1.000E+OOl 129 3298 PPS-XHE-FO-PORVS H +O.OOOE+OOO 1.500E+001 3299 PPS-XHE-FO-UNBLK L +O.OOOE+OOO 1.000E+OOl l:91 3300 PR3Wl .L 1. OOOE+OOO 1. OOOE+OOO 3301 PR3W1N L 1. OOOE+OOO 1. OOOE+OOO 3302 PR3W2 L 1. OOOE+OOO 1. OOOE+OOO 3303 PR3W2N L 1. OOOE+OOO 1.000E+OOO 3304 PR4Wl L 1. OOOE+OOO 1.000E+OOO 3305 PR4W1N L 1.000E+OOO 1.*oooE+OOO 3306 PR4W2 L 1. OOOE+OOO 1.000E+OOO 3307 PR4W2N L 1.000E+OOO 1. OOOE+OOO 3308 PR5Wl L l.OOOE+OOO 1.000E+OOO 3309 PR5WlN L 1.000E+OOO 1. OOOE+OOO 3310 PR5W2 L l.OOOE+OOO 1. OOOE+OOO 3311 PR5W2N L l.OOOE+OOO 1.000E+OOO 3312 PRNR-4KD6 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 69 N-69

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3313 PRNR-4KR10 L 1.000E+OOO 1.000E+OOO 3314 PRNR-4KR6 L 1.000E+OOO 1.000E+OOO 3315 PRNR-ARWl u 6.500E-001 1. OOOE+OOO 3316 PRNR-ARW2 u 3.500E-001 7.000E-001 3317 PRNR-ARW3 L 1.000E-001 3.000E+OOO 3318 PRNR-ARW4 L 1.000E-002 1.000E+OOl 3319 PROB-1HFAILEDL2 L 3.290E-001 1.000E+OOO 3320 PROB-1HFAILEDL3 L 4.890E-001 1.000E+OOO 3321 PROB-RHR2A L l.710E-002 1.400E+OOO 3322 PROB-WlD6 L 1. l 70E-001 1.000E+OOO 3323 PROB-WlRlO L +O.OOOE+OOO 1. OOOE+OOO 3324 PROB-W1R6 L 1. 700E-002 1. OOOE+OOO 3325 PROB-W2D6 L 4.360E-001 1. OOOE+OOO 3326 PROB-W2R10 L +O.OOOE+OOO 1.000E+OOO 3327 PROB-W2R6 L 5.430E-001 1.000E+OOO 3328 PROB-W3D6 L 3.750E-001 1.000E+OOO 3329 PROB-W3R10 L 1.600E-002 1.000E+OOO 3330 PROB-W3R6 L 4.lOOE-001 1.000E+OOO 3331 PROB-W4D6 L 7.200E-002 1.000E+OOO 3332 PROB-W4R10 L 9.840E-001 1.000E+OOO 3333 PROB-W4R6 L 3.400E-002 1.000E+OOO 3334 PVBWl-13 L 1.000E+OOO 1. OOOE+OOO 3335 PVBWl-18 L 1.000E+OOO 1.000E+OOO 3336 PVBWl-4 L 1.000E+OOO 1.000E+OOO 3337 PVBWl-9 L 1. OOOE+OOO 1. OOOE+OOO 3338 PVBW1N13 L 1. OOOE+OOO 1.000E+OOO 3339 PVBW1Nl8 L 1.000E+OOO 1.000E+OOO 3340 PVBW1N4 L 1.000E+OOO 1.000E+OOO 3341 PVBW1N9 L 1.000E+OOO 1.000E+OOO 3342 PVBW2-13 L 1.000E+OOO 1.000E+OOO 3343 PVBW2-18 L 1. OOOE+OOO 1.000E+OOO 3344 PVBW2-4 L 1.000E+OOO 1.000E+OOO 3345 PVBW2-9 L 1. OOOE+OOO 1.000E+OOO 3346 PVBW2N13 L 1. OOOE+OOO 1. OOOE+OOO 3347 PVBW2N18 L 1.000E+OOO 1.000E+OOO 3348 PVBW2N4 L 1.000E+OOO 1.000E+OOO 3349 PVBW2N9 L 1. OOOE+OOO 1. OOOE+OOO 3350 PZR-SV-REMOVED L 1.000E-001 3.000E+OOO 3351 PZR-SV-REMOVEDWl L 1.000E-002 1.000E+OOl 3352 PZR-SV-REMOVEDW2 u 5.000E-002 1.000E-001 3353 PZR-SV-REMOVEDW3 u 9.000E-001 1.000E+OOO 3354 PZR-SV-REMOVEDW4 u 3.000E-001 6.000E-001 3355 Q L 2.700E-002 1. OOOE+OOO 3356 Q-E3W4-XHE-FL-7 L 1.000E+OOO 1.000E+OOO 3357 Q2 L 1.000E+OOO 1.000E+OOO 3358 QC L 1.200E-004 1.000E+OOl 163 3359 QHR-CCF-FS-MDPAB L l.OOOE+OOO 1.000E+OOO 3360 QS L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 70 N-70

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3361 QS-SBO H 2.700E-001 2.200E+001 3362 QS-UNIT2 H 1.600E-001 2.300E+001 3363 R H 1.700E-001 2.400E+001 3364 R-CV1W3-2CH L 1.900E-001 2.000E+OOO 2CH3 3365 R-CV1W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3366

  • R-ElOW3-2CH L 1.900E-001 2.000E+OOO 2CH3 3367 R-ElOW4. -2CH L 3.600E-002 5.000E+OOO 2CH4 3368 R-E13AW1-D6-3 L 1.000E+OOO 1.00bE+OOO 3369 R-E13AW1-D6-7 H 5.214E-001 5.200E+001 3370 R-E13AW1-R6::-l 7 H 5.214E-'001 5.200E+001 3371 R-E13AW2-R6-17 H 7.534E-001 5.300E+001 3372 R-E13BW1-D6-7 H 5.219E-001 5.200E+001 3373 R-E13BW1-R6-17 H 5.219E-001 5.200E+001 3374 R-E13BW2-D6-9 H 7.541E-001 5.300E+001 3375 R-E13BW2-R6-17 H 7.541E-001 5.300E+001 3376 R-E1Wl-D6-7 H 5.219E-001 5.200E+001 3377 R-E1Wl-R6-17 H 5.219E-001 5.200E+001 3378 R-E1W2-D6-9 H 7.541E-001 5.300E+001 3379 R-E1W2-R6-17 H 7.541E-001 5.300E+001 3380 R-E1W3-1890B L 1.000E-001 2.000E+OOO VLV3 3381 R-E1W3-2CH L 1.900E-001 2.000E+OOO 2CH3 3382 R-E1W4-1890B L 2.150E-002 S.OOOE+OOO VLV4 3383 R-E2W1-D6-3 H 5.235E-001 5.200E+001 3384 R-E2W1-D6-7 H 5.214E-001 5.200E+001 3385 R-E2Wl-Rl5-8 H 5.235E-001 5.200E+001 3386 R-E2W2-D6-4 H 7.563E-001 5.300E+001 3387 R-E2W2-D6-9 H 7.533E-001 5.300E+001 3388 R-E2W2-R6-17 H 7.534E-001 5.300E+001 3389 R-E2W2-R6-8 H 7.564E-001 5.300E+001 3390 R-E2W3-2CH L 1.900E-001 2.000E+OOO 2CH3 3391 R-E2W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3392 R-E3W1-D6-3 H 5.235E-001 5.200E+001 3393 R-E3W1-D6-7 H 5.214E-001 5.200E+001 3394 R-E3Wl-R6-8 H 5.235E-001 5. 200E+001.

3395 R-E3W2-D6-4 H 7.563E-001 5.300E+001 3396 R-E3W2-D6-9 H 7.533E-001 5.300E+001 3397 R-E3W2-R6-17 H 7.534E-001 5.300E+001 3398 R-E3W2-R6-8 H 7.564E-001 5.300E+001 3399 R-E3W3-2CH L 1.900E-001 2.000E+OOO 2CH3 3400 R-E3W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3401 R-E4W3-2CH L 1. 900E-001 2.000E+OOO 2CH3 3402 R-E4W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3403 R-E5W3-2CH L 1. 900E-001 2.000E+OOO 2CH3 3404 R-E5W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3405 R-E6Wl-D6-2 u 3.059E-001 3.130E-001 3406 R-E6Wl-R6-7 H 7. 691E-001 5.300E+001 3407 R-E6W2-D6-3 H 6.767E-001 4.700E+001 3408 R-E6W2-R6-7 H 6.767E-001 4.700E+001 1993/09/28 11:48:16 page 71

  • N-71

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3409 R-E6W3-2CH L

1. 900E-001 2.000E+OOO 2CH3 3410 R-E6W4-2CH L 3.600E-002 5.000E+OOO 2CH4 3411 R-E7Wl-D6-7 H 5.922E-001 4.800E+001 3412 *R-E7Wl-R6-17 H 5.922E-001 4.800E+001 3413 R-E7W2-D6-9 H 7.558E-001 5.300E+001 3414 R-E7W2-R6-17 H 7.559E-001 5.300E+001 3415 R-E7W3-2CH L 1.900E-001 2.000E+OOO 2CH3 3416 R-E8Wl-D6-2 u 1. 981E-001 2.350E-001 3417 R-E8Wl-R6-7
  • u 1.981E-001 2.350E-001 3418 R-E8W2-D6-3!: H 4.860E-001 4.900E+001 3419 R-E8W2-R6-7 H 4.860E-001 4.900E+001 3420 R-E9Wl-D6-3 H 4.294E-001 5.000E+OOl 3421 R-EAW2-2CH L 1.900E-001 2.000E+OOO 2CH2 3422 R-EBW3-2CH L 1.900E-001 2.000E+OOO 2CH3 3423 R-EBW4-2CH L 3.600E-002 5.000E+OOO 2CH4 3424 R-Ll-XHE-S *L 8.000E-004 1.000E+OOO 3425 R-L2-XHE-S L 4.?00E-003 1.000E+OOO 3426 R-L3-XHE-S L 1.SOOE-002 . 1. OOOE+OOO 3427 R-M3W2-D6-9 H 8.414E-001 5.lOOE+OOl 3428 R-M3W2-R6-17 H 8.713E-001 5.lOOE+OOl 3429 R-M4W3-1869B L 1. OOOE-001 2.000E+OOO VLV3 3430 R-M4W4-1869B L 2.150E-002 5.000E+OOO VLV4 3431 R-M8W2-D6-3 H 8.414E-001 5.lOOE+OOl 3432 R-MHW2-D6-9 H 8.965E-001 5.lOOE+OOl 3433 R-MHW2-R~-17 H 8.966E-001 5.lOOE+OOl 3434 R-N1Wl-D6-7 H 5.219E-001 5.200E+001 3435 R-N1Wl-R6-17 H 5.219E-001 5.200E+001 3436 R-N1W2-D6-9 H 7.541E-001 5.300E+001 3437 R-N1W2-R6-17 H 7.541E-001 5.300E+001 3438 R-N2Wl-D6-7 H 5.219E-001 5.200E+001 3439 R-N2W2-D6-9 H 7.541E-001 5.300E+001 3440 R-N2W2-R6-17 H .7.541E-001 5.300E+001 3441 R-R3D6-H-FLV-3 L 2.lOOE-001 1.000E+OOO 3442 R-R3D6-H-FTM-3 L 6.300E-001 1.000E+OOO 3443 R-R3R10-H-FLV-6 L 5.400E-004 1.000E+OOO 3444 R-R3R6-H-FLV-8 L l. lOOE-002 1.000E+OOO 3445 R-R3R6-H-FTM-8 L 4.570E-001 1. OOOE+OOO 3446 R-R3R6-XHE-G-4 L 2.400E-001 1.000E+OOO 3447. R-R4R6-XHE-G-5 L 6.300E-001 1.000E+OOO 3448 R-R5D6-H-D-4 L 5.700E-001 1.000E+OOO 3449 R-R5R6-XHE-G-5 L 6.300E-001 1.000E+OOO 3450 R-RAD6-H-2CH-6 L 6.600E-002 1.000E+OOO 3451 R-RAD6-H-D-6 L 5.380E-001 1.000E+OOO 3452 R-RAD6-H-FLV-6 L 6.600E-002 1. OOOE+OOO 3453 R-RAR10-H-2CH-12 L 7_. 200E-004 1.000E+OOO 3454 R-RARlO-H-FLV-10 L 5.400E-004 1.000E+OOO 3455 R-RARlO-H-FLV-12 L 5.400E-004 1.000E+OOO 34.56 R-RAR6-H-2CH-16 L 2.400E-002 1.000E+OOO 1993/09/28 11:48:16 page 72 N-72

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3457 R-RAR6-H-FLV-13 L 1.lOOE-002 1.000E+OOO 3458 R-RAR6-H-FLV-16 L 1.lOOE-002 1.000E+OOO 3459 R-RAR6-XHE-G-5 L 6.300E-001 1.000E+OOO 3460 R-RBD6-H-D-6 L 4.lOOE-001 1.000E+OOO 3461 R-RBD6-H-FLV-6 L 6.600E-002 1.000E+OOO 3462 R-RBRlO-H-FLV-10 L 5.400E-004 1.000E+OOO 3463 R-RBRlO-H-FLV-12 L S.400E-004 1.000E+OOO 3464 R-RBR6-H-2CH-16 L 2.400E-002 1.000E+OOO 3465 R-RBR6-H-FLV-13 L 1.lOOE-002 1.000E+OOO 3466 R-RBR6-H-F~'V-16 L 1.lOOE-002 1.000E+OOO 3467 R-RBR6-XHE-G-5 L 6.300E-001 1.000E+OOO 3468 R-REFLUX-D6 L 1.000E-001 1.000E+OOO 3469 R-REFLUX-RAD6 L 3.000E-001 1.000E+OOO 3470 R-SRR6-XPIE-RC-5 L 1.000E+OOO 1.000E+OOO 3471 R-SRWl-XHE-RC-3 L 2.900E-004 1.000E+OOO 3472 R-SRW2-XHE-RC-3 L 1. 200E-004 1.000E+OOO 3473 R-SRW3-XHE-RC-4 L 1.200E-004 1.000E+OOO 3474 R-SRW4-XHE-RC-5 L 6.700E-005 1.000E+OOO 3475 R-VBR6-XHE-G-4 L 1.000E+OOO 1.000E+OOO 3476 R4KD6-4 L 1.000E+OOO 1.000E+OOO 3477 R4KW1 L 1.000E+OOO 1.000E+OOO 3478 R4KW1-12 L 1.000E+OOO 1.000E+OOO 3479 R4KW1-3 L 1.000E+OOO 1. 000.E+OOO 3480 R4KW2 L 1.000E+OOO 1.000E+OOO 3481 R4KW2-12 L 1.000E+OOO 1.000E+OOO 3482 R4KW2-3 L 1.000E+OOO 1.000E+OOO 3483 R4KW3 L 1.000E+OOO 1.000E+OOO 3484 R4KW3-3 L 1.000E+OOO 1.000E+OOO 3485 R4KW3-9 L 1.000E+OOO 1.000E+OOO 3486 R4KW4 L 1.000E+OOO 1. OOOE+OOO 3487 R4KW4-3 L 1. OOOE+OOO 1. OOOE+OOO 3488 R4KW4-9 L 1.000E+OOO 1.000E+OOO 3489 RCS-AOV-FT-1455A L 1.000E-003 3.000E+OOO 5 3490 RCS-AOV-FT-1455B L 1.000E-003 3.000E+OOO 5 3491 RCS-CCF-FT-455AB L 1.000E-004 3.000E+OOO 301 34.92 RCS-FCV-FT-AUXSP L 1.000E-003 3.000E+OOO 5 349:3 RCS-MDP-FR-RCPlA L 3.000E-005 1.000E+OOl 55 3494 RCS-MDP-FR-RCPlC L 3.000E-005 1.000E+OOl 55 3495 RCS-MDP-MA-RCPlC L +O.OOOE+OOO 1.000E+OOO 3496 RCS-MDP-MAORCPlC L +O.OOOE+OOO 1.000E+OOO 3497 RCS-XHE-FO-DPRES H +O.OOOE+OOO 2.800E+001 3498 RCS-XHE-FO-DPRT7 H +O.OOOE+OOO 2.900E+001 3499 REC-XHE-FO-SCOOL H 1. 250E-001 2.500E+001 3500 REFUEL L 6.000E-001 1.460E+OOO 3501 RHR-AOV-C0-1758 L 1. 200E-005 3.000E+OOO IPE6 3502 RHR-AOV-OC-1758 L 7.SOOE-007 3.000E+OOO 7 3503 RHR-AOV-00-1605 L 2.400E-006 1.000E+OOl 8 3504 RHR-ASF-PG-1605 L 3.000E-004 3.000E+OOO 10 1993/09/28 11:48:16 page 73

  • N-73

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event* Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3505 RHR-CCF-FS-MDPAB L 4.500E-004 3.000E+OOO 306 3506 RHR-CCF-FT-720AB *L 2.600E-004 3.000E+OOO 305 3507 RHR-CKV-FT-CVll L 1.000E-004 3.000E+OOO 31 3508 RHR-CKV-FT-CV5 L 1.000E-004 3.000E+OOO 31 3509 RHR-CKV-00-CVll L 1.000E-003 3.000E+OOO 33 3510 RHR-CKV-00-CV5 L 1.000E-003 3.000E+OOO 33 3511 RHR-HTX-LK-ElA L 7.200E-005 1.000E+OOl 41 3512 RHR-HTX-LK-E1B L 7.200E-005 1. OOOE+OOl 41 3513 RHR-HTX-PG-ElA L 1.368E-004 1.000E+OOl 43 3514

  • RHR-HTX-PG-E1B L 1.368E-004 1.000E+OOl 43 3515 RHR-MDP-FR-A24HR I:, 7.200E-004 1.000E+OOl 57 3516 RHR-MDP-FR-B24HR i 7.200E-004 1.000E+OOl 57 3517 RHR-MDP-FS-RHRlA L 3.000E-003 1.000E+OOl 65 3518 RHR-MDP-FS,-RHR1B L 3.000E-003 1.000E+OOl 65 3519 RHR-MDP-MA-RHR1B L +O.OOOE+OOO 1. OOOE+OOO

. 3520 RHR-MDP-MAORHR1B L +O.OOOE+OOO +O.OOOE+OOO 3 52:;t RHR-MOV-FT-1700 L 3.000E-003 1.000E+OOl 69 3522 .RHR-MOV-FT-1701 L 3.000E-003 1. OOOE+OOl 69 3523 RHR-MOV-FT-1720A *L 3.000E-003 1.000E+OOl 69 3524 RHR-MOV-FT-1720B L 3.000E-003 1.000E+OOl 69 3525 RHR-MOV-MA-1720A L +O.OOOE+OOO 1.000E+OOO 3526 RHR-MOV-MA01720A L +O.OOOE+OOO 1.000E+OOO 3527 RHR-MOV-PG-1700 L 4.400E-004 3.000E+OOO 73 3528 RHR-MOV-PG-1701 L 4.400E-004 3.000E+OOO 73 3529 RHR-MOV-PG-1720A L 4.400E-004 3.000E+OOO 73 3530 RHR-MOV-PG-i720B L 4.400E-004 3.000E+OOO 73 3531 RHR-SRV-C0-1721 L 9.360E-005 1.000E+OOl 80 3532 RHR-XMV-FT-XV20 L 1. OOOE-004 3.000E+OOO 201 3533 RHR-XMV-FT-XV24 L 1.000E-004 3.000E+OOO 201 3534 RHR-XVM-PG-XV12 L 4.400E-004 3.000E+OOO 133 353*5 RHR-XVM-PG-XV15 L 4.400E-004 3.000E+OOO 133 3536 RHR-XVM-PG-XV19 L 4.400E-004 3.000E+OOO 133 3537 RHR-XVM-PG-XV2 L 4.400E-004 3.000E+OOO 133 3538 RHR-XVM-PG-XV20 L 4.400E-004 3.000E+OOO 133 3539 RHR-XVM-PG-XV24 L 4.400E-004 3.000E+OOO 133 3540 RHR-XVM-PG-XV6 L 4.400E-004 3.000E+OOO 133 3541 RHR-XVM-PG-XV8 L 4.400E-004 3.000E+OOO 133 3542 RHRll L 1.000E+OOO 1. OOOE+OOO 3543 RHRll-S L 1..000E+OOO 1.000E+OOO 3544 RHR14 L 1. OOOE+OOO 1. OOOE+OOO 3545 RHR3 L 1.000E+OOO 1. OOOE+OOO 3546 RHR3-S L 1:oooE+OOO 1. OOOE+OOO 3547 RHR4 L 1.000E+OOO 1.000E+OOO 3548 RHR4-S L 1.000E+OOO 1.000E+OOO 3549 RHR8 L 1.000E+OOO 1.000E+OOO 3550 RHRS-S L 1.000E+OOO 1. OOOE+OOO 3551 RHRMOD L 1.000E+OOO 1.000E+OOO 3552 RL1D6 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 74 N-74

  • Event Number Primary.Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 3553 RLlRlO L l.OOOE+OOO l.OOOE+OOO 3554 RL1R6 L l.OOOE+OOO l.OOOE+OOO 3555 RLlWl L l.OOOE+OOO l.OOOE+OOO 3556 RL1W2 L l.OOOE+OOO l.OOOE+OOO 3557 RL1W3 L l.OOOE+OOO l.OOOE+OOO 3558 RL1W4 L l.OOOE+OOO l.OOOE+OOO 3559 RL2D6 L 1.000E+OOO 1.000E+OOO 3560 RL2R10 L 1. OOOE+OOO 1.000E+OOO 3561 RL2R6 L 1.000E+OOO 1.000E+OOO 3562 RL2Wl L 1.000E+OOO 1.000E+OOO 3563 RL2W2 L l.OOOE+OOO 1.000E+OOO 3564 RL2W3 L 1.000E+OOO 1.000E+OOO 35'65 RL2W4 L 1.000E+OOO 1.000E+OOO 3566 RL3D6 L 1.000E+OOO 1.000E+OOO 3567 RL3R10 L 1.000E+OOO 1.000E+OOO 3568 RL3R6 L 1.000E+OOO l.OOOE+OOO 3569 RL3Wl L 1.000E+OOO 1.000E+OOO 3570 RL3W2 L 1.000E+OOO 1.000E+OOO 3571 RL3W3 L 1.000E+OOO l.OOOE+OOO 3572 RL3W4 L 1.000E+OOO 1.000E+OOO 3573 RMT-A L 1.000E+OOO 1.000E+OOO 3574 RMT-ACT-FA-RMTSA L +O.OOOE+OOO 5.000E+OOO 3575 RMT-ACT-FA-RMTSB L +O.OOOE+OOO 5.000E+OOO 3576 RMT-B L 1.000E+OOO 1.000E+OOO 3577 RMT-CCF-FA-MSCAL L +O.OOOE+OOO 1.000E+OOl 30 3578 RPS L 1.000E+OOO 1.000E+OOO 3579 RR4D6 L 1.000E+OOO 1.000E+OOO 3580 RR4R10 L 1.000E+OOO 1.000E+OOO 3581 RR4R6 L 1.000E+OOO 1.000E+OOO 3582 RR4Wl L 1.000E+OOO 1.000E+OOO 3583 RR4W2 L 1.000E+OOO 1.000E+OOO 3584 RR4W3 L 1.000E+OOO 1.000E+OOO 3585 RR4W4 L 1.000E+OOO 1.000E+OOO 3586 RR5D6 L 1.000E+OOO 1.000E+OOO 3587 RR5R10 L 1.000E+OOO 1.000E+OOO 3588 RR5R6 L 1.000E+OOO 1.000E+OOO 3589 RR5Wl L 1. OOOE+OOO 1.000E+OOO 3590 RR5W2 L 1.000E+OOO 1.000E+OOO 3591 RR5W3 L 1.000E+OOO 1.000E+OOO 3592 RR5W4 L 1.000E+OOO 1.000E+OOO 3593 RRAD6 L 1.000E+OOO 1.000E+OOO 3594 RRARlO L 1.000E+OOO 1.000E+OOO 3595 RRAR6 L 1.000E+OOO 1.000E+OOO 3596 RRBD6 L 1.000E+OOO 1.000E+OOO 3597 RRBRlO L 1.000E+OOO 1.000E+OOO 3598 RRBR6 L 1.000E+OOO 1.000E+OOO 3599 RVBWl L 1.000E+OOO 1.000E+OOO 3600 RVBWl-12 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 75 N-75

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3601 RVBWl-3

  • L 1.000E+OOO 1.000E+OOO 36'02 RVBW2 L 1. OOOE+OOO 1.000E+OOO 3603 RVBW2-12 L l.OOOE+OOO 1.000E+OOO 3604 RVBW2-3 L l.OOOE+OOO 1.000E+OOO 3605 RVBW3 L l.OOOE+OOO 1.000E+OOO 3606 RVBW3-3 L 1.000E+OOO 1.000E+OOO 3607 RVBW3-9 L 1. OOOE+OOO 1.000E+OOO 3608 RVBW4 .L 1.000E+OOO 1.000E+OOO 3609 RVBW4-3 L l.OOOE+OOO 1.000E+OOO 3610 RVBW4-9 L l.OOOE+OOO 1.000E+OOO 3611 RWT-TNK-LF-RWST L 2.700E-006 1.000E+OOl 92 3612 S4KW1 L 1. OOOE+OOO 1. OOOE+OOO 3613 S4KW1-17 L 1.000E+OOO 1.000E+OOO 3614 S4KW1-8 L 1. OOOE+OOO 1.000E+OOO 3615 S4KW2 L 1. OOOE+OOO
  • 1.000E+OOO 3616 S4KW2-17 L 1.000E+OOO 1.000E+OOO 3617 S4KW2-8 L 1. OOOE+OOO
  • 1.000E+OOO 3618 S4KW3 L* l.OOOE+OOO 1. OOOE+OOO 3619 S4KW3-4 L l.OOOE+OOO 1.000E+OOO 3620 S4KW3-8 L l.OOOE+OOO 1.000E+OOO 3621 S4KW4 L- 1. OOOE+OOO 1.000E+OOO 3622 S4KW4-4 L 1. OOOE+OOO 1.000E+OOO 3623 S4KW4-8 L 1.000E+OOO 1.000E+OOO 3624 SA L 1.000E+OOO 1.000E+OOO 3625 SA-CSD L l.OOOE+OOO 1.000E+OOO 3626 SAS-CCF-FR-SACl L 4.SOOE-004 1.000E+OOl 3627 SAS-CPS-FR-1SAC1 L 4.BOOE-003 1.000E+OOl 202 3628 SAS-CPS-FR-2SAC1 L 4.800E-003 1.000E+OOl 202 3629 SAS-CPS-FS-2SAC1 L 8.000E-002 3.000E+OOO 203 3630 SB1R6 L 1.000E+OOO 1.000E+OOO 3631 SB1Wl L l.OOOE+OOO 1.000E+OOO 3632 SB1Wl-A L 1.000E+OOO 1.000E+OOO 3633 SB1W2 L 1.000E+OOO 1. OOOE+OOO 3634 SB1W3 L 1.000E+OCiO 1.000E+OOO 3635 SB1W4 L l.OOOE+OOO 1.000E+OOO 3636 SB2Wl L 1.000E+OOO 1.000E+OOO 3637 SB2W2 L 1.000E+OOO 1.000E+OOO 3638 SB2W3 L 1.000E+OOO 1.000E+OOO 3639 SB2W4 L 1.000E+OOO 1.000E+OOO 3640 SBO-Ul L 1.000E+OOO 1. OOOE+OOO 3641 SBO-UlF L 1. OOOE+OOO 1.000E+OOO 3642 SBO-UlI L 1.000E+OOO 1.000E+OOO 3643 SB0_-U1U2 L 1.000E+OOO 1.000E+OOO 3644 SBOUlL L 1.000E+OOO 1.000E+OOO 3645 SB0U1LS L 1.000E+OOO 1.000E+OOO 3646 SBU1U2L L 1.000E+OOO 1.000E+OOO 3647 SBU1U2LS L 1.000E+OOO 1.000E+OOO 3648 SEMI-VIT-BUS L 1.000E-005 1. O.OOE+OOl 1993/09/28 11:48:16 page 76 N-76
  • Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Correlation Class 3649 SGA-DRAINED-R L 2.300E-002 5. OOOE+ooo* 307 3650" SGB-DRAINED-R L 2.300E-002 5.000E+OOO 307 3651 SGC-DRAINED-R L 2.300E-002 5.oooE+ooo* 307 3652 SGRT-AOV-LK-lOOA L 2.400E-005 3.000E+OOO 6 3653 SGRT-AOV-LK-100B L 2.400E-005 3.000E+OOO 6 3654 SGRT-AOV-LK-lOOC L 2.400E-005 3. OOOE+OOO
  • 6 3655 SGRT-AOV-LK-100D L 2.400E-005. 3.000E+OOO 6 3656 SGRT-AOV-LK-lOOE L 2.400E-005 3.000E+OOO 6 3657 SGRT-AOV-LK-lOOF L 2.400E-005 3.000E+OOO 6 3658 SGRT-Aov-oc.. 100A L 7.500E-007 3.000E+OOO 7 3659 SGRT-AOV-OC-100B L 7.SOOE-007 3.000E+OOO 7 3660 SGRT-AOV-OC-lOOC L 7.SOOE-007 3.000E+OOO 7 3661 SGRT-AOV-0C-100D L 7.SOOE-007 3.000E+OOO 7 3662 SGRT-AOV-:OC-lOOE L 7.SOOE-007 3.000E+OOO 7 3663 SGRT-AOV-OC-lOOF L 7.SOOE-007 3.000E+OOO 7 3664 SGRT-AOV-PG-lOOA L 4.000E-005 3.000E+OOO 9 3665 SGRT-AOV-PG-100B L 4.000E-005 3.000E+OOO 9 3666 SGRT-AOV-PG-lOOC L 4.000E-005 3.000E+OOO 9 3667 SGRT-AOV-PG-100D L 4.000E-005 3.000E+OOO 9 3668 SGRT-AOV-PG-lOOE L 4.000E-005 3.000E+OOO 9 3669 SGRT-AOV-PG-lOOF L 4.000E-005 3.000E+OOO 9 3670 SGRT-CKV-FO-CMFA L 1. OOOE-003 3.000E+OOO 33
 .3671   SGRT-CKV-FO-CMFB          L         1. OOOE-003     3.000E+OOO         33 3672   SGRT-CKV-FO-CMFC          L         1.000E-003     -3.000E+OOO         33 3673   SGRT-CKV-FT-RT11          L         1. OOOE-004     3.000E+OOO         31 3674   SGRT-CKV-FT-RT30          L         1. OOOE-004     3.000E+OOO         31 3675   SGRT-CKV-FT-RT49          L         1.000E-004      3.000E+OOO         31 3676   SGRT-HTX-LK-ElA           L         7.200E-005      1.000E+OOl         41 3677   SGRT-HTX-LK-E1B           L         7.200E-005      1. OOOE+001        41 3678   SGRT-HTX-LK-ElC           L         7.200E-005      1.000E+OOl         41 3679   SGRT-HTX-MA-ElA           L         2.000E-004      1.000E+OOl 3680   SGRT-HTX-MA-E1B           L         2.000E-004      1.000E+OOl 3681   SGRT-HTX-MA-E1C           L         2.000E-004      1.000E+001 3682   SGRT-HTX-PG-ElA           L         1.400E-004      1.000E+OOl         43 3683   SGRT-HTX-PG-E1B           L         1. 400E-004     1.000E+001         43 3684   SGRT-HTX-PG-E1C           L         1.400E-004      1. OOOE+OOl        43 3685   SGRT-MV-PG-150
  • L 4.000E-005 1. OOOE+OOl 134 3686 SGRT-MV-PG-160 L 4.000E-005 1.000E+OOl 134 3687 SGRT-MV-PG-170 L 4.000E-005 1.000E+OOl 134 3688 SGRT-MV-PG-BD1 L 4.000E-005 1.000E+OOl 134 3689 SGRT-MV-PG-BD11 L 4.000E-005 1.000E+001 134 3690 SGRT-MV-PG-BD12 L 4.000E-005 1.000E+OOl 134 3691 SGRT-MV-PG-BD14 L 4.000E-005 1.000E+OOl 134 3692 SGRT-MV-PG-BD2 L 4.000E-005 1.000E+001 134 3693 SGRT-MV-PG-BD21 L 4.000E-005 1.000E+OOl 134 3694 SGRT-MV-PG:-BD22 L 4.000E-005 1.000E+OOl 134 3695 SGRT-MV-PG-BD24 L 4.000E-005 1.000E+OOl 134 3696 SGRT-MV-PG-BD4 L 4.000E-005 1.000E+OOl 134 1993/09/28 11:48:16 page 77 N-77

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 3697 SGRT-MV-PG-RTl L 4.000E-005 l.OOOE+OOl 134 3698 SGRT-MV-PG-RT13 L 4.000E-005 l.OOOE+OOl 134 3699 SGRT-MV-PG-RT18 L 4.000E-005 l.OOOE+OOl 134 3700 SGRT-MV-PG-RT19 L 4.000E-005 l.OOOE+OOl 134 3701 SGRT-MV-PG-RT2 L 4.000E-005 l.OOOE+OOl 134 3702 SGRT-MV-PG-RT20 L 4.000E-005 l.OOOE+OOl 134 3703 SGRT-MV-PG-RT21 L 4.000E-005 l.OOOE+OOl 134 3704 SGRT-MV-PG-RT25 L 4.000E-005 l.OOOE+OOl 134 3705 SGRT-MV-PG-R..T27 L 4.000E-005 l.OOOE+OOl 134 3706 SGRT-MV-PG-&T32 L 4.000E-005 l.OOOE+OOl 134 3707 SGRT-MV-PG-RT37 L 4;000E-005 l.OOOE+OOl 134 3708 SGRT-MV-PG-RT38 L 4.000E-005 l.OOOE+OOl 134 3709 SGRT-MV-PG-RT39 L 4.000E-005 l.OOOE+OOl 134 3710 SGRT-MV-PG-RT40 L 4.000E-005 l.OOOE+OOl 134 3711 SGRT-MV-PG-RT44 L 4.000E-005 1.000E+OOl 134 3712 SGRT-MV-PG-RT46 L 4.000E-005 1.000E+OOl 134 3713 SGRT-MV-PG-RT51 L *4.000E-005 1. OOOE+OOl 134 3714 SGRT-MV-PG-RT56 L 4.000E-005 1.000E+OOl 134 3715 SGRT-MV-PG-RT57 L 4.000E-005 1.000E+OOl 134 3716 SGRT-MV-PG-RT6 L 4.000E-005 l.OOOE+001 134 3717 SGRT-MV-PG-RT8 L 4.000E-005 1.000E+OOl 134 3718 SGRT-PMP-FR-RTlA L 7.200E-004 1.000E+001 57 3719 SGRT-PMP-FR-RT1B L 7.200E-004 1. 'OOOE+001 57 3720 SGRT-PMP-FR-RTlC L 7.200E-004 1.000E+001 57 3721 SGRT-PMP-FS-RTlA L 3.000E-003 l.OOOE+OOl 65 3722 SGRT-PMP-FS-RT1B L 3.000E-003 l.OOOE+OOl 65 3723 SGRT-PMP-FS-RTlC L 3.000E-003 1.000E+OOl 65 3724 SGRT-PMP-MA-RTlA L 1.000E-003 1. OOOE+OOl 3725 SGRT-PMP-MA-RT1B L 1. OOOE-003 1.000E+OOl 3726 SGRT-PMP-MA-RTlC L 1.000E-003 l.OOOE+OOl 3727 SGRT-SGA L +O.OOOE+OOO l.OOOE+OOl 

.3728 SGRT-SGB                   L        +O.OOOE+OOO     1.000E+OOl 3729 SGRT-SGC                   L        +O.OOOE+OOO     1.000E+OOl 3730 SGRT-XHE-FS-100            L        +O.OOOE+OOO     3.000E+OOO 3731 SGRTl                      L         1. OOOE+OOO    1. OOOE+OOO 3732 SGRT2                      L         1.000E+OOO     1. OOOE+OOO 3733 SGRT2A                     L         l.OOOE+OOO     1.000E+OOO 3734 SGRT2B                     L         1.000E+OOO     1.000E+OOO 3735 SGRT2C                     L         1.000E+OOO     1.000E+OOO

' 3736 SGRT4A L 1.000E+OOO 1.000E+OOO 3737 SGRT4B L 1.000E+OOO 1.000E+OOO 3738 SGRT4C L 1.000E+OOO 1.000E+OOO 3739 SGRT5 L 1.000E+OOO 1.000E+OOO 3740 SGRTA L l.OOOE+OOO 1.000E+OOO 3741 SGRTB L 1.000E+OOO 1.000E+OOO 3742 SGRTC L 1.000E+OOO 1.000E+OOO 3743 .SGS-DRAINED- CSD L 1.000E-003 1.000E+001 3744 SGS-DRAINED-R L 8.300E-003 1.000E+001 1993/09/28 11:48:16 page 78 N-78

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3745 SIA-A L 1. OOOE+OOO l.OOOE+OOO 3746 SIA-B L 1.000E+OOO 1.000E+OOO 3747 SIS-ACT-FA-SISA L +O.OOOE+OOO +O.OOOE+OOO 1 3748 SIS-ACT-FA-BI SB L +O.OOOE+OOO +O.OOOE+OOO 1 3749 SL L 7.300E-001 1.000E+OOO 3750 SL1R6 L l.OOOE+OOO 1. OOOE+OOO 3751 SL1R6A L l.OOOE+OOO l.OOOE+OOO 3752 SLlWl L l.OOOE+OOO 1.000E+OOO 3753 SLlWl-13 L l.OOOE+OOO 1. OOOE+OOO 3754 SLlWl-17 L 1. OOOE+OOO l.OOOE+OOO 3755 SL1W2 L 1.000E+OOO l.OOOE+OOO 3756 SL1W2-13 L 1.000E+OOO 1. OOOE+boo 3757 SL1W2-17 L 1.000E+OOO 1.000E+OOO 3758 SL1W3 L 1.000E+OOO 1.000E+OOO 3759 SL1W3-5 L 1.000E+OOO 1. OOOE+OOO

  • 3760 SL1W3-8 L 1.000E+OOO 1. OOOE+OOO 3761 SL1W4 L 1.000E+OOO 1. OOOE+OOO 3762 SL1W4-5 L 1. OOOE+OOO 1. OOOE+OOO 3763 SL1W4-8 L 1.000E+OOO l.OOOE+OOO 3764 SL2R6 L l.OOOE+OOO 1. OOOE+OOO 3765 SL2R6A L l.OOOE+OOO l.OOOE+OOO 3766 SL2Wl L 1.000E+OOO 1.000E+OOO
 *3767 . SL2Wl-13                  L         1.000E+OOO      1. OOOE+OOO 3768 SL2Wl-17                   L         l.OOOE+OOO       l.OOOE+OOO 3769 SL2W2                      L         1.000E+OOO      1. OOOE+OOO 3770 SL2W2-13                   L         1.000E+OOO      1. OOOE+OOO 3771 SL2W2-17                   L        *1.000E+OOO. l.OOOE+OOO 3772 SL2W3                      L         l.OOOE+OOO       l.OOOE+OOO 3773 SL2W3-5                    L         1.000E+OOO      l.OOOE+OOO 3774 SL2W3-8                    L         1.000E+OOO      1. OOOE+OOO 3775 SL2W4                      L         1.000E+OOO     *l.OOOE+OOO 3776 SL2W4-5                    L         1. OOOE+OOO     l.OOOE+OOO 3777 SL2W4-8                    L         1.000E+OOO      l.OOOE+OOO 3778 SL3R6                      L         1.000E+OOO       l.OOOE+OOO 3*779 SL3Wl                     L         1.000E+OOO      1. OOOE+OOO 3780 SL3Wl-13                   L         1.000E+OOO       l.OOOE+OOO 3781 SL3Wl-17                   L         l.OOOE+OOO      1. OOOE+OOO 3782 SL3W2                      L         1. OOOE+OOO     l.OOOE+OOO 3783 SL3W2-13,                  L         1.000E+OOO      1.000E+OOO 3784 SL3W2-17                   L         1.000E+OOO       l.OOOE+OOO 3785 SL3W3                      L         1. OOOE+OOO     1.000E+OOO 3786 SL3W3-5                    L         1.000E+OOO       l.OOOE+OOO 3787 SL3W3-8.                   L         l.OOOE+OOO       l.OOOE+OOO 3788 SL3W4                      L         l.OOOE+OOO      1.000E+OOO 3789 SL3W4-5                    L         l.OOOE+OOO       l.OOOE+OOO 3790 SL3W4-8                    L         l.OOOE+OOO       l.OOOE+OOO 3791 SLOCA-NRACSL-LT            L         9.200E-002       l.OOOE+OOO      177 3792 SLOCA-NRACSL-ST            L         9.900E-002       l.OOOE+OOO      178 1993/09/28                     11:48:16                          page     79 N-79

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 3793 SOLAIR-COMP L 1. 632E-001 l.OOOE+OOO 3794 SP-SI-CLSI-HE L +O.OOOE+OOO l.OOOE+OOO 3795 SR3R6 L l.OOOE+OOO l.OOOE+OOO 3796 SR3Wl L l.OOOE+OOO l.OOOE+OOO 3797 SR3W2 L l.OOOE+OOO 1. OOOE+OOO 3798 SR3W3 L l.OOOE+OOO l.OOOE+OOO 3799 SR3W4 L l.OOOE+OOO l.OOOE+OOO 3800 SR4R6 L 1. OOOE+OOO l.OOOE+OOO 3801 SR4Wl L 1.000E+OOO 1.000E+OOO 3802 SR4W2 L 1.000E+OOO 1.000E+OOO 3803 SR4W3 .L l.OOOE+OOO l.OOOE+OOO 3804 SR4W4

  • L 1.000E+OOO 1. OOOE+OOO 3805 SRSR6 L 1. OOOE+OOO l.OOOE+OOO 3806 SRSWl L l.OOOE+OOO 1. OOOE+OOO 3807 SRSW2 L 1.000E+OOO 1.000E+OOO 3808 SRSW3 L l.OOOE+OOO l.OOOE+OOO 3809 SRSW4 L 1.000E+OOO 1.000E+OOO 3810 SRAR6 L 1. OOOE+OOO 1.000E+OOO 3811 SRAR6-16 L 1.000E+OOO l.OOOE+OOO 3812 SRBR6 L 1. OOOE+OOO 1.000E+OOO 3813 SRBR6-16 L l.OOOE+OOO 1.000E+OOO 3814 SSHR-AOV-XHE-105 L 1. 300E-002 1.000E+OOO 3815 SSHRO I L l.OOOE+OOO 1.000E+OOO 3816 SSHRl L l.OOOE+OOO l.OOOE+OOO 3817 SSHR18 L l.OOOE+OOO 1. OOOE+OOO 3818 SSHR19 L 1. OOOE+OOO l.OOOE+OOO 3819 SSHR20 L l.OOOE+OOO 1.000E+OOO 3820 SSHR3 L 1.000E+OOO 1.000E+OOO 3821 SSHR5 L l.OOOE+OOO 1.000B+OOO 3822 SSHR6 L 1.000E+OOO l.OOOE+OOO 3823 SSHR7 L 1. OOOE+OOO 1.000E+OOO 382_4 SSHR8 L l.OOOE+OOO 1.000E+OOO 3825
  • SSHR9 L 1. OOOE+OOO 1.000E+OOO 3826 SSHWl L 1.000E+OOO 1. OOOE+OOO 3827 SSHWlA L 1. OOOE+OOO 1.000E+OOO 3828 SSHW23 L 1. OOOE+OOO 1.000E+OOO 3829 SSHW4 L 1. OOOE+OOO l.OOOE+OOO 3830 SSRWl L 1.000E+OOO 1.000E+OOO 3831 SSRW2 L l.OOOE+OOO 1. OOOE+OOO 3832 SSRW3 L 1.000E+OOO 1. OOOE+OOO 3833 SSRW4 L 1.000E+OOO 1.000E+OOO 3834 SUMPPLUG L 1.000E+OOO 1.000E+OOO 3835 SV-Wl L l.OOOE+OOO 1.000E+OOO 3836 SV-W2 L 1.000E+OOO 1.000E+OOO 3837 SV-W3 L 1.000E+OOO 1.000E+OOO 3838 SV-W4 L 1.000E+OOO 1.000E+OOO 3839 SVBWl L 1.000E+OOO 1.000E+OOO 3840 SVBWl-17 L 1.000E+OOO 1.000E+OOO 1993/09/28 11:48:16 page 80 N-80

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3841 SVBWl-8 L 1.000E+OOO l.OOOE+OOO 3842 SVBW2 L 1.000E+OOO 1.000E+OOO 3843 SVBW2-17 L 1.000E+OOO l.OOOE+OOO 3844 SVBW2-8 L 1.000E+OOO l.OOOE+OOO 3845 SVBW3 L 1.000E+OOO l.OOOE+OOO 3846 SVBW3-4 L 1.000E+OOO l.OOOE+OOO 3847 SVBW3-8 L 1.000E+OOO l.OOOE+OOO 3848 SVBW4 L 1.000E+OOO l.OOOE+OOO 3849 SVBW4-4 L 1.000E+OOO l.OOOE+OOO 3850 SVBW4-8 L l.OOOE+OOO 1.000E+OOO 3851 SW-AOV-FT-SW263 L l.OOOE+OOO 1.000E+OOO 3852 SW-AOV-SC-SW263 L 7.500E-007 3.000E+OOO 7 3853 SW-CCF-AIRINJ L 3.200E-004 l.OOOE+OOO 3854 SW-CCF-SC-MOV102 L 2.500E-004 l.OOOE+OOO 3855 SW-CKV-PG6-SW333 L 6.000E-007 3.000E+OOO 3856 SW-PIPE-MA-2PS3 L 1.200E-005 3.000E+OOO IPE6 3857 SW-PIPE-MA-PS4 L l.200E-005 3.000E+OOO IPE6 3858 SW-STR-PL-TS15CA L 7.200E-004 l.OOOE+001 85 3859 SW-STR-PL-TS15CC L 7.200E-004 1.000E+001 85 3860 SW-TBFLOWDIVER L 2.664E-006 l.OOOE+001 3861 SWS-AOV-SC-lOOA L 1.200E-005 3.000E+OOO IPE6 3862 SWS-AOV-SC-100C L 1.200E-005 3.000E+OOO IPE6 3863 SWS-CCF-FT-3ABCD L 6.300E-004 l.OOOE+OOl 3864 SWS-CCF-PG-TS15C L 1.900E-004 1.000E+OOl

  • 3865 SWS-CKV-FT-SW323 L 1.000E-004 3.000E+OOO 31 3866 SWS-CKV-PG-SW313 L 2.400E-006 3.000E+OOO 201 3867 SWS-CKV-PG-SW333 L 2.400E-006 3.000E+OOO 201 3868 SWS-HTX-MA-ElB L 4.781E-001 l.OOOE+OOO 3869 SWS-MOV-F'I;-103A L 3.000E-003 l.OOOE+001 69 3870 SWS-MOV-FT-103B L 3.000E-003 l.OOOE+OOl 69 3871 SWS-MOV-FT-103C L 3.000E-003 l.OOOE+OOl 69 3872 SWS-MOV-FT-103D L 3.000E-003 1.000E+OOl 69 3873 SWS-MOV-MA-103A L 2.000E-004 1.000E+OOl 70 3874 SWS-MOV-MA-103B L 2.000E-004 1.000E+OOl 70 3875 SWS-MOV-MA-103C L 2.000E-004 1.000E+OOl 70 3876 SWS-MOV-MA-103D L 2.000E-004 1.000E+OOl 70 3877 SWS-MOV-MA-104D L +O.OOOE+OOO 1.000E+OOO 3878 SWS-MOV-MA0103A L 2.000E-004 1.000E+001 70 3879 SWS-MOV-MA0104D L +O.OOOE+OOO 1.000E+OOO 3880 SWS-MOV-OP-RSFP L 1.440E-003 1.000E+001 308 3881 SWS-MOV-OP-RSS L 1.440E-003 1.000E+OOl 308 3882 SWS-MOV-PG-104A L 6.500E-004 3.000E+OOO 72 3883 SWS-MOV-PG-104B L 6.500E-004 3.000E+OOO 72 3884 SWS-MOV-PG-104C L 6.500E-004 3.000E+OOO 72 3885 SWS-MOV-PG-104D L 6.500E-004 3.000E+OOO 72 3886 SWS-MOV-PG-105A L 6.500E-004 3.000E+OOO 72 3887 SWS-MOV-PG-105B L 6.500E-004 3.000E+OOO 72 3888 SWS-MOV-PG-105C L 6.500E-004 3.000E+OOO 72 1993/09/28 11:48:16 page 81 N-81

Event Number Primary Name BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Distribution Type Case: ALTERNATE Mean Probability Uncertainty Value Class Correlation 3889 SWS-MOV-PG-105D L 6 .500E-004 3.000E+OOO 72 3890 SWS-MOV-PG-106A L 6.500E-004 3.000E+OOO 72 3891 SWS-MOV-PG-106B L 6.500E-004 3.000E+OOO 72 3892 SWS-PCV-FT-lOOB L 1.000E-003 3.000E+OOO 5 3893 SWS-STR-FG-TS15C L 1.080E-002 3.000E+OOO 3894 SWS-XHE-AP12 L 1.000E+OOO 1. OOOJ;i:+001 3895 SWS-XHE-AP12.00 L 1.000E+OOO 1.000E+OOO 3896 SWS-XVM-PG-37U2 L 4.000E-005 1.000E+OOl 134 3897 SWS-XVM-PG-39U2 L 4.000E-005 1.000E+OOl 134 3898 SWS-XVM-PG,.SW321 L 4.000E-005 1.000E+OOl 134 3899 SWS-XVM-PG~SW324 L 4.000E-005 1.000E+OOl 134 3900 SWS-XVM-PG-XV33 L 4.000E-005 1.000E+OOl 134 3901 SWS-XVM-PG-XV35 L 4.000E-005 1.000E+OOl 134 3902 SWS-XVM-PG-XV37 L 4.000E-005 1.000E+OOl 134 3903 SWS-XVM-PG-XV39 L 4.000E-005 1.000E+OOl 134 3904 SWS10 L l.OOOE+OOO 1.000E+OOO 3905 SWS12 L l.OOOE+OOO 1.000E+OOO 3906 SWS13 L l.OOOE+OOO l.OOOE+OOO 3907 SWS5

  • L 1.000E+OOO 1.000E+OOO 3908 SWS6 L l.OOOE+OOO 1.000E+OOO 3909 SWS9 L l.OOOE+OOO l.OOOE+OOO 3910 T L l.OOOE+OOO 1.000E+OOO 3911 T-TOP L 6.600E+OOO 3.000E+OOO 3912 TB-FREQ-VSFM06 L 2.200E-002 1.000E+OOO 3913 TIA L l.OOOE+OOO 1.000E+OOO 3914 TIA-CSD L l.OOOE+OOO 1.000E+OOO 3915 TRANS4 L 1.000E+OOO 1.000E+OOO 3916 TRANS8 L 1.000E+OOO l.OOOE+OOO 3917 UNIT2-LOW-POWER L 3.500E-001 l.OOOE+OOO 3918 UNITY L 1.000E+OOO l.OOOE+OOO 3919 VBlRlO L 1.000E+OOO 1.000E+OOO 3920 VB1R6 L 1.000E+OOO 1.000E+OOO 3921 VENTL12 L 1.000E+OOO 1.000E+OOO 3922 VLlRlO L 1.000E+OOO 1.000E+OOO 3923 VL1R6 L 1.000E+OOO 1.000E+OOO 3924 VL2R10 L 1.000E+OOO 1.000E+OOO 3925 VL2R6 L l.OOOE+OOO 1.000E+OOO 3926 VL3R10 L l.OOOE+OOO 1.000E+OOO 3927 VL3R6 L 1.000E+OOO 1.000E+OOO 3928 VR3R10 L 1.000E+OOO 1.000E+OOO 3929 VR3R6 L 1.000E+OOO 1.000E+OOO 3930 VR4R10 L 1.000E+OOO 1.000E+OOO 3931 VR4R6 L 1.000E+OOO 1.000E+OOO 3932 VR5R10 L 1.000E+OOO 1.000E+OOO 3933 VR5R6 L 1.000E+OOO l.OOOE+OOO 3934 VRARlO L l.OOOE+OOO l.OOOE+OOO 3935 VRAR6 L l.OOOE+OOO 1.000E+OOO 3936 VRBRlO L l.OOOE+OOO l.OOOE+OOO 1993/09/28 11:48:16 page 82 N-82

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3937 VRBR6 L l.OOOE+OOO l.OOOE+OOO 3938 VS-AHU-FX-VSAC6 L 7. 621E-003 3.000E+OOO 3939 VS-AHU-LF-VSAC6 L 3.432E-005 l.OOOE+OOl IPE7 3940 VS-AHU-LF-VSAC7 L 3.432E-005 l.OOOE+OOl IPE7 3941 VS-AHU-LF7-VSAC7 L l.201E-004 3.000E+OOO 3942 VS-AHU-MA-:vsAC6 L +O.OOOE+OOO 3.000E+OOO IPE 3943 VS-AHU-MA-VSAC7 L 3.750E-003 3.000E+OOO IPE 3944 VS-BCFLOWDIVER L 2.664E-006 l.OOOE+OOl 3945 VS-CCF-FT-PABC L l.080E-004 l.OOOE+OOl 3946 VS-CHL-FR-VSE3A L 3.600E-003 1.000E+OOl IPE8 3947 VS-CHL-FR-VSE3B L 3.600E-003 l.OOOE+OOl IPE8 3948 VS-CHL-FR-VSE4A L 3.600E-003 l.OOOE+OOl IPE8 3949 VS-CHL-FR-VSE4B L 3.600E-003 1.000E+OOl IPE8 3950 VS-CHL-FR-VSE4C L 3.600E-003 1.000E+OOl IPE8 3951 VS-CHL-FR6-VSE4C L 9.000E-004 l.OOOE+OOl 3952 VS-CHL-FR7-VSE4B L 5.400E-002 l.OOOE+OOl 3953 VS-CHL-FS-VSE4B L 3.900E-003 l.OOOE+OOO 3954 VS-CHL-MA-VSE4B L +O.OOOE+OOO 3.000E+OOO 3955 VS-CHL-MAOVSE4B L +O.OOOE+OOO 3.000E+OOO 3956 VS-CKV-FT-VS292 L l.OOOE-004 3.000E+OOO 31 3957 VS-CKV-PG-VS271 L 2.400E-006 3.000E+OOO 201 3958 VS-CKV-PG-VS276 L 2.400E-006 3.000E+OOO 201 3959 VS-CKV-PG-VS288 L 2.400E-006 3.000E+OOO 201 3960 VS-CKV-PG-VS296 L 2.400E-006 3.000E+OOO 201 3961 VS-CKV-PG6-VS296 L 6.000E-007 3.000E+OOO 3962 VS-EVC-FR-VSElA L 3.600E-003 1.000E+OOl IPE9 3963 VS-EVC-FR-VSElB L 3.600E-003 1.000E+OOl IPE9 3964 VS-FMO-FR-FM06 G 9.864E-005 1.600E+OOO 3965 VS-FMO-FR-FM07 G 9.864E-005 1.600E+OOO 3966 VS-FMO-FR7-FM07 G 3.452E-004 l.600E+OOO 3967 VS-FMO-FS-FM06 L 3. 90'0E-003 3.000E+OOO IPEO 3968 VS-FMO-FS-FM07 L 3.900E-003 3.000E+OOO IPEO 3969 VS-FRQ-MA-VSE4A L 3.410E+OOO 1.000E+OOO 3970 VS-MDF-FR-VSPlB L 7.200E-004 1. OOOE+oo*1 57 3971 VS-MDF-FR-VSPlC L 7.200E-004 l.OOOE+OOl 57 3972 VS-MDP-FR-VSPlA L 7.200E-004 1.000E+OOl 57 3973 VS-MDP-FR-VSP2A L 7.200E-004 l.OOOE+OOl 57 3974 VS-MDP-FR-VSP2B L 7.200E-004 1.000E+OOl 57 3975 VS-MDP-FR-VSP2C L 7.200E-004 1.000E+OOl 57 3976 VS-MDP-FR-VSP3A L 7.512E-004 3.000E+OOO IPl 3977 VS-MDP-FR-VSP3B L 7.512E-004 3.000E+OOO IPl 3978 VS-MDP-FR6-VSP1C L 1.800E-004 1.000E+OOl 60 3979 VS-MDP-FR6-VSP2C L l.800E-004 1.000E+OOl 60 3980 VS-MDP-FR7-VSP1B L l.OSOE-002 3.000E+OOO IP2 3981 VS-MDP-FR7-VSP2B L l.080E-002 3.000E+OOO IP2 3982 VS-MDP-FS-VSPlB L 3.000E-003 1.000E+OOl 65 3983 VS-MDP-FS-VSP2B L 3.000E-003 1.000E+OOl 65 3984 VS-MOV-FT-PG107B L 3.000E-003 l.OOOE+OOl 1993/09/28 11:48:16 page 83

  • N-83

BASIC EVENTS UNCERTAINTY VALUES REPORT Family: RHRTEST Case: ALTERNATE Event Distribution Mean Uncertainty Correlation Number Primary Name Type Probability Value Class 3985 VS-MOV-SC-Pl07A L l.200E-005 3.000E+OOO IPE6 3986 VS-MOV-SC-Pl07C L l.200E-005 3.000E+OOO IPE6 3987 VS-l\1SW-NO-TRAN1 L 2.660E-005 3.000E+OOO IP3 3988 VS-SW-CO-ACGRlB L 2.660E-005 3.000E+OOO IP3 3989 VS-XHE-FO-'-E018 L l.OOOE+OOO l.OOOE+OOO

  • 3990 VS-XHE-FO-FCAlO* L l.OOOE+OOO l.OOOE+OOO 3991 VS-XVM-FT-VS247 L 3.600E-005 3.000E+OOO 198 3992 VS-XVM-FT-VS251 L 3. 60.0E-005 3.000E+OOO 198 3993 VS-XVM-PG-VS291 L 3.600E-005 3.000E+OOO 198 3994 VS-XVM-PG-VS294 L 3.600E-005 3.000E+OOO 198 3995 VS1 L l.OOOE+OOO 1. OOOE.+00.0 3996 VSIN L l.OOOE+OOO l.OOOE+OOO 3997 VWl L l.OOOE+OOO l.OOOE+OOO 3998 VW2 L l.OOOE+OOO l.OOOE+OOO 3999 VW3 L l.OOOE+OOO l.OOOE+OOO 4000 VW4 L l.OOOE+OOO l.OOOE+OOO 4001* w L l.OOOE+OOO l.OOOE+OOO 4002 W2 L l.OOOE+OOO l.OOOE+OOO 4003 W3 L l.OOOE+OOO l.OOOE+OOO 4004 W3-S L l.OOOE+OOO l.OOOE+OOO 4005 WINDOWl L l.OOOE+OOO l.OOOE+OOO 4006 WINDOW2 L l.OOOE+OOO 1. OOOE+OOO 4007 XXX L l.OOOE+OOO 1.000E+OOO 4008 y L l.OOOE+OOO l.OOOE+OOO 4009 z L 1. 400E-002 7.000E+OOO 181 4010 Zl H 5.000E-001 3.400E+001 1993/09/28 11:48:16 page 84 N-84

Appendix N.2 Basic Event Descriptions (only for those basic events appearing in the final Core Damage Frequency cutsets) N-85

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number secondary Name Descript. Hazard Flag Type System Location Mode 1 A-CTlWl-XHE-C-8 A-CTlWl-XHE-C-8 OPER FAILURE TO INITIATE RECIRC IN WINDOW 1 OF CTl 2 A-CTlWl-XHE-FH-9 A-CTlWl-XHE-FH-9 OPER FAIL TO INITIATE HPI IN WINDOW 1 OF CTl 3 A-CTlWl-XHE-FL-9 A-CTlWl-XHE-FL-9 OPER FAIL TO INITIATE LPI IN WINDOW 1 OF CTl 4 A-CT1W2-XHE-X A-CT1W2-XHE-X OPER FAIL TO X-CONNECT RWSTS IN WINDOW 2 OF CT2 5 A-CT2Wl-XHE-C-8 A-CT2Wl-XHE-C-8 6 A-CT2Wl-XHE-FL-9 A-CT2Wl-XHE-FL-9 7 A-CT2Wl-XHE-S1-8 A-CT2Wl-XHE-S1-8 OPER FAIL OF BLEED PATH OF REFLUX IN WINDOW 1 OF CT2 8 A-CT2W2-XHE-FL-9 A-CT2W2-XHE-FL-9 9 A-CT2W2-XHE-S1-8 A-CT2W2-XHE-S1-8 10 A-CT2W2-XHE-X A-CT2W2-XHE-X 11 A-CT2WJ-XHE-FL-J A-CT2W3-XHE-FL-3 12 A-ElWl-XHE-FL-19 A-ElWl-XHE-FL-19 13 A-ElWl-XHE-R-12 A-ElWl-XHE-R-12 OPER FAIL TO INITIATE RHR IN WINDOW 1 OF El SCENARIO 14 A-E1W2-XHE-FL-14 A-E1W2-XHE-FL-14 15 A-E1W2-XHE-FL-19 A-ElW2-XHE-FL-19 16 A-E1W2-XHE-R-12 A-E1W2-XHE-R-12 1994/01/27 21:37:16 page l N-86

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary N~me Comp. ID Init/ Process Fail Number secondary Name Descript. Hazard Flag Type System Location Mode 17 A-ElWJ-XHE-FL-10 A-ElWJ-XHE-FL-10 SEE PAGE 1 FOR ANALOGY 18 A-E1W3-XHE-FL-13 A-E1W3-XHE-FL-13 19 A-ElWJ-XHE-R-9 A-E1W3-XHE-R-9 20 A-E1W4-XHE-FL-10 A-E1W4-XHE-FL.;.10 21 A-E1W4-XHE-FL-13 A-E1W4-XHE-FL-13 22 A-E1W4-XHE-R-9 A-ElW4-XHE-R-9 23 A-E2Wl-XHE-FL-10 A-E2W1-XHE-FL-10 24 A-E2Wl-XHE-FL-19 A-E2Wl-XHE-FL-19 25 A-E2Wl-XHE-R-12 A-E2Wl-XHE-R-12 26 A-E2Wl-XHE-R-3 A-E2Wl-XHE-R-3 27 A-E2W2-XHE-FL-10 A-E2W2-XHE-FL-10 28 A-E2W2-XHE-FL-19 A-E2W2-XHE-FL-19 29 A-E2W2-XHE-FL-5 A-E2W2-XHE-FL-5 30 A-E2W2-XHE-R-12 A-E2W2-XHE-R-12 31 A-E2W2-XHE-R-3 A-E2W2-XHE-R-3 32 A-E2W3-XHE-FL-10 A-E2W3-XHE-FL-10 1994/01/27 21:37:16 page 2

  • N-87

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location. Mode 33 A-E2W3-XHE-FL-13 A-E2W3-XHE-FL-13 34 A-E2W3-XHE-FL-4 A-E2W3-XHE-FL-4 35 A-E2W3-XHE-FL-7 A-E2W3-XHE-FL-7 SEE PAGE 1 FOR ANALOGY 36 A-E2W3-XHE-R*!'r3 A-E2W3-XHE-R-3 37 A-E2W3-XHE-R-9 A-E2W3-XHE-R-9 38 A-E2W4-XHE-FL-13 A-E2W4-XHE-FL-13. 39 A-E2W4-XHE-FL-4 A-E2W4-XHE~FL-4 40 A-E2W4-XHE-FL-7 A-E2W4-XHE-FL-7 41 A-E2W4-XHE-R-3 A-E2W4-XHE-R-3 42 A-E3Wl-XHE-FL-10 A-E3Wl-XHE-FL-10 43 A-E3Wl-XHE-FL-19 A-E3Wl-XHE-FL-19 44 A-E3Wl-XHE-R-12 A-E3Wl-XHE-R-12 45 A-E3Wl-XHE-R-3 A-E3Wl-XHE-R-3 46 A-E3W2-XHE-FL-10 A-E3W2-XHE-FL-10 47 A-E3W2-XHE-FL-19 A-E3W2-XHE-FL-19 48 A-E3W2-XHE-FL-5 A-E3W2-XHE-FL-5 1994/01/27 21:37:16 page 3 N-88

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary N"~me Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location Mode 49 A-E3W2-XHE-R-12 A-E3W2-XHE-R-12 50 A-E3W2-XHE-R-3 A-E3W2-XHE-R-3 51 A-E3W3-XHE-FL-10 A-E3W3-XHE-FL-10 52 A-E3W3-XHE-FL-13 A-E3W3-XHE-FL-13 53 A-E3W3-XHE-FL-4 A-E3W3-XHE-FL-4 SEE PAGE 1 FOR ANALOGY 54 A-E3WJ-XHE-FL-7 I A-E3W3-XHE-FL-7 55 A-E3W3-XHE-R-3 A-E3W3-XHE-R-3 56 A-EJW3-XHE-R-9 A-EJWJ-XHE-R-9 57 A-E3W4-XHE-FL-i3 A-EJW4-XHE-FL-13 58 A-EJW4-XHE-FL-4 A-E3W4-XHE-FL-4 59 A-EJW4-XHE-FL-7 A-EJW4-XHE-FL-7 60 A-EJW4-XHE-R-3 A-EJW4-XHE-R-3 61 A-E6Wl-XHE-FL-9 A-E6Wl-XHE-FL-9 62 A-E6W2-XHE-FL-4 A-E6W2-XHE-FL-4 63 A-E6W2-XHE-FL-9 A-E6W2-XHE-FL-9 64 A-E6W3-XHE-FL-3 A-E6W3-XHE-FL-3 1994/01/27 21:37:16 page 4 N-89

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary N~me Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type Syatem Location Mode 65 A-E6W3-XHE-FL-7 A-E6W3-XHE-FL-7 66 A-E6W4-XHE-FL-4 A-E6W4-XHE-FL-4 67 A-E6W4-XHE-FL-7 A-E6W4-XHE-FL-7 68 A-E7Wl-XHE-FL-19 A-E7Wl-XHE-FL-19 69 A-E7Wl-XHE-S2-17 A-E7Wl-XHE-S2-17 OPER FAIL OF FEED PATH RFLX IN WINDOW 1 OF E7 SCENARIO 70 A-E7W2-XHE-FL-14 A-E7W2-XHE-FL-14 71 A-E7W2-XHE-FL-19 A-E7W2-XHE-FL-19 72 A-E7W2-XHE-Sl-17 A-E7W2-XHE-Sl-17 73 A-E7W2-XHE-S2-17 A-E7W2-XHE-S2-17 74 A-E7W3-XHE-FL-10 A-E7W3-XHE-FL-10 75 A-E7W3-XHE-FL-13 A-E7W3-XHE-FL-13 SEE PAGE 1 FOR ANALOGY 76 A-E7W3-XHE-S2-8 A-E7W3-XHE-S2-8 77 A-E7W4-XHE-FL-10 A-E7W4-XHE-FL-10 78 A-E8Wl-XHE-2CH-8 A-E8Wl-XHE-2CH-8 79 A-ESWl-XHE-CW-8 A-ESWl-XHE-CW-8 80 A-E8W2-XHE-2CH-4 A-E8W2-XHE-2CH-4 1994/01/27 21:37:16 page 5 N-90

BASIC EVENTS OVERVIEW REPORT Fctmily: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descrfpt. Hazard Flag Type System Location Mode 81 A-E8W2-XHE-2CH-8 A-E8W2-XHE-2CH-8 OPER FAILS TO X-CONN CHARG IN W2 OF ES (Ul BLACKOUT) 82 A-E8W2-XHE-CW-4 A-E8W2-XHE-CW-4 OPER FAIL TO ISOLATE CIR~ WATER CONDENSER VLVS, W2-E8 83 A-E8W2-XHE-CW-8 A-E8W2-XHE-CW-8 8~ A-E8W3-XHE-2CH-4 A-E8W3-XHE-2CH-4 85 A-E8W3-XHE-2CH-8 A-E8W3-XHE-2CH-8 86 A-E8W3-XHE-CW-4 A-EBWJ-XHE-CW-4 87 A-E8W3-XHE-CW-8 A-E8W3-XHE-CW-8, 88 A-E8W4-XHE-2CH-5 A-E8W4-XHE-2CH-5 89 A-E8W4-XHE-2CH-8 A-E8W4-XHE-2CH-8 90 A-E8W4-XHE-CW-5 A-E8W4-XHE-CW-5 91 A-E8W4-XHE-CW-8 A-E8W4-XHE-CW-8 92 A-E9Wl-XHE-FH-10 A-E9Wl-XHE-FH-10 SEE PAGE 1 FOR ANALOGY 93 A-E9Wl-XHE-FL-10 A-E9Wl-XHE-FL-10 94 A-E9Wl-XHE-R-4 A-E9Wl-XHE-R-4 95 A-EAWl-XHE-FL-10 A-EAWl-XHE-FL-10 96 A-EAWl-XHE-FL-19 A-EAWl-XHE-FL-19 1994/01/27 21:37:16 page 6 N-91

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary.Name Descript. Hazard Flag Type system Location Mode 97 A-EAW1-XHE-R-12 A-EAW1-XHE-R-12 98 A-EAW1-XHE-R-3 A-EAW1-XHE-R-3 99 A-EAW2-XHE-FH-19 A-EAW2-XHE-FH-19 100 A-EAW2-XHE-FL-19 A-EAW2-XHE-FL-19 101 A-EAW2-XHE-R-12 A-EAW2-XHE-R-12 102 A-EAWJ-XHE-FL-10 A-EAWJ-XHE-FL-10 103 A-EAWJ-XHE-FL-13 A-EAWJ-XHE-FL-13 SEE PAGE 1 FOR ANALOGY; EA STANDS FOR ElJA SCENARIO 104 A-EAW3-XHE-R-9 A-EAW3-XHE-R-9 105 A-EAW4-XHE-FL-10 A-EAW4-XHE-FL-10 106 A-EAW4-XHE-FL-13 A-EAW4-XHE-FL-13 107 A-EAW4-XHE-R-9 A-EAW4-XHE-R-9 108 A-EBW1-XHE-FL-19 A-EBWl-XHE-FL-19 109 A-EBWl-XHE-R-12 A-EBWl-XHE-R-12 110 A-EBW2-XHE-FL-14 A-EBW2-XHE-FL-14 SEE PG 1 FOR ANALOGY; EB STANDS FOR El3B SCENARIO 111 A-EBW2-XHE-FL-19 A-EBW2-XHE-FL-19 112 A-EBW2-XHE-R-12 A-EBW2-XHE-R-12 1994/01/27 21:37:16 page 7 N-92

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number secondary *Name Descript. Hazard Flag Type System Location Mode 113 A-EBWJ-XHE-FL-10 A-EBWJ~XHE-FL-10 114 A-EBWJ-XHE-FL-13 A-EBWJ-XHE-FL-13 115 A-EBWJ-XHE-R-9 A-EBWJ-XHE-R-9 116 A-EBW4-XHE-FL-10 A-EBW4-XHE-FL-10 117 A-EBW4-XHE-FL-13 A-EBW4-XHE-FL-13 118 A-EBW4-XHE-R-9 A-EBW4-XHE-R-9 119 A-ECWl-XHE-C-18 A-ECWl-XHE-C-18 i20 A-ECWl-XHE-FL-19 A-ECWl-XHE-FL-19 SEE ABOVE FOR ANALOGY1 EB STANDS FOR El3B 21 A-ECW1-XHE-S2-17 A-ECW1-XHE-S2-17 122 A-ECW2-XHE-C-13 A-ECW2-XHE-C-13 123 A-ECW2-XHE-FL-19 A-ECW2-XHE-FL-19 124 A-ECW2-XHE-S2-17 A-ECW2-XHE-S2-17 125 A-ECW2-XHE-X A-ECW2-XHE-X 126 A-ECWJ-XHE-FL-10 A-ECWJ-XHE-FL-10 127 A-Ml3Wl-XHE-FH-l A-Ml3Wl-XHE-FH-l 128 A-Ml3Wl-XHE-R-3 A-Ml3Wl-XHE-R-3. 1994/01/27 21:37:16 page 8 N-93

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 129 A-M13W2-XHE-R-3 A-M13W2-XHE-R-3 130 A-M13W3-XHE-R-3 A-Ml3W3-XHE-R-3 131 A-MlWl-XHE-FH-9 A-MlWl-XHE-FH-9 132 A-MlWl-XHE-FL-9 A-MlWl-XHE-FL-9 133 A-MlW2-XHE-FH-9 

     . A-M1W2-XHE-FH-9 134   A-MlW2-XHE-FL-9 A-MlW2-XHE-FL-9 135   A-M1W2-XHE-Sl-8 A-M1W2-XHE-S1-B 136   A-MlW3-XHE-FH-3 A-M1W3.;.XHE-FH-3 137   A-MlW3-XHE-FH-7 A-M1W3-XHE-FH-7
  • 138 A-MlW3-XHE-FL-3 A-MlW3-XHE-FL-3 SEE ABOVE FOR ANALOGY 139 A-MlW3-XHE-FL-7 A-MlW3-XHE-FL-7 140 A-M1W3-XHE-Sl-7 A-M1W3-XHE-S1-7 141 A-M3Wl-XHE-FH-10 A-M3Wl-XHE-FH-10 142 A-M3Wl-XHE-R-12 A-M3Wl-XHE-R-12 143 A-M3Wl-XHE-R-3 A-MJWl-XHE-R-3 144 A-M3W2-XHE-FH-10 A-M3W2-XHE-FH-10 1994/01/27 21:37:16 page 9 N-94

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 145 A-M3W2-XHE-FH-5 A-M3W2-XHE-FH-5 146 A-M3W2-XHE-FL-10 A-M3W2-XHE-FL-10 147 A-M3W2-XHE-FL-5 A-M3W2-XHE-FL-5 148 A-M3W2-XHE-R~12 A-M3W2-XHE-R;..12 149 A-M3W2-XHE-R-3 A-M3W2-XHE-R-3 150 A-M3W2-XHE-S2-8 A-M3W2-XHE-S2-8 151 A-M3W3-XHE-FH-4 A-M3W3-XHE-FH-4 152 A-M3W3-XHE-FH-7 A-M3W3-XHE-FH-7 153 A-M3W3-XHE-FL-4

  • A-M3W3-XHE-FL-4 154 A-M3W3-XHE-FL-7 A-M3W3-XHE-FL-7 155 A-M3W3-XHE-R-3 A-M3W3-XHE-R-3 156 A-M3W3-XHE-S2-4 A-M3W3-XHE-S2-4 SEE ABOVE FOR ANALOGY 157 '

A-M3W4-XHE-FH-7 A-M3W4-XHE-FH-7 158 A-M3W4-XHE-FL-7 A-M3W4-XHE-FL-7 159 A-M3W4-XHE-R-3 A-M3W4-XHE-R-3 160 A-M4Wl-XHE-Sl-8 A-M4Wl-XHE-S1-8 1994/01/27 21:37:16 page 10 N-95

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript * . Hazard Flag Type System Location Mode 161 A-M4W2-XHE-Sl-8 A-M4W2-XHE-Sl-8 162 A-M4W3-XHE-Sl-7 A-M4W3-XHE-Sl-7 163 A-M4W4-XHE-Sl-7 A-M4W4-XHE-Sl-7 164 A-MBWl-XHE-FL-9 A-MSWl-XHE-FL-9 165 A-MBW2-XHE-FL-9 A-MBW2-XHE-FL-9 166 A-MBW2-XHE-Sl-8 A-MBW2-XHE-Sl-8 SEE ABOVE FOR ANALOGY 167 A-MBW3-XHE-FL-3 A-MSW3-XHE-FL-3 168 A-M8W3-XHE-FL-7 A-M8W3-XHE-FL-7 169 A-M8W3-XHE~Sl-7 A-M8W3-XHE-Sl-7 170 A-M8W4-XHE-FL-4 A-M8W4-XHE-FL-4 171 A-M8W4-XHE-FL-7 A-M8W4-XHE-FL-7 172 A-MAWl-XHE-FH-9 A-MAWl-XHE-FH-9 173 A-MAWl-XHE-FL-9 A-MAWl.-XHE-FL-9 174 A-MAWl-XHE-Sl-8 A-MAWl-XHE-Sl-8 175 A-MAW2-XHE-FH-4 A-MAW2-XHE-FH-4 176 A-MAW2-XHE-FH-9 A-MAW2-XHE-FH-9 1994/01/27 21:37:16 page 11 N-96

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 177 A-MAW2-XHE-FL-4 A-MAW2-XHE-FL-4 178 A-MAW2-XHE-FL-9 A-MAW2-XHE-FL-9 179 A-MAW2-XHE-Sl-8 A-MAW2-XHE-Sl-8 180 A-MAW2-XHE-X A-MAW2-XHE-X 181 A-MAW3-XHE-FH-3 A-MAW3-XHE-FH-3 182 A-MAW3-XHE-FH-7 A-MAW3-XHE-FH-7 183 A-MAW3-XHE-FL-3 A-MAW3-XHE-FL-3 184 A-MAW3-XHE-FL-7 A-MAW3-XHE-FL-7 SEE ABOVE FOR ANALOGY I .185 A-MAW3-XHE-Sl-7 A-MAW3-XHE-S1-7 186 A-MAW4-XHE-FH-4 A-MAW4-XHE-FH-4 187 A-MAW4-XHE-FH-7 A-MAW4-XHE-FH-7 188 A-MAW4-XHE-FL-4 A-MAW4-XHE-FL-4 189 A-MAW4-XHE-FL-7 A-MAW4-XHE-FL-7 190 A-MCWl-XHE-FH-9 A-MCWl-XHE-FH-9 191 A-MCWl-XHE-FL-9 A-MCWl-XHE-FL-9 192 A-MCW2-XHE-FH-9 A-MCW2-XHE-FH-9 1994/01/27 21:37:16 page 12 N-97

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process

  • Fail Number Secondary *Name Descript. Hazard Flag Type system Location Mode 193 A-MCW2-XHE~FL-9 A-MCW2-XHE-FL-9 194 A-MCW2-XHE-S1-8 A-MCW2-XHE-S1-8 195 A-MCW3-XHE-FH~7 A-MCW3-XHE-FH-7 SEE ABOVE FOR ANALOGY 196 A-MCW3-XHE-FL~7 A-MCW3-XHE-FL-7 197 A-MCW3-XHE-~l-7 A-MCW3-XHE-S1-7 198 A-MGWl-XHE-C-18 A-MGWl-XHE-C-18 199 A-MGWl-XHE-FL-19 A-MGWl-XHE-FL-19 200 A-MGW1-XHE-S2-17 A-MGW1-XHE-S2-17 201 A-MGW2-XHE-FL-19 A-MGW2-XHE-FL-19 202 A-MHWl-XHE-R-12 A-MHWl-XHE-R-12 203 A-MHW2-XHE-R-12 A-MHW2-XHE-R-12 204 A-NlWl-XHE-FL-19 A-NlWl-XHE-FL-19 205 A-NlWl-XHE-R-12 A-NlWl-XHE-R-12 206 A-NlW2-XHE-FL-19 A-NlW2-XHE-FL-19 207 A-NlW2-XHE-R-12 A-NlW2-XHE-R-12 208 A-NlW3-XHE-FL-10 A-NlW3-XHE-FL-10 1994/01/27 21:37:16. page 13 N-98
  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type System Location Fail Mode 209 A-N1W3-XHE-FL-13 A-N1W3-XHE-FL-13 210 A-N1W3-XHE-R-9 A-N1W3-XHE-R-9 211 A-N2Wl-XHE-FL-19 A-N2Wl-XHE-FL-19 212 A-N2Wl-XHE-R~l2 A-N2Wl-XHE-R:..12 213 A-N2W2-XHE-FL-19 A-N2W2-XHE-FL-19 SEE ABOVE FOR ANALOGY 214 A-N2W2-XHE-R-12 A-N2W2-XHE-R-12 215 A-N2W3-XHE-FL-13 A-N2W3=XHE-FL-13 216 A-N2W3-XHE-R-9 A-N2W3-XHE-R-9 217 ACC-CKV-FT-CV147 CV147 CKV ACC FT ACC-CKV-FT-CV147 CHECK VALVE CV SI 147 FAILS TO OPEN. 218 ACP-BAC-MA-lHl ACP-BAC-MA-lHl BUS BAR OF 480V AC BUS lHl MAINTENANCE 219 ACP-BAC-MA-lJl ACP-BAC-MA-lJl BUS BAR OF 480V AC BUS lJl MAINTENANCE 220 ACP-BAC-MA-lJl-2 ACP-BAC-MA-lJl-2 480V AC MCC lJl-2 UNAVAILABLE DUE TO MAINTENANCE 221 ACP-BAC-MA-4801J ACP-BAC-MA-4801J BUS BAR OF 480V lJ AC BUS MAINTENANCE 222 ACP-BAC-ST-lHl lHl BAC ACP ST ACACPAC-ST-lHl 480V AC BUS lHl BUSWORK FAILURE 223 ACP-BAC-ST-lHl-1 lHll BAC ACP ST ACP-BAC-ST-lHl-1 480V AC MCC lHl-1 BUSWORK FAILURE 224 ACP-BAC-ST-lHl-2 1Hl2 BAC ACP ST ACP-BAC-ST-lHl-2 480V AC MUCC lHl-2 BUSWORK FAILURE 1994/01/27 21:37:16 page 14

  • N-99

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary.Name Descript. Hazard Flag Type System Location Mode 225 ACP-BAC-ST-lJl lJl 

                                   ------ -------   BAC   ACP                ST I ACACPAC-ST-lJl    480V AC BUS lJl BUSWORK FAILURE 226  ACP-BAC-ST-lJl-2  1Jl2                         BAC   ACP                ST ACP-BAC-ST-lJl-2  480V AC MCC lJl-2 BUSWORK FAILURE 227  ACP-BAC-ST-4801J  4801J                        BAC   ACP                ST ACP-BAC-ST-4801J  480V AC BUS lJ BUSWORK FAILURE 228  ACP-BAC-ST-4KV1H  4KV1H                        BAC   ACP                ST ACP-BAC-ST-4KV1H  4160V AC BUS lH BUSWORK FAILURE 229  ACP-BAC-ST-4KV1J  4KV1J                        BAC   ACP                ST ACP-BAC-ST-4KV1J  4160V AC BUS lJ BUSWORK FAILURE 230  ACP-BAC-ST-STBlJ  STBlJ                        BAC   ACP                ST ACP-BAC-ST-STBlJ 4160V AC STUB BUS lJ BUSWORK FAILURE 231   ACP-BAC-ST-VlIII VlIII                        BAC   ACP                ST ACP-BAC-ST-VlIII VITAL BUS lIII BUSWORK FAILURE 232   ACP-BAC-ST-VBlII VBlII                        BAC   ACP                ST ACP-BAC-ST-VBlII VITAL BUS lII BUSWORK FAILURE 233   ACP-BCH-MA-UPSBl ACP-BCH-MA-UPSBl TEST AND MAINTENANCE ON BATTERY CHARGER Bl-STATE 6 234   ACP-BCH-MA-UPSB2 ACP-BCH-MA-UPSB2 TEST AND MAINTENANCE ON BATTERY CHARGER B2 - STATE 6 235   ACP-CRB-C0-14Hl5 14Hl5                        CRB   ACP                co ACP-CRB-C0-14Hl5 AC-CIRCUIT BREAKER 14Hl5 TRANSFERS OPEN 236   ACP-CRB-C0-14Jl  14Jl                         CRB   ACP                co.

ACP-CRB-C0-14Jl AC CIRCUIT BREAKER 14Jl TRANSFERS OPEN 237 ACP-CRB-C0-14Jll 14Jll CRB ACP co ACP-CRB-C0-14Jll AC CIRCUIT BREAKER'l4Jll TRANSFERS OPEN 238 ACP-CRB-C0-14Jl4 14Jl4 CRB ACP co ACP-CRB-C0-14Jl4 AG CIRCUIT BREAKER 14Jl4 TRANSFERS OPEN 239 ACP-CRB-C0-15H7 15H7 CRB ACP co ACP-CRB-C0-15H7 AC CIRCUIT BREAKER 15H7 TRANSFERS OPEN 240 ACP-CRB-C0-15J7 15J7 CRB ACP co ACP-CRB-C0-15J7 AC CIRCUIT BREAKER 15J7 TRANSFERS OPEN 1994/01/27 21:37:16 page 15 N-100

  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 241 ACP-INV-MA-UPSA2 ACP-INV-MA-UPSA2 UPSA2 INVERTER MAINTENANCE 242 ACP-INV-NO-UPSA2 UPSA2 INV ACP NO ACP-INV-NO-UPSA2 UPS 1A2 INVERTER OUTPUT FAILS 243 ACP-TFM-NO-lHl lHl TFM ACP NO ACP-TFM-NO-lHl FAILURE OF POWER TRANSFORMER TO BUS lHl 244 ACP-TFM-NO-lJ: lJ TFM ACP NO ACP-TFM-NO-lJ FAILURE OF POWER TRANSFORMER TO BUS lJ 245 ACP-TFM-NO-lJl lJl TFM ACP NO ACP-TFM-NO-lJl FAILURE OF POWER TRANSFORMER TO BUS lJl 246 AFW-CCF-FS-FW3AB FW3AB CCF AFW FS AFW-CCF-FS-FW3AB COMMON CAUSE FAILURE OF AFW MOTOR DRIVEN PUMP 247 AFW-CCF-LK-STMBD STMBD CCF AFW LK AFW-CCF-LK-STMBD UNDETECT LKAGE THRO CHK VLV CV27 cv5a OR CV89 248 AFW-CKV-FT-CV136 CV136 CKV AFW FT AFW-CKV-FT-CV136 CHECK VALVE CV136 FAILS TO OPEN . *249 AFW-CKV-FT-CV138 CV138 CKV AFW FT AFW-CKV-FT-CV138 CHECK VALVE CV138 FAILS TO OPEN 250 AFW-CKV-FT-CV172 CV172 CKV AFW FT AFW-CKV-FT-CV172 CHECK VALVE CV172 FAILS TO OPEN 251 AFW-CKV-FT-CV27 CV27 CKV AFW FT AFW-CKV-FT-CV27 CHECK VALVE CV27 FAILS TO OPEN 252 AFW-CKV-FT-CV58 CV58 CKV AFW FT AFW-CKV-FT-CV58 CHECK VALVE CV58 FAILS TO OPEN 253 AFW-CKV-OO-CV142 CV142 CKV AFW 00 AFW-CKV-OO-CV142 BACKFLOW THROUGH CV142 254 AFW-CKV-OO-CV157 CV157 CKV AFW 00 AFW-CKV-OO-CV157 BACKFLOW THROUGH CV157 255 AFW-MDP-FR-3B6HR 3B6HR MDP AFW FR AFW-MDP-FR-3B6HR MDP AFW 3B FAILS TO RUN 6 HOURS 256 AFW-MDP-FS-FWJA FW3A MDP AFW FS AFW-MDP-FS-FW3A MDP AFW 3A FAILS TO START 1994/01/27 21:37:16 page 16

  • N-101

Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 

       ---------------- FW3B 257 AFW-MDP-FS-FW3B                                   MDP AFW
                                                                    --------    FS AFW-MDP-FS-FW3B   MOP AFW 3B FAILS TO START 258    AFW-MDP-MA-FW3B AFW,;.MDP-MA-FW3B TEST AND MAINTENANCE ON AFW MOP 3B - STATE 6 259    AFW-MOV-CC-151 AFW-MOV-CC-151    CCF 2/2 MOV 151A B 260    AFW-MOV-FT-151C AFW-MOV-FT-151C   MOV FW151C FAILS TO OPEN 261    AFW-MOV-FT-151E AFW-MOV-FT-151E   MOV FW151E FAILS TO OPEN 262    AFW-MOV-MA-151A AFW-MOV-MA-151A   TEST AND MAINTENANCE ON AFW TRAIN A MOVS - STATE 6 263    AFW-MOV-MA-151C AFW-MOV-MA-151C   AFW FW-151C IN MAINTENANCE 264    AFW-MOV-MA-151E AFW-MOV-MA-151E   AFW FW-151E IN MAINTENANCE 265    AFW-PSF-FC-XCONN  XCONN                        PSF    AFW AFW-PSF-FC-XCONN  FLOW DIVERSION TO UNIT 2 THRU PIPE SEG PS94 266    CCW-AOV-PG-109B
  • CCW-AOV-PG-109B cc-TV-109B PLUGS DURING OPERATION 267 CCW-CKV-FT-CC563 CCW-CKV-FT-CC563 CHECK VALVE CC563 FAIL,g TO OPEN 268 CCW-CKV-OO-CV557 CV557 CKV ccw 00 CCW-CKV-OO-CV557 CHECK VALVE CV557 FAIL,g TO SHUT CAUSE BACKFLOW
  • 269 CCW-LF-RHE2B CCW-LF-RHE2B RHR PUMP SEAL COOLER RH-E-2B LOSS OF FUNCTION 270 CCW-MDP-FR-CCP1B CCP1B MOP ccw FR CCW-MDP-FR-CCP1B MOP CC-PlB FAILS TO RUN 271 CCW-MDP-FS-CCP1B CCP1B MOP ccw FS CCW-MDP-FS-CCP1B MOP CC-PlB FAIL,g TO START ON DEMAND 272 CCW-MDP-MA-CCPlB CCP1B MOP ccw MA CCW-MDP-MA-CCP1B TEST AND MAINTENANCE ON MOP CC-PlB 1994/01/27 ' 21:37:16 page 17 N-102
  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 273 CCW-SO-RV118 CCW-S0-RV118 RELIEF VALVE CC-RV-118 SP. OPEN 274 CCW-S0-RV121 CCW-S0-RV121 RELIEF VALVE cc-Rv~121 SP. OPEN 275 ccw-XMV-PG-CClOO ccw-XMV-PG-CClOO BUTTERFLY VALVE CClOO PLUGS (DURING OPERATION) 276 ccw-XMV-PG-CC112 ccw-XMV-PG-CC112 GLOBE VALVE CC112 PLUGGED 277 ccw-XMV-PG-CC116 ccw-XMV-PG-CC116 GATE VALVE CC116 PLUGGED 278 CCW-XMV-PG-CC220 ccw-XMV-PG-CC220 BUTTERFLY VALVE CC220 PLUGS (DURING OPERATION) 279 CCW-XVM-PG-CC560 ccw-XVM-PG-CC560 BUTTERFLY VALVE CC560 PLUGGED 280 CCW-XVM-PG-CC564 ccw-XVM-PG-CC564 BUTTERFLY VALVE CC564 PLUGGED .81 CIR-COND-UNAVLBL CIR-COND-UNAVLBL condenser unavailable 282 CON-VFC-RP-COREM COREM VFC CON RP CON-VFC-RP-COREM loss of HPSH due to open containment 283 CPC-CCF-LF-STRl CPC-CCF-LF-STRl CCF OF STRAINERS lA & lB CCF OF STRAINERS lA & lB 284 CPC-CCF-LF-STRAB STRAB CCF CPC LF CPC-CCF-LF-STRAB COMMON MODE LOSS OF FLW STRAINERS 2A AND 2B 285 CPC-MDP-FR-SWlOA SWlOA MDP CPC FR CPC-MDP-FR-SWlOA MDP SWlOA FAILS TO RUN AS LONG AS CHARGING PUMPS 286 CPC-MDP-FS-SW20A SW20A MDP CPC FS CPC-MDP-FS-SW20A MDP SW20A FAILS TO START 287 CPC-MDP-MA-SWlOB CPC-MDP-MA-SW10B TEST AND MAINTENANCE ON MOP SW10B - STATE 6 288 CPC-MDP-MAOSW10B CPC-MDP-MAOSW10B TEST AND MAINTENANCE ON MDP SW10B - STATE 10 1994/01/27 21:37:16 page 18 N-103

Event Primary Name Number secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 289 CPC-STR-PG-STR2A STR2A STR CPC PG CPC-STR-PG-STR2A STRAINER 2A PLUGGED W/IN 6 HRS 290 D-CTlWl-XHE D-CTlWl-XHE DIAGNOSIS FAILURE IN WINDOW 1 OF SCENARIO CTl 291 D-CT1W2-XHE D-CT1W2-XHE 292 D-CT1W3-XHE D-CT1W3-XHE 293 D-CT1W4-XHE D-CT1W4-XHE 294 D-CT2Wl-XHE D-CT2Wl-XHE 295 /D-CT2W2-XHE D-CT2W2-XHE 296 D-CT2W3-XHE D-CT2W3-XHE DIAGNOSIS FAILURE IN WINDOW 3 OF SCENARIO CT2 297 D-ElWl-XHE D-ElWl-XHE DIAGNOSIS FAILURE IN WINDOW 1 OF SCENARIO El 298 D-E1W2-XHE* D-E1W2-XHE 299 D-E1W3-XHE D-E1W3-XHE 300 D-E1W4-XHE D-E1W4-XHE 301 D-E2Wl-XHE D-E2Wl-XHE 302 D-E2W2-XHE D-E2W2-XHE 303 D-E2W3-XHE D-E2W3-XHE 304 D-E2W4-XHE D-E2W4-XHE 

    ' 1994/01/27                    21:37 :16                     page     19 N-104
  • Event Primary N"aJne Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type System Location Fail Mode 305 D-E3Wl-XHE D-E3Wl-XHE 306 D-E3W2-XHE D-E3W2-XHE 307 D-E3W3-XHE D-E3W3-XHE ANALOGOUS TO ABOVE 308 D-E3W4-XHE D-E3W4-XHE 309 D-E6Wl-XHE D-E6Wl-XHE 310 D-E6W2-XHE D-E6W2-XHE' 311 D-E6W3-XHE D-E6W3-XHE 312 D-E6W4-XHE D-E6W4-XHE .313 D-E7Wl-XHE D-E7Wl-XHE 314 D-E7W2-XHE D-E7W2-XHE 315 D-E7W3-XHE D-E7W3-XHE 316 D-E7W4-XHE D-E7W4-XHE 317 D-E8Wl-XHE D-E8Wl-XHE 318 D-E8W2-XHE D-E8W2-XHE 319 D-EBW3-XHE D-E8W3-XHE 320 D-E8W4-XHE D-E8W4-XHE 1994/01/27 21:37:16 page 20

  • N-105

Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 321 D-EAWl-XHE D-EAWl-XHE 322 D-EAW2-XHE D-EAW2-XHE 323 D-EAW3-XHE D-EAW3-XHE 324 D-EAW4-XHE D-EAW4-XHE 325 D-EBWl-XHE D-EBWl-XHE ANALOGOUS TO ABOVE 326 D-EBW2-XHE D-EBW2-XHE 327 D-EBW3-XHE D-EBW3-XHE 328 D-EBW4-XHE D-EBW4-XHE 329 D-ECWl-XHE D-ECWl-XHE 330 D-ECW2-XHE D-ECW2-XHE 331 D-ECW3-XHE D-ECW3-XHE 332 D-Ml3W2-XHE D-Ml3W2-XHE 333 D-Ml3W3-XHE D-Ml3W3-XHE 334 D-M3W2-XHE D-M3W2-XHE 335 D-M3W3-XHE D-M3W3-XHE 33.6 D-M4W2-XHE D-M4W2-XHE 1994/01/27 21:37:16 page 21 N-106

  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST comp. ID Descript.

Init/ Hazard Process Flag Type System Location Fail Mode 337 ---------------- --------- ------ ------- D-M4W3-XHE D-M4W3-XHE 338 D-M8Wl-XHE D-M8Wl-XHE 339 D-M8W2-XHE D-M8W2-XHE 340 D-M8W3-XHE D-M8W3-XHE 341 D-MAWl-XHE D-MAWl-XHE 342 D-MAW2-XHE D-MAW2-XHE 343 D-MAW3-XHE D-MAW3-XHE 344 D-MAW4-XHE D-MAW4-XHE .345 D-NlWl-XHE D-NlWl-XHE 346 D-NlW2-XHE D-NlW2-XHE 347 D-NlW3-XHE D-N1W3-XHE 348 D-NlW4-XHE D-N1W4-XHE 349 D-N2Wl-XHE D-N2Wl-XHE 350 D-N2W2-XHE D-N2W2-XHE ANALOGOUS TO ABOVE 351 D-N2W3-XHE D-N2W3-XHE 352 D-N2W4-XHE D-N2W4-XHE 1994/01/27 21:37:16 page 22 N-107

Event Primary Name Number secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 353 DCP-BAT-LP-BATlA BATlA BAT DCP LP DCP-BAT-LP-BATlA FAILURE OF BATTERY lA 354 DCP-BAT-LP-BAT1B BATlB BAT DCP LP DCP-BAT-LP-BATlB FAILURE OF BATTERY lB 355 DCP-BDC-ST-BUSlA BUSlA BDC DCP ST DCP-BDC-ST-BUSlA 125V DC BUS lA BUSWORK FAILURE 356 DCP-BDC-ST-BUSlB BUSlB BDC DCP ST DCP-BDC-ST-BUSlB 125V DC BUS lB BUSWORK FAILURE 357 FI-S-V-1535 DE FI-S-V-1535 FIRE-INDUCED SPURIOUS CLOSURE OF PZR BLK VLV 1535 358 FI-S-V-1536 DE FI-S-V-1536 FIRE INDUCED SPURIOUS CLOSURE OF PZR BLK VLV 1536 359 FI-S-V-1700 FI-S-V-1700 FIRE INDUCED SPURIOUS CLOSURE OF RHR ISOL. VLV 1700 360 H-4KV-REC-Wl H-4KV-REC-Wl 4KV BUS RECOVERY IN Wl 361 H-4KV-REC-W2 H-4KV-REC-W2 4KV BUS RECOVERY IN W2 362 H-4KV-REC-W3 H-4KV-REC-W3 4KV BUS RECOVERY IN W3 363 H-4KV-REC-W4 H-4KV-REC-W4 4KV BUS RECOVERY IN W4 364 HPI-CCF-FT-115BD 115BD CCF HPI FT HPI-CCF-FT-115BD COMMON CAUSE FAILURE OF MOVS 1115B AND 1115D 365 HPI-CKV-FT-CV25 CV25 CKV HPI FT HPI-CKV-FT-CV25 CHECK VALVE CV25 FAILS TO OPEN 366 HPI-CKV-FT-CV410 CV410 CKV HPI FT HPI-CKV-FT-CV410 CHECK VALVE CV410 FAILS TO OPEN 367 HPI-MDP-FR-1A6HR 1A6HR MDP HPI FR HPI-MDP-FR-1A6HR CHARGING PUMP CHlA FAILS TO RUN FOR 6 HOURS 368 HPI-MDP-FS-CH2C CH2C MOP HPI FS HPI-MDP-FS-CH2C U2 CHARGING PUMP CH2C FAILS TO START 1994/01/27 21:37:16 page 23 N-1~

  • Event Primary Name Number secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type System Location 

                                                                           /

Fail Mode 

----- HPI-XVM-PG-XV24 369
      ---------------- XV24                         XVM HPI                 PG HPI-XVM-PG-XV24  MANUAL VALVE XV24 PLUGGED 370  HPR-MDP-FR-A18HR A18HR                        MDP   HPR                 FR HPR-MDP-FR-A18HR CHARGING PMP MDP-CHlA FAILS TO RUN FOR 18 HRS 371  IAS-CPS-FS-IAC-1 IAS-CPS-FS-IAC-1 TURBINE BUILDING IA COMPRESSOR IA-C-1 FAILS TO START 372  ICT1W1D6                       I ICT1W1D6         INIT. EVENT FREQ. FOR SCEN. CTl, WINDOW 1, POS D6 373  ICT1WlR6                       I ICT1WlR6 374  ICT1W2D6                       I ICT1W2D6 375  ICT1W2R6                       I ICT1W2R6 376  ICT1W3D6                       I ICT1W3D6 77  ICT1W3R10                      I ICT1W3R10 378  ICT1W3R6                       I ICT1W3R6 379  ICT1W4D6                       I ICT1W4D6 380  ICT1W4R10                      I ICT1W4R10 381  ICT1W4R6                       I ICT1W4R6 382  ICT2W1D6                       I ICT2W1D6 383  ICT2WlR6.                      I ICT2WlR6 384  ICT2W2D6                       I ICT2W2D6 1994/01/27                    21:37:16                      page     24
  • N-109

BASIC EVENTS OVERVIEW REPORT Family: !UIRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary* Name Descript *. Hazard Flag Type system Location Mode 385 ICT2W2R6 I ICT2W2R6 386 ICT2W3D6 I ICT2W3D6 387 ICT2W3Rl0 I ICT2W3Rl0 ANALOGOUS TO ABOVE 388 ICT2W3R6 I ICT2W3R6 389 ICT2W4D6 I ICT2W4D6 390 ICT2W4R10 I IC'1'2W4R10 391 ICT2W4R6 I ICT2W4R6 392 ICV1W1D6 I ICV1W1D6 393 ICV1W1R6 I ICV1W1R6 394 ICV1W2D6 I ICV1W2D6 395 ICV1W2R6 I ICV1W2R6 396 ICV1W3D6 I ICV1W3D6 397 ICV1W3R10 I ICV1W3R10 398 ICV1W3R6 I ICV1W3R6 399 ICV1W4D6 I ICV1W4D6 400 ICV1W4R10 I ICV1W4R10 1994/01/27 21:37:16 page 25 N-110

  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type System Location Fail Mode 401 ICV1W4R6 I ICV1W4R6 402 IE10W1D6 I IE10W1D6 403 IE10W1R6 I IE10W1R6 404 IE10W2D6 I IE10W2D6 405 IE10W2R6 I IE10W2R6 ANALOGOUS TO ABOVE 406 IE10W3D6 I IE10W3D6 407 IE10W3Rl0 I IElOWJRlO 408 IE10W3R6 I IE10W3R6 .409 IE10W4D6 I IE10W4D6 410 IE10W4R10 I IE10W4R10 411 IE10W4R6 I IE10W4R6 412 IE11W1D6 I IE11W1D6 413 IE11WlR6 I IE11W1R6 4U IE11W2D6 I IE11W2D6 415 IE11W2R6 I IE11W2R6 416 IE11W3D6 I IE11W3D6 1994/01/27 21:37:16 page 26 N-111

Event Primary N"ame Number secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 417 ---------~------ IE11W3Rl0 --------- ------ I IE11W3Rl0 418 IE11W3R6 I IE11W3R6 419 IE11W4D6 I IE11W4D6 420 IE11W4Rl0 r IE11W4Rl0 421 IE11W4R6 I IE11W4R6 422 IE12W1D6 I IE12W1D6 423 IE12WlR6 I IE12WlR6 ANALOGOUS TO ABOVE 424 IE12W2D6 I IE12W2D6 425 IE12W2R6 I IE12W2R6 426 IE12W3D6 I IE12W3D6 427 IE12W3Rl0 I IE12W3Rl0 428 IE12W3R6 I IE12W3R6 429 IE12W4D6 I IE12W4D6 430 IE12W4Rl0 I IE12W4Rl0 431 IE12W4R6 I IE12W4R6 432 IE13AW1D6 I IE13AW1D6 1994/01/27 21:37:16 page 27 N-112

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 433 IE13AW1R6 I IE13AW1R6 434 IE13AW2D6 I IE13AW2D6 435 IE13AW2R6 I IE13AW2R6 436 IE13AW3D6 I IE13AW3D6 437 IE13AW3Rl0 I IE13AW3Rl0 438 IE13AW3R6 I IE13AW3R6 439 IE13AW4D6 I IE13AW4D6 440 IE13AW4Rl0 I IE13AW4R10 441 IE13AW4R6 I IE13AW4R6 ANALOGOUS TO ABOVE 442 IE13BW1D6 I IE13BW1D6 443 IE13BW1R6 I IE13BW1R6 444 IE13BW2D6 I IE13BW2D6 445 IE13BW2R6 I IE13BW2R6 446 IE13BW3D6 I IE13BW3D6 447 IE13BW3Rl0 I IE13BW3R10 448 IE13BW3R6 I IE13BW3R6 1994/01/27 21:37:16 page 28 N-113

Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 449 IE13BW4D6 --------- ------ I IE13BW4D6 450 IE13BW4Rl0 I IE13BW4R10 451 IE13BW4R6 I IE13BW4R6 452 IE1Wl06 I IE1W1D6 453 IE1WlR6 I IE1WlR6 454 IE1W2D6 I IE1W206 455 IE1W2R6 I IE1W2R6 456 IE1W3D6 I IE1W3D6 457 IE1W3Rl0 I IE1W3Rl0 458 IE1W3R6 I IE1W3R6 459 IE1W4D6 I IE1W4D6 ANALOGOUS TO ABOVE 460 IE1W4Rl0 I IE1W4R10 461 IE1W4R6 I IE1W4R6 462 IE2W1D6 I IE2W1D6 463 IE2WlR6 I IE2WlR6 464 IE2W2D6 I IE2W206 1994/01/27 21:37:16 page 29 N-114

  • Event Primary Name Humber Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRT~ST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 465 IE2W2R6 --------- I IE2W2R6 466 IE2W3D6 I IE2W3D6 467 IE2W3Rl0 I IE2W3Rl0 468 IE2W3R6 I IE2W3R6 469 IE2W4D6 I IE2W4D6 470 IE2W4Rl0 I IE2W4Rl0 471 IE2W4R6 I IE2W4R6 472 IE3W1D6 I IE3W1D6 .473 IE3WlR6 I IE3WlR6 474 IE3W2D6 I IE3W2D6 475 IE3W2R6 I IE3W2R6 476 IE3W3D6 I IE3W3D6 477 IE3W3Rl0 I IEJWJRlO ANALOGOUS TO ABOVE 478 IEJW3R6 I IE3WJR6 479 IE3W4D6 I IE3W4D6 480 IEJW4R10 I IE3W4Rl0 1994/01/27 21:37:16 page 30 N-115

Event Primary !fame Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp.* ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 481 IE3W4R6 I IE3W4R6 482 IE4W1D6 I IE4W1D6 483 IE4WlR6 I IE4WlR6 484 IE4W2D6 I IE4W2D6 485 IE4W2R6 I IE4W2R6 486 IE4W3D6 I IE4W3D6 487 IE4W3Rl0 I IE4W3Rl0 488 IE4W3R6 I IE4W3R6 ANALOGOUS TO ABOVE 489 IE4W4D6 I IE4W4D6 490 IE4W4Rl0 I IE4W4R10 491 IE4W4R6 I IE4W4R6 492 IE5W1D6 I IE5W1D6 

.493   IE5W1R6                      I IE5W1R6 494   IE5W2D6                      I IE5W2D6 495   IE5W2R6                      I IE5W2R6 496   IE5W3D6                      I IE5W3D6 1994/01/27                   21:37:16                    page     31 N-116
  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ . Process Hazard 

                                   ------     Flag Type system Location Fail Mode 497  ----------------

IE5W3R10 --------- I IE5W3R10 498 IE5W3R6 I IE5W3R6 499 IE5W4D6 I IE5W4D6 500 IE5W4R10 I IE5W4R10 501 IE5W4R6 I IE5W4R6 502 IE6W1D6 I IE6W1D6 503 IE6W1R6 I IE6W1R6 504 IE6W2D6 I IE6W2D6 505 IE6W2R6 I IE6W2R6 506 IE6W3D6 I IE6W3D6 ANALOGOUS TO ABOVE 507 IE6W3R10 I IE6W3R10 508 IE6W3R6 I IE6W3R6 509 IE6W4D6 I IE6W4D6 510 IE6W4Rl0 I IE6W4Rl0 511 IE6W4R6 I IE6W4R6 512 IE7W1D6 I IE7W1D6 1994/01/27 21:37:16 page 32 N-117

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 513 IE7WlR6 --------- ------ I IE7WlR6 514 IE7W2D6 I IE7W2D6 515 IE7W2R6 I IE7W2R6 516 IE7W3D6 *. I IE7W3D6 517 IE7W3Rl0 I IE7W3Rl0 518 IE7W3R6 I IE7W3R6 519 IE7W406 I IE7W4D6 520 IE7W4Rl0 I IE7W4R10 521 IE7W4R6 I IE7W4R6 522 IE8W1D6 I IE8W1D6 523 IE8W1R6 I IE8W1R6 524 IE8W2D6 I IE8W2D6 ANALOGOUS TO ABOVE 525 IE8W2R6 I IE8W2R6 526 IE8W3D6 I IE8W3D6 527 IE8W3Rl0 I IE8W3Rl0 528 IE8W3R6 I IE8W3R6 1994/01/27 , 21:37:16 page 33 N-118

  • Event Primary Na.me Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 529 IE8W4D6 I IE8W4D6 530 IE8W4R10 I IEBW4Rl0 531 IEBW4R6 I IE8W4R6 532 IE9W1D6 I IE9W1D6 533 IE9W1R6 I IE9W1R6 534 IE9W2D6 I IE9W2D6 535 IE9W2R6 I IE9W2R6 536 IE9W3D6 I IE9W3D6 37 IE9W3R10 I IE9W3Rl0 538 IE9W3R6 I IE9W3R6 539 IE9W4D6 I IE9W4D6 540 IE9W4R10 I IE9W4Rl0 541 IE9W4R6 I IE9W4R6 542 IM12W1D6 I IM12W1D6 ANALOGOUS TO ABOVE 543 IM12W1R6 I IM12W1R6 544 IM12W2D6 I IM12W2D6 1994/01/27 21:37:16 page 34 N-119

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 545 IM12W2R6 I IM12W2R6 546 IM12W3D6 I IM12W3D6 j 547 IM12W3Rl0 I IM12W3Rl0 548 IM12W3R6 I IM12W3R6 549 IM12W4D6 I IM12W406 550 IM12W4R10 I IM12W4R10 551 IM12W4R6 I IM12W4R6 552 IM13W106 I IM13W106 553 IM13W1R6 I IM13W1R6 554 IM13W2D6 I IM13W206 555 IM13W2R6 I IM13W2R6 556 IM13W306 I IM13W3D6 557 IM13W3R10 I IM13W3Rl0 558 IM13W3R6 I IM13W3R6 559 IM13W406 I IM13W4D6 560 IM13W4R10 I IM13W4R10 ANALOGOUS TO ABOVE 1994/01/27 21:37:16 page 35 N-120

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 561 IM13W4R6 I IM13W4R6 562 IM1W1D6 I IM1W1D6 563 IM1WlR6 I IM1WlR6 564 IM1W2D6 I IM1W2D6 565 IM1W2R6 I IM1W2R6 566 IM1W3D6 I IM1W3D6 567 IM1W3R10 I IM1W3R10 568 IM1W3R6 I IM1W3R6 569 IM1W4D6 I IM1W4D6 570 IM1W4Rl0 I IM1W4Rl0 ANALOGOUS TO ABOVE 571 IM1W4R6 I IM1W4R6 572 IM3W1D6 I IM3W1D6 573 IM3WlR6 I IM3WlR6 574 IM3W2D6 I IM3W2D6 575 IM3W2R6 I IM3W2R6 576 IM3W3D6 I IM3W3D6 1994/01/27 21:37:16 page 36

  • N-121 L

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 577 IM3W3Rl0 I IM3W3Rl0 578 IM3WJR6 I IM3W3R6 579 IM3W4D6 I IM3W4D6 580 IM3W4Rl0 I IM3W4Rl0 581 IM3W4R6 I IM3W4R6 582 IM4W1D6 I IM4W1D6 583 IM4WlR6 .I IM4WlR6 584 IM4W2D6 I IM4W2D6 585 IM4W2R6 I IM4W2R6 586 IM4W3D6 I IM4W3D6 587 IM4W3Rl0 I IM4W3Rl0 588 IM4WJR6 I IM4WJR6 ANALOGOUS TO ABOVE 589 IM4W4D6 I IM4W4D6 590 IM4W4Rl0 I IM4W4Rl0 591 IM4W4R6 I IM4W4R6 592 IM5W1D6 I IM5W1D6 1994/01/27 21:37:16 page 37 N-122

BASIC EVENTS OVERVIEW REPORT

  • Family: RHRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 593 IM5WlR6 I

IM5WlR6 594 IM5W2D6 I IM5W2D6 595 IM5W2R6 I IM5W2R6 596 IM5W3D6 I IM5W3D6 597 IM5W3Rl0 I IM5W3R10 598 IM5W3R6 I IM5W3R6 599 IM5W4D6 I IM5W4D6 

.600  IM5W4Rl0                      I IM5W4Rl0 601   IM5W4R6                       I IM5W4R6 602  IM8W1D6                       I IM8W1D6 603  IM8WlR6                       I IM8WlR6 604  IM8W2J;)6                     I IM8W2D6 605  IM8W2R6                       I IM8W2R6 606  IM8W3D6                       I IM8W3D6          ANALOGOUS TO ABOVE 607  IM8W3R10                      I IM8W3Rl0 608  IM8W3R6                       I IM8W3R6 1994/01/27                   21:37:16                      page     38 N-123

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary N"ame Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location Mode 609 IM8W4D6 I IM8W4D6 610 IM8W4Rl0 I IM8W4Rl0 611 IM8W4R6 I IM8W4R6 612, IM9E4D6 I IM9E4D6 613 IM9W1D6 I IM9W1D6 614 IM9WlR6 I IM9WlR6 615 IM9W2D6 I IM9W2D6 616 IM9W2R6 I IM9W2R6 617 IM9W3D6 I IM9W3D6 ANALOGOUS TO ABOVE 618 IM9W3Rl0 I IM9W3Rl0 619 IM9W3R6 I IM9W3R6 620 IM9W4Rl0 I IM9W4Rl0 621 IM9W4R6 I IM9W4R6 622 IMAW1D6 I IMAW1D6 623 IMAW1R6 I IMAW1R6 624 IMAW2D6 I IMAW2D6 1994/01/27 21:37:16 page 39 N-124

  • Event Primary N"ame Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 625 IMAW2R6 I IMAW2R6 626 IMAW3D6 I IMAW3D6 627 IMAW3Rl0 I IMAW3Rl0 628 IMAW3R6 I IMAW3R6 629 IMAW4D6 I IMAW4D6 630 IMAW4Rl0 I IMAW4Rl0 631 IMAW4R6 I IMAW4R6 632 IMCW1D6 I IMCW1D6 .633 IMCW1R6 I IMCW1R6 634 IMCW2D6 I IMCW2D6 635 IMCW2R6 I IMCW2R6 ANALOGOUS TO ABOVE 636 IMCW3D6 I IMCW3D6 637 IMCW3Rl0 I IMCW3Rl0 638 IMCW3R6 I IMCW3R6 639 IMCW4D6 I IMCW4D6 640 IMCW4Rl0 I IMCW4Rl0 1994/01/27 21:37:16 page 40 N-125

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 641 IMCW4R6 I IMCW4R6 642 IMDW1D6 I IMDW1D6 643 IMDW1R6 I IMDW1R6 644 IMDW2D6 I IMDW2D6 645 IMDW2R6 I IMDW2R6 646 IMDW3D6 I IMDW3D6 647 IMDW3R10 l; IMDW3Rl0 648 IMDW3R6 I IMDW3R6 649 IMDW4D6 I IMDW4D6 650 IMDW4R10 I IMDW4Rl0 651 IMDW4R6 I IMDW4R6 652 IMGW1D6 I IMGW1D6 653 IMGW1R6 I IMGW1R6 ANALOGOUS TO ABOVE 654 IMGW2D6 *1 IMGW2D6 655 IMGW2R6 I IMGW2R6 656 IMGW3D6 I IMGW3D6 1994/01/27 21:37:16 page 41 N-126

  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type System Location Fail Mode 657 IMGW3Rl0 I IMGW3Rl0 658 IMGW3R6 I IMGW3R6 659 IMGW4D6 I IMGW4D6 660 IMGW4Rl0 I IMGW4Rl0 661 IMGW4R6 I IMGW4R6 662 IMHW1D6 I IMHW1D6 663 IMHW1R6 I IMHW1R6 664 IMHW2D6 I IMHW2D6 ANALOGOUS TO ABOVE

  • 665 666 IMHW2R6 IMHW2R6 IMHW3D6 IMHW306 I

I 667 IMHW3Rl0 I IMHW3Rl0 668 IMHW3R6 I IMHW3R6 669 IMHW4D6 I IMHW4D6 670 IMHW4Rl0 I IMHW4Rl0 671 IMHW4R6 I IMHW4R6 672 IN1W1D6 I IN1W1D6 1994/01/27 21:37:16 page 42 N-127

BASIC EVENTS OVERVIEW REPORT Family; RHRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location Mode 673 ---------------- --------- IN1WlR6 I IN1W1R6 674 IN1W2D6 I IN1W2D6 675 IN1W2R6 I IN1W2R6 676 IN1W3D6 I IN1W3D6 677 IN1W3R10 I IN1W3R10 678 IN1W3R6 I IN1W3R6 679 IN1W4D6 I IN1W4D6 680 IN1W4R10 I IN1W4R10 681 IN1W4R6 I IN1W4R6 682 IN2W1D6 IN2W1D6 683 IN2W1R6 I IN2WlR6 684 IN2W2D6 I IN2W2D6 685 IN2W2R6 -I IN2W2R6 686 IN2W3D6 I IN2W3D6 687 IN2W3Rl0 I IN2W3Rl0 688 IN2W3R6 I IN2W3R6 ANALOGOUS TO ABOVE 1994/01/27 21:37:16 page 43 N-128

  • Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript.

Init/ Hazard Process Flag Type system Location Fail Mode 689 IN2W4D6 I IN2W4D6 690 IN2W4Rl0 I IN2W4Rl0 691 IN2W4R6 :i: IN2W4R6 692 IN3WlD6 I IN3WlD6 693 IN3WlR6 I IN3WlR6 694 IN3W2D6 I IN3W2D6 695 IN3W2R6 I IN3W2R6 696 IN3W3D6 I IN3W3D6 697 IN3W3Rl0 I IN3W3Rl0 698 IN3W3R6 I IN3W3R6 699 IN3W4D6 I IN3W4D6 700 IN3W4Rl0 I IN3W4Rl0 701 IN3W4R6 I IN3W4R6 ANALOGOUS TO ABOVE 702 ISR-CCF-FS-RSlAB RSlAB CCF ISR FS ISR-CCF-FS-RSlAB COMMON CAUSE FAIL TO START ISR PMPS 703 ISR-MDP-FS-RSlA RSlA MOP ISR FS ISR-MDP-FS-RSlA ISR MDP RSlA FAILS TO START ON DEMAND 704 ISR-TRA-MA ISR-TRA-MA TRAIN A MAINT UNAV. OF INSIDE SPRAY RECIRCUIATION 1994/01/27 21:37:16. page 44 N-129

Event Primary Name Number Secondary Name 

     ----------~-----

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 705 LOOPISOLATED1R6 LOOPIS0LATED1R6 Loops Isolated in window 1 of R6 706 LOOPISOLATED2R6 LOOPIS0LATED2R6 Loops Isolated in window 2 of R6 707 LOSP LOSP LOSP EVENT (LOSS OF OFFSITE POWER POST INITIATOR) 708 LPI-CCF-FS-SI1AB SilAB CCF LPI FS LPI-CCF-FS-SllAB COMMON CAUSE FAILURE OF MOPS SilA AND SilB 709 LPI-CKV-FT-CV46B CV46B CKV LPI FT LPI-CKV-FT-CV46B CHECK VALVE CV46B FAILS TO OPEN 710 LPI-CKV-FT-CV50 CVSO CKV LPI FT LPI-CKV-FT-CV50 CHECK VALVE CV50 FAILS TO OPEN 711. LPI-CKV-OO-CV58 CV58 CKV LPI 00 LPI-CKV-OO-CV58 CHECK.VALVE CV58 FAILS TO SHUT CAUSE BACKFLOW 712 LPI-MDP-FR-1B6HR 1B6HR MDP LPI FR LPI-MDP-FR-1B6HR LPI MDP SI1B FAILS TO RUN FOR 6 HOURS 713 LPI-MDP-FR-B24HR B24HR MDP LPI LPI-MDP-FR-B24HR LPI MDP SilB FAILS TO RUN FOR 24 HOURS 714 LPI-MDP-FS-SI1B SilB MDP LPI FS LPI-MDP-FS-SI1B LPI MDP SI1B FAILS TO START ON DEMAND 715 LPI-XVM-PG-XV48 XV48 XVM LPI PG LPI-XVM-PG-XV48 MANUAL VALVE XV48 PLUGGED 716 LPR-CCF-FT-860AB 860AB CCF LPR FT LPR-CCF-FT-860AB COMMON CAUSE FAILURE OF MOV 1860A/B 717 LPR-CCF-FT-862AB 862AB CCF LPR FT LPR-CCF-FT-862AB COMMON CAUSE FAILURE OF MOV 1862A/B 718 LPR-CCF-FT-863AB 863AB CCF LPR FT LPR-CCF-FT-863AB COMMON CAUSE FAILURE OF MOV 1863A/B 719 LPR-CCF-PG-SUMPl SUMP CCF LPR PG LPR-CCF-PG-SUMPl PLUGGING OF THE CONTAINMENT SUMP in Time Window 1 720 LPR-CCF-PG-SUMP2 SUMP CCF LPR PG LPR-CCF-PG-SUMP2 PLUGGING OF THE CONTAINMENT SUMP in Time Window 2 1994/0i/27 21:37:16 page 45 N-130

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type System Location Mode 721 LPR-CKV-FT-CV47 CV47 CKV LPR FT LPR-CKV-FT-CV47 CHECK VALVE CV47 FAILS TO OPEN 722 LPR-MOV-FT-1860B 1860B MOV LPR FT LPR-MOV-FT-1860B LPR MOTOR OPERATED VALVE 1860B FAILS TO OPEN 723 LPR-MOV-FT-1862B 1862B MOV LPR FT LPR-MOV-FT-1862B LPR ~OTOR OPERATED VALVE 1862B FAILS TO CLOSE 724 LPR-MOV-FT-1890B 1890B MOV LPR FT LPR-MOV-FT-1890B LPR MOTOR OPERATED VALVE 1890B FAILS TO OPEN 725 LPR-MOV-PG-l890B 1890B MOV LPR PG LPR-MOV-PG-1890B LPR MOTOR OPERATED VALVE 1890B PLUGGED 

 ../

726 MSS-AOV-FC-lOlA 101A AOV MSS FC MSS-AOV-FC-lOlA SG A PORV BLOCKED 727 MSS-AOV-FC-101B l01B AOV MSS FC MSS-AOV-FC-101B SG B PORV BLOCKED 728 MSS-NRV-FT-101A MSS-NRV-FT-lOlA NRV FAILS TO OPEN (STEAM NON-RETURN VALVE A) 729 MSS-NRV-FT-101B MSS-NRV-FT-101B NRV FAILS TO OPEN 730 MSS-NRV-FT-lOlC MSS-NRV-FT-lOlC NRV FAILS TO OPEN 731 MSS-NRV-MA-lOlA MSS-NRV-MA-lOlA NRV IN TEST OR MAINTENANCE 732 MSS-NRV-MA-101B MSS-NRV-MA-101B NRV IN TEST OR MAINTENANCE 733 MSS-NRV-MA-lOlC MSS-NRV-MA-lOlC NRV IN TEST OR MAINTENANCE 734 MSS-NRV-PG-lOlA MSS-NRV-PG-101A NRV PLUGGED 735 MSS-NRV-PG-101B MSS-NRV-PG-101B NRV PLUGGED 736 MSS-STV-MA-lOlA MSS-STV-MA-lOlA MSTV 101A IN TEST OR MAINTENANCE (MAI_N STEAM TRIP VL) 1994/01/27 21:37:16 page 46 N-131

Event Primary Name Humber secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 737 ---------------- --------- ------ ------- MSS-STV-MA-lOlB MSS-STV-MA-101B MSTV 101B IN TEST OR MAINTENANCE 738 MSS-XVM-XHE-BYPS MSS-XVM-XHE-BYPS Operator Failure to Open MSTV Bypass Valves 739 OEP-CRB-FT-15H3 15H3 CRB OEP FT OEP-CRB-FT-15H3 DIESEL GEN u CKT BRKR 15H3 FAILS TO CLOSE 740 OEP-CRB-FT-15J3 15J3 CRB OEP FT OEP-CRB-FT-15J3 DIESEL GEN #3 CKT BRKR 15J3 FAILS TO CLOSE 741 OEP-DGH-FS-DG01 DG01 DGN OEP FS OEP-DGN-FS-DG01 DIESEL GENERATOR #1 FAILS TO START 742 OEP-DGN-FS.-DG03 DG03 DGN OEP FS OEP-DGH-FS-DG03 DIESEL GENERATOR #3 FAILS TO START 743 OSR-MDP-FS-RS2A RS2A MDP OSR FS OSR-MDP-FS-RS2A OSR MDP RS2A FAILS TO START ON DEMAND 744 OSR-TRA-MA OSR-TRA-MA TRAIN A MAINT UNAV. OF OUTSIDE SPRAY RECIRC (OSR) 745 PCS-CCF-FT-TRBYP TRBYP CCF PCS PCS-CCF-FT-TRBYP cc failure of TURBINE bypass valves 746 PORV-PATH-CLSD PORV-PATH-CLSD porv pathway closed 747 PPS-MOV-FT-1536 1536 MOV PPS FT PPS-MOV-FT-1536 PORV BLOCK VALVE 1536 FAILS TO OPEN 748 PZR-SV-REMOVEDWl PZR-SV-REMOVEDWl Pressurizer Safety Valves Removed in WlR6 749 PZR-SV-REMOVEDW2 PZR-SV-REMOVEDW2 Pressurizer Safety Valves Removed in W2R6 750 PZR-SV-REMOVEDWJ PZR-SV-REMOVEDWJ Pressurizer Safety Valves Removed in W3R6 751 PZR-SV-REMOVEDW4 PZR-SV-REMOVEDW4 Pressurizer Safety Valves Removed in W4R6 752 R-CV1W3-2CH R R-CV1W3-2CH OPER RECOVERY OF 02 CHARG X-CONN FAILS IN CV1-W3 1994/01/27 21:37:16 page 47 N-132

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number secondary Name Descript. Hazard Flag Type System Location Mode 753 ---------------- R-CV1W4-2CH R R-CV1W4-2CH 754 R-ElOW3-2CH R R-ElOW3-2CH 755 R-ElOW4-2CH R R-ElOW4-2CH OPER RECOVERY OF 02 CHARG X-CONN FAILS IN W4 OF ElO 756 R-El3AW1-D6-!3 R R-El3AW1-D6-3 SUCCESS PATH ACCOUNTING IN El3A-WIND l-D6 SEQUENCE 3 757 R-El3AW1-D6-7 R R-El3AW1-D6-7 758 R-El3AW1-R6-17 R R-El3AW1-R6-17 759 R-El3AW2-R6-17 R R-El3AW2-R6-17 

  -760  R-El3BW1-D6-7                 R R-El3BW1-D6-7 761   R-El3BW1-R6-l7                R R-El3BW1-R6-l7 762   R-El3BW2-D6-9                 R R-El3BW2-D6-9 763   R-El3BW2-R6-l7                R R-El3BW2-R6-17 764   R-E1Wl-D6-7                   R R-E1Wl-D6-7 765   R-E1Wl-R6-17                  R R-E1Wl-R6-17 766   R~E1W2-D6-9                   R R-E1W2-D6-9 767   R-ElW2-R6-17                  R R-ElW2-R6-17 768   R-E1W3-2CH                    R R-ElW3-2CH 1994/01/27                   21:37:16                       page     48 N-133

Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Comp. ID Descript. Init/ Hazard Process Flag Type system Location Fail Mode 769 R-E1W4-l890B R R-E1W4-l890B OPER RECOVERY OF OPEN 1890B VLVS FAILS IN W4 OF El 770 R-E2W1-D6-3 R R-E2W1-D6-3 SUCCESS SYSTEM ACCOUNTING (SEE ABOVE) 771 R-E2W1-D6-7 R R-E2W1-D6-7 772 R-E2Wl-R6-8 R R-E2Wl-R6-8 SUCCESS SYSTEM ACCOUNTING (SEE ABOVE) 773 R-E2W2-D6-4 R R-E2W2-D6-4 774 R-E2W2-D6-9 R R-E2W2-D6.-9 775 R-E2W2-R6~17 R R-E2W2-R6-17 776 R-E2W2-R6-8 R R-E2W2-R6-8 777 R-E2W3-2CH R R-E2W3-2CH OPER RECOVERY VIA U2 CHARGING (ANALOGOUS TO ABOVE) 778 R-E2W4-2CH R R-E2W4-2CH 779 R-E3W1-D6-3 R R-E3Wl-D6-3 780 R-E3W1-D6-7 R R-E3W1-D6-7 781 R-E3Wl-R6-8 R R-E3Wl-R6-8 782 R-E3W2-D6-4 R R-E3W2-D6-4 783 R-E3W2-D6-9 R R-E3W2-D6-9 784 R-E3W2-R6-17 R R-E3W2-R6-17 1994/01/27 21:37:16 page 49 N-134

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location Mode 785 R-E3W2-R6-8 R R-E3W2-R6-8 ANALOGOUS TO ABOVE 786 R-EJW3-2CH R R-E3W3-2CH ANALOGOUS TO ABOVE 787 R-E3W4-2CH R-EJW4-2CH 788 R-E4W3-2CH R R-E4WJ-2CH 789 R-E4W4-2CH R R-E4W4-2CH 790 R-ESW3-2CH R R-ESW3-2CH 791 R-ESW4-2CH R R-E5W4-2CH 792 R-E6W1-D6-2 R R-E6Wl-D6-2 .793 R-E6Wl-R6-7 R R-E6Wl-R6-7 794 R-E6W2-D6-3 R R-E6W2-D6-3 795 R-E6W2-R6-7 R R-E6W2-R6-7 796 R-E6W3-2CH R 

       *R-E6W3-2CH 797 . R-E6W4-2CH                    R R-E6W4-2CH 798   R-E7Wl-D6-7                   R R-E7Wl-D6-7 799   R-E7Wl-R6-17                  R R-E7Wl-R6-17 800   R-E7W2-D6-9                   R.

R-E7W2-D6-9 1994/01/27 21:37:16 page 50 N-135

Event Primary Name Number Secondary Name BASIC EVENTS OVERVIEW REPORT Family: RHRTEST comp. ID Descript. Init/ Hazard Process Flag Type System Location Fail Mode 801 R-E7W2-R6-17 R R-E7W2-R6-17 802 R-E7W3-2CH R R-E7W3-2CH 803 R-E8W1-D6-2 R R-E8Wl-D6-2 804 R-E8Wl-R6-7 R R-E8Wl-R6-7 ANALOGOUS TO ABOVE 805 R-E8W2-D6-3 R R-E8W2-D6-3 806 R-E8W2-R6-7 R R-:E8W2-R6-7 807 R-E9Wl-D6-3 R R-E9Wl-D6-3 808 R-EAW2-2CH R R-EAW2-2CH 809 R-EBW3-2CH R R-EBW3-2CH 810 R-EBW4-2CH R R-EBW4-2CH ANALOGOUS TO ABOVE 811 R-M3W2-D6-9 R R-M3W2-D6-9 812 R-M3W2-R6-17 R R-M3W2-R6-17 813 R-M4W3-1869B R R-M4W3..:.1869B 814 R-M4W4-1869B' R R-M4W4-1869B FAILURE OF OPER RECOVERY VIA MOV 1869B IN M4, W4 815 R-M8W2-D6-3 R R-M8W2-D6-3 816 R-MHW2-D6-9 R R-MHW2-D6-9 1994/01/27 21:37:16 page 51 N-136

  • Event Primary Name Number Secondary Name BASIC EVENTS'OVERVIEW REPORT Family: RHRTEST Comp. ID Descrip~.

Init/ Hazard Process Flag Type System Location Fail Mode 817 R-MHW2-R6-17 R R-MHW2-R6-17 818 R-N1Wl-D6-7 R R-N1Wl-D6-7 SEE ABOVE FOR ANALOGY 819 R-N1Wl-R6-17 R R-N1Wl-R6-17 820 R-N1W2-D6-9 R R-N1W2-D6-9 821 R-N1W2-R6-17 R R-N1W2-R6-17 822 R-N2Wl-D6-7 R R-N2W1-D6-7 823 R-N2W2-D6-9 R R-N2W2-D6-9 824 R-N2W2-R6-17 R R-N2W2-R6-17 25 RHR-ASF-PG-1605 1605 ASF RHR PG RHR-ASF-PG-1605 RHR FLOW. ORIFICE PLUGGED. 826 RHR-CCF-FS-MDPAB MDPAB CCF RHR FS RHR-CCF-FS-MDPAB COMMON CAUSE FAILURE OF MOP lA AND lB TO START 827 RHR-CKV-FT-CV5 CVS CKV RHR FT RHR-CKV-FT-CV5 CHECK VALVE CVS FAILS TO OPEN 828 RHR-CKV-00-CVll CVll CKV RHR 00 RHR-CKV-00-CVll BACKFLOW THROUGH CVll 829 RHR-MDP-FR-B24HR B24HR MOP RHR FR RHR-MDP-FR-B24HR RHR MOP lB FAILS TO RUN FOR 24 HOURS 830 RHR-MDP-FS-RHR1B RHR1B MOP RHR FS RHR-MDP-FS-RHR1B RHR MDP lB FAILS TO START ON DEMAND 831 RHR-SRV-C0-1721 1721 SRV RHR co RHR-SRV-C0-1721 SRV-1721 RELIEF VALVE INADVERTENT OPEN. 832 RHR-XVM-PG-XV2 XV2 XVM RHR PG RHR-XVM-PG-XV2 MANUAL VALVE XV2 PLUGGED 1994/01/27 21:37:16 page 52 N-137

BASIC EVENTS OVERVIEW REPORT Family: RHRTEST Event Primary Name Comp. ID Init/ Process Fail Number Secondary Name Descript. Hazard Flag Type system Location Mode 833 RHR-XVM-PG-XV6 xv*6 XVM RHR PG RHR-XVM-PG-XV6 MANUAL VALVE XV6 PLUGGED 834 RWT-TNK-LF-RWST RWST TNK RWT LF RWT-TNK-LF-RWST Insuff. water available from the RWST 835 SAS-CCF-FR-SACl SAS-CCF-FR-SACl COMMON CAUSE FAILURE OF SA COMPRESSORS TO RUN 836 SAS-CPS-FR-1SAC1 SAS-CPS-FR-1SAC1 SERVICE AIR COMPRESSOR 1-SA-C-1 FAILS TO RUN 837 SAS-CPS-FR-2SAC1 SAS-CPS-FR-2SAC1 SERVICE AIR COMPRESSOR 2-SA-C-l FAILS TO RUN 838 SGA-DRAINED-R SGA-DRAINED-R SG A SECONDARY SIDE DRAINED 839 SGB-DRAINED-R SGB-DRAINED-R SG B DRAINED 840 SGC-DRAINED-R SGC-DRAINED-R SG C DRAINED 841 SGS-DRAINED-CSD SGS-DRAINED-CSD Secondary Side of SGs Drained in POSs 6 of Drained Main 842 SGS-DRAINED-R SGS-DRAINED-R Secondary Side of SGs Drained in POSS 6 or 10 or Refuel 843 SSHR-AOV-XHE-105 SSHR-AOV-XHE-105 operator Failure to Use steam Dump to condenser 844 SWS-CCF-FT-3ABCD 3ABCD CCF SWS FT SWS-CCF-FT-3ABCD COMMON CAUSE FAILURE OF SWS !SOL MOVS 103ABCD 845 SWS-MOV-OP-RSS SWS-MOV-OP-RSS OPER DON'T OPEN MOVS 1994/01/27 21:37:16 page 53 N-138

Appendix O The Most Important Cutsets for the Total Core Damage Frequency due to Fire at Midloop

Partition Cut Set Report Family->RHRTEST End State ->CD Mincut Upper Bound-> 1.676E-005 This Partition-> 1.676E-005 cut  %  % cut No. Total Set Frequency Cut Sets 1 11.1 11.1 l.860E-006 ICV1W2D6, <TRUE> 2 19.2 8.1 1. 370E-006 IE5W2D6, <TRUE> 3 27.4 8.1 1. 370E-006 IE4W2D6, <TRUE> 4 33.6 6.1 1.035E-006 ICV1W2R6, /PZR-SV-REMOVEDW2 5 38.2 4.5 7.686E-007 IE4W2R6, /PZR-SV-REMOVEDW2 6 42.7 4.5 7.686E-007 IE5W2R6, /PZR-SV-REMOVEDW2 7 47,0 4.2 7.156E-007 IE7W2D6, AFW-MDP-MA-FW3B, R-E7W2-D6-9 8 50.2. 3.1 5.278E-007. IE7W2R6, LOOPISOLATED2R6, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 9 53.1 2.9 4.980E-007 ICV1W1D6, <TRUE> 10 55.5 2.3 3.975E-007 IE7W2R6, AFW-MDP-MA-FW3B, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 11 57.7 2.2 3.680E-007 IE4W1D6, <TRUE> 12 59.9 2.2 3.680E-007 IE5W1D6, <TRUE> 13 61.7 1.8 3.040E-007 ICV1W3D6, <TRUE>, R-CV1W3-2CH 14 63.4 1.7 2.856E-007 IE7W1D6, <TRUE>, R-E7W1-D6-7 15 64.7 1.3 2.242E-007 IE5W3D6, <TRUE>, R-E5W3-2CH 16 66.l 1.3 2.242E-007 IE4W3D6, <TRUE>, R-E4W3-2CH 17 67.2 1.0 1.790E-007 ICT2W1D6, LPR-CCF-PG-SUMPl 18 68.2 1.0 1.700E-007 IE10W2D6, <TRUE> 19 69.1 0.9 1.596E-007 IE13BW2D6, A-EBW2-XHE-R-12, R-El3BW2-D6-9 20 70.0 0.8 1.402E;..007 ICV1W3R6, PZR-SV-REMOVEDWJ, R-CV1W3-2CH 21 70.8 0.8 l.346E-007 IE3W2D6, FI-S-V-1700, R-E3W2-D6-4 22 71.6 0.8 1. 346E-007 IE2W2D6, FI-S-V-1700, R-E2W2-D6-4 23 72.3 0.7 1.205E-007 IE7W1D6, A-E7Wl-XHE-FL-19 24 73.0 0.7 1.182E-007 IE13BW2D6, ACP-INV-NO-UPSA2, R-El3BW2-D6-9 25 73.6 0.6 l.045E-007 IE5WJR6, PZR-SV-REMOVEDWJ, R-E5W3-2CH 26 74.2 0.6 l.045E-007 IE4WJR6, PZR-SV-REMOVEDW3, R-E4W3-2CH 27 74.8 0.5 9.SOOE-008 IE10W2R6, /PZR-SV-REMOVEDW2 28 75.4 0.5 9.469E-008 IE7W2D6, AFW-MDP-MA-FW3B, FI-S-V-1536 29 75.9 0.5 9.469E-008 IE7W2D6, AFW-MDP-MA-FWJB, FI-S-V-1535 30 76.5 0.5 9.JOSE-008 ICT2W1D6, LPR-MOV-FT-1862B 31 77.0 0.5 8.898E-OOB IE13BW2R6, A-EBW2-XHE-R-12, /PZR-SV-REMOVEDW2, R-E13BW2-R6-17 32 77.5 0.4 8.256E-008 IE6W2D6, <TRUE>, R-E6W2-D6-3 33 78.0 0.4 7.545E-008 IE3W2R6, FI-S-V-1700; /PZR-SV-REMOVEDW2, R-E3W2-R6-8 34 78.4 0.4 7.545E-008 IE2W2R6, FI-S-V-1700, /PZR-SV-REMOVEDW2, R-E2W2-R6-8 35 78.8 0.4 7.270E-008 IE2W2D6, A-E2W2-XHE-R-3, R-E2W2-D6-4 36 79.3 0.4 7.270E-008 IE3W2D6, A-E3W2-XHE-R-3, R-E3W2-D6-4 37 79.7 0.4 7.210E-008 IE12W1D6, LPR-CCF-PG-SUMPl 38 80.1 0.4 6.982E-008 IE7W2R6, LOOPISOLATED2R6, /PZR-SV-REMOVEDW2, FI-S-V-1535 39 80.5 0.4 6.982E-OOB IE7W2R6, LOOPISOLATED2R6, /PZR-SV-REMOVEDW2, FI-S-V-1536 40 80.9 0.4 6.787E-008 IE7W2D6, MSS-NRV-MA-101A, R-E7W2-D6-9 1994/01/27 23:02:45 page 1 0-1

Partition cut Set Report Family->RHRTEST End S"tate ->CD Mincut Upper Bound-> l.676E-005 This Partition-> 1.676E-005 cut t  % cut No. Total Set Frequency cut sets 41 81.3 0.4 6.787E-008 IE7W2D6, MSS-NRV-MA-101B, R-E7W2-D6-9 42 81. 7 0.3 6.591E-008 IE13BW2R6, ACP-INV-NO-UPSA2, /PZR-SV-REMOVEDW2, R-E13BW2-R6-17 43 82.1 0.3 6.028E-008 IE13BW1D6, A-ZBWl-XHE-R-12, R-El3BW1-D6-7 44 82.4 0.3 5.498E-008 IE13BW2D6, ccw-LF-RHE2B, R-El3BW2-D6-9 45 82.8 0.3 5.450E-008 ICV1W2R6, PZR-SV-REMOVEDW2 46 83.1 0.3 5.440E-008 IE13BW1D6, A-EBWl-XHE-FL-19, A-EBWl-XHE-R-12 47 83.4 0.3 5.370E-008 ICT2W1D6, LPI-MDP-FS-SI1B 48 . 83. 7 0.3 5.370E-008 ICT2W1D6, LPR-MOV-FT-1860B 49 84.0 0.3 5.259E-008 IE7W2R6, AFW-MDP-MA-FW3B, /PZR-SV-REMOVEDW2, FI-S-V-1535 50 84.3 0.3 5.259E-008 IE7W2R6, AFW-MDP-MA-FW3B, /PZR-SV-REMOVEDW2, FI-S-V-1536 51 84.7 0.3 5.113E-008 IE7W2D6, AFW-MDP-MA-FW3B, A-E7W2-XHE-FL-19 52 85.0 0.3 5.017E-008 IE13BW2D6, A-EBW2-XHE-FL-19, A-EBW2-XHE-R-12 53 85.2 0.2 4.822E-008 IE7W1D6, FI-S-V-1536 54 85.5 0.2 4.822E-008 IE7W1D6, FI-S-V-1535 55 85.8 0.2 4.804E-008 IE1W2D6, FI-S-V-1700, R-E1W2-D6-9 56 86.1 0.2 4.612E-008 ICV1W4Rl0, /PZR-SV-REMOVEDW4, R-CV1W4-2CH 57 86.4 0.2 4.580E-008 IE10W1D6, <TRUE> 58 86.6 0.2 4.568E-008 IE6W2R6, /PZR-SV-REMOVEDW2, R-E6W2-R6-7 59 86.9 0.2 4.326E-008 IE13BW3D6, A-EBW3-XHE-FL-13, A-EBW3-XHE-R-9 60 87.1 0.2 4.219E-008 IE2W2D6, A-E2W2-XHE-FL-10, FI-S-V-1700 61 87.4 0.2 4.219E-008 IE3W2D6, A-E3W2-XHE-FL-10, FI-S-V-1700 62 87.6 0.2 4.074E-008 IE3W2R6, A-E3W2-XHE-R-3, /PZR-SV-REMOVEDW2, R-E3W2-R6-8 63 87.9 0.2 4.074E-008 IE2W2R6, A-E2W2-XHE-R-3, /PZR-SV-REMOVEDW2; R-E2W2-R6-8 64 88.1 0.2 4.045E-008 IE4W2R6, PZR-SV-REMOVEDW2 65 88.4 0.2 4.045E-008 IE5W2R6, PZR-SV-REMOVEDW2 66 88.6 0.2 3.815E-008 IE8W2D6, <TRUE>, R-E8W2-D6-3 67 88.8 0.2 3.771E-008 IE7W2R6, LOOPISOLATED2R6, /PZR-SV-REMOVEDW2, A-E7W2-XHE-FL-19 68 89.0 0.2 3.749E-008 IE12W1D6, LPR-MOV-FT-1862B 69 89.3 0.2 3.716E-008 IE13BW2D6, ACP-INV-NO-UPSA2, A-EBW2-XHE-FL-19 70 89.5 0.2 3.689E-008 IE8W2D6, A-E8W2-XHE-2CH-8 71 89.7 0.2 3.529E-008 IE7W2D6, A-E7W2-XHE-S2-l7, R-E7W2-D6-9 72 89.9 0.2 3.427E-008 IE5W4Rl0, /PZR-SV-REMOVEDW4, R-E5W4-2CH 73 90.1 0.2 3.427E-008 IE4W4R10, /PZR-SV-REMOVEDW4, R-E4W4-2CH 74 90.3 0.2 3.366E-008 ICV1WlR6, /PZR-SV-REMOVEDWl 75 90.5 0.1 3.172E-008 IE8W3D6, A-E8W3-XHE-2CH-8 76 90.7 0.1 3.122E-008 IE7W2D6, SGA-DRAINED-R, R-E7W2-D6-9 77 90.9 0.1 3.122E-008 IE7W2D6, SGB-DRAINED-R, R-E7W2-D6-9 78 91. 0 0.1 3.065E-008 IE13BW2R6, CCW-LF-RHE2B, /PZR-SV-REMOVEDW2, R-El3BW2-R6-17 79 91. 2 0.1 2.891E-008 IE6W2D6, A-E6W2-XHE-FL-9 80 91. 4 0.1 2.840E-008 IE7W2R6, AFW-MDP-MA-FW3B, /PZR-SV-REMOVEDW2, 1994/01/27 23:02:45 page 2 0-2

  • Family->RHRTEST No.

Total 

             % cut Set Partition cut Set Report Mincut Upper Bound-> l.676E-005 cut Fre:quency End State ->CD This Partition-> 1.676E-005 cut Sets
                   -----~----- A-E7W2-XHE-FL-19 81  91.6    0.1  2.796E-008   IE13BW2R6, A-EBW2-XHE-FL-19, A-EBW2-XHE-R-12,
                                 /PZR-SV-REMOVEDW2 82  91. 7   0.1  2.793E-008   IE10W3D6, <TRUE>, R-ElOW3-2CH 83  91.9    0.1  2.758E-008   IE2W1D6, A-E2Wl-XHE-R-3, R-E2Wl-D6-3 84  92.0    0.1  2.758E-008   IE3W1D6, A-E3Wl-XHE-R-3, R-E3Wl-D6-3 85  92.2    0.1  2.665E-008   IE1W2R6, FI-S-V-1700, /PZR-SV-REMOVEDW2, R-E1W2-R6-17                            .

86 92.4 0.1 2.594E-008 IE1W2D6, A-ElW2-XHE-R-12, R-E1W2-D6-9 87 92.5 0.1 2.579E-008 IM3W1D6, A-MJWl-XHE-FH-10, A-MJWl-XHE-R-3 88 92.7 0.1 2.508E-008 IE2W1D6, FI-S-V-1700, R-E2Wl-D6-3 89 92.8 0.1 2.508E-008 IE3W1D6, FI-S-V-1700, R-E3W1-D6-3 90 93.0 0.1 2.505E-008 IE5W1R6, /PZR-SV-REMOVEDWl 91 93.1 0.1 2.505E-008 IE4WlR6, /PZR-SV-REMOVEDWl 92 93.3 0.1 2.504E-008 IE3W2D6, CCW-LF-RHE2B, R-E3W2-D6-4 93 93.4 0.1 2.504E-008 IE2W2D6, CCW-LF-RHE2B, R-E2W2-D6-4 94 93.6 0.1 2.482E-008 IE3W1D6, A-E3Wl-XHE-FL-10, A-EJWl-XHE-R-3 95 93.7 0.1 2.482E-008 IE2W1D6, A-E2Wl-XHE-R-3, A-E2Wl-XHE-FL-10 96 93.9 0.1 2.364E-008 IE2W2R6, A-E2W2-XHE-FL-10, FI-S-V-1700, 

                                 /PZR-SV-REMOVEDW2 97  94.0    0.1  2.364E-008   IE3W2R6, A-E3W2-XHE-FL-10, FI-S-V-1700,
                                 /PZR-SV-J,{EMOVEDW2 98  94.1    0.1  2.278E-008   IE3W2D6, A-E3W2-XHE-FL-10, A-E3W2-XHE-R-3 99  94.3    0.1  2.278E-008   IE2W2D6, A-E2W2-XHE-FL-10, A-E2W2-XHE-R-3 100  94.4    0.1  2.256E-008   IE2W1D6, A-E2Wl-XHE-FL-10, FI-S-V-1700 101  94.5    0.1  2.256E-008   IE3W1D6, A-EJWl-XHE-FL-10, FI-S-V-1700 102  94.7    0.1  2.237E-008   ICT2W1D6, CON-VFC-RP-COREM, OSR-TRA-MA, ISR-TRA-MA                    .

103 94.8 0.1 2.192E-008 IE13BW1D6, ACP-INV-NO-UPSA2, R-El3BW1-D6-7 104 94.9 0.1 2.163E-008 IE12W1D6, LPI-MDP-FS-SI1B 105 95.1 0.1 2.163E-008 IE12W1D6, LPR-MOV-FT-1860B 106 95.2 0.1 2.127E-008 IE6W1D6, A-E6Wl-XHE-FL-9 107 95.3 0.1 2 .119E-008 IEBW2R6, /PZR-SV-REMOVEDW2, R-EBW2-R6-7 108 95.4 0.1 2.071E-008 IE13BW2R6, ACP-INV-NO-UPSA2, A-EBW2-XHE~FL-19, 

                                 /PZR-SV-REMOVEDW2 109  95.6    0.1  2.049E-008   IE8W2R6, /PZR-SV-REMOVEDW2, A-EBW2-XHE-2CH-8 110  95. 7   0.1  1.993E-008   IE13BW3R6, PZR-SV-REMOVEDWJ, A~EBW3-XHE-FL-10, A-EBW3-XHE-R-9 111  95.8    0.1  l.991E-OOB   ICT1W2D6, D-CT1W2-XHE 112  95.9    0.1  1. 978E-008  IE13BW1D6, ACP-INV-NO-UPSA2, A-EBWl-XHE-FL-19 113  96.0    0.1  1. 976E-008  ICV1W4Rl0, PZR-SV-REMOVEDW4, R-CV1W4-2CH 114  96.1    0.1  l.960E-008   IE7W2R6, /PZR-SV-REMOVEDW2, A-E7W2-XHE-S2-17, R-E7W2-R6-17 115  96.3    0.1  l.958E-008   IE3W3D6, A-E3W3-XHE-FL-7, A~EJW3-XHE-R-3 116  96.4    0.1  1. 958E-008  IE2W3D6, A-E2W3-XHE-FL-7, A-E2W3-XHE-R-3 117  96.5    0.1  1. 921E-008  IE1W2D6, ACP-INV-NO-UPSA2, R-E1W2-D6-9 118  96.6-   0.1  l.790E-008   ICT2W1D6, A-CT2Wl-XHE-C-8 1994/01/27                     23:02:45                       page    3 0-3

Partition cut Set Report Family->RHRTEST End State ->CD Mincut Upper Bound-> 1.676E-005 This Partition-> 1.676E-005 cut  %  % cut No. Total Set Frequency cut sets 119 96.7 0.1 1. 765E-008 IE7W2D6, SSHR-AOV-XHE-105, R-E7W2-D6-9 120 96.8 0.1 1.728E-008 IE13BW2D6, CCW-LF-RHE2B, A-EBW2-XHE-FL-19 121 96.9 0.1 1.709E-008 ICT1W3D6, D-CT1W3-XHE 122 97.0 0.1 1.600E-008 IE6W2R6, A-E6W2-XHE-FL-9, /PZR-SV-REMOVEDW2 123 97.1 o.o 1.561E-008 IE8W1D6, A-E8Wl-XHE-2CH-8 124 97.2 o.o 1.558E-008 ICV1W3R6, /PZR-SV-REMOVEDW3, R-CV:1W3-2CH 125 97.3 o.o 1.510E-008 IE1W2D6, A-E1W2-XHE-FL-19, FI-S-V-1700 126 97.4 o.o l.469E-008 IE5W4R10, PZR-SV-REMOVEDW4, R-E5W4-2CH 127 97.5 o.o 1.469E-008 IE4W4R10, PZR-SV-REMOVEDW4, R-E4W4-2CH 128 97.5 o.o l.464E-008 IE8W3R6, PZR-SV-REMOVEDW3, A-E8W3-XHE-2CH-4 129 97.6 o.o 1.450E-008 IM4W2R6, LOOPISOLATED2R6, /PZR-SV-REMOVEDW2 130 97.7 o.o 1.439E-008 IE1W2R6, A-E1W2-XHE-R-12, /PZR-SV-REMOVEDW2, R-ElW2-R6-17 131 97.8 o.o l.403E-008 IE3W2R6, CCW-LF-RHE2B, /PZR-SV-REMOVEDW2, R-E3W2-R6-8 132 97.9 o.o 1.403E-008 IE2W2R6, CCW-LF-RHE2B, /PZR-SV-REMOVEDW2, R-E2W2-R6-8 133 98.0 o.o l.386E-008 IE13AW2D6, D-EAW2-XHE 134 98.0 o.o 1. 370E-008 ICT1W1D6, D-CTlWl-XHE 135 98.1 o.o 1.357E-008 IE7W2D6, CIR-COND-UNAVLBL, R-E7W2-D6-9 136 98.2 o.o 1. 329E-008 IE7W2D6, D-E7W2-XHE 137 98.3 o.o 1.293E-008 IE10W3R6, PZR-SV-REMOVEDW3, R-ElOW3-2CH 138 98.4 o*.o l.291E-008 IMAW2R6, LOOPISOLATED2R6, A-MAW2-XHE-FH-9, A-MAW2-XHE-FL-9, /PZR-SV-REMOVEDW2 139 98.4 o.o 1.277E-008 IE3W2R6, A-E3W2-XHE-FL-10, A-E3W2-XHE-R-3, 

                                 /PZR-SV-REMOVEDW2 140   98.5     o.o  1.277E-008   IE2W2R6, A-E2W2-XHE-FL-10, A-E2W2-XHE-R-3,
                                 /PZR-SV-REMOVEDW2 141   98.6     o.o  1.220E-008   IE6W2D6, FI-S-V-1535 142   98.7     o.o  1.188E-008   IE13AW3D6, D-EAW3-XHE 143   98.7     o.o  1.161E-008   IE4W3R6, /PZR-SV-REMOVEDW3, R-E4W3-2CH 144   98.8     o.o  1.16iE-008    IE5W3R6, /PZR-SV-REMOVEDW3, R-E5W3-2CH 145   98.9     o.o  1.147E-008    IE7W3D6, D-E7W3-XHE 146   98.9     o.o  1.105E-008   ICV1W4D6, <TRUE>, R-CV1W4-2CH 147   99.0     o.o  1.104E-008    ICT1W2R6, D-CT1W2-XHE, /PZR-SV-REMOVEDW2 148   99.1     o.o  1.066E-008    IE1W2R6, ACP~INV-NO-UPSA2, /PZR-SV-REMOVEDW2, R-ElW2-R6-17      .

149 99.1 o.o 1.019E-008 IE13BW1D6, CCW-LF-RHE2B, R-E13BW1-D6-7 150 99.2 o.o l.017E-008 IE7W1R6, AFW-MDP-MA-FW3B, /PZR-SV-REMOVEDWl, R-E7Wl-R6-17 151 99.2 o.o 1.000E-OQS IM4W1D6, <TRUE> 152 .99. 3 a.a 9.994E-009 IE6W1D6, <TRUE>, R-E6W1-D6-2 153 99.4 o.o 9.817E-009 IE1W1D6, A-ElWl-XHE-R-12, R-E1W1-D6-7 154 99.4 a.a 9.802E-009 IE7W2R6, SSHR-AOV-XHE-105, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 155 99.5 o.o 9.632E-009 IE13BW2R6, CCW-LF-RHE2B, A-EBW2-XHE-FL-19, 

                                 /PZR-SV-REMOVEDW2 1994/01/27                        23:02:45                       page     4 0-4

Partition cut Set Report Family->RHRTEST End State ->CD Mincut Upper Bound-> 1.676E-005 This Partition-> l.676E-005 cut  %  % cut No. Total Set Frequency cut sets 156 99.5 0.0 9.436E-009 IE13AW1D6, D-EAWl-XHE 157 99.6 0.0 9.283E-009 ICT2W2R6, LOOPISOLATED2R6, CPC-MDP-FR-SWlOA, CPC-MDP-MA-SWlOB, LPR-CCF-PG-SUMP2, 

                                  /PZR-SV-REMOVEDW2 158  99.6    0.0     9.199E-009   IE13BW1D6, CCW-LF-RHE2B, A-EBWl-XHE-FL-19 159  99.7    0.0
  • 9.175E-009 IE8W4Rl0, /PZR-SV-REMOVEDW4, A-E8W4-XHE-2CH-8 160 99.8 0.0 9.162E-009 IE7W1D6, D-E7Wl-XHE 161 99.8 O.O 9.lllE-009 IE2W3R6, PZR-SV-REMOVEDW3, A-E2W3-XHE-FL-4, A-E2W3-XHE-R-3 162 99.9 0.0 9.lllE-009 IE3W3R6, PZR-SV-REMOVEDW3, A-E3W3-XHE-FL-4, A-E3W3-XHE-R-3 163 99.9 0.0 9.013E-009 IE12W1D6, CON-VFC-RP-COREM, OSR-TRA-MA, ISR-TRA-MA 164 100.0 0.0 8.980E-009 IE7W2D6, MSS-NRV-MA-101A, FI-S-V-1536 165 100.0 0.0 8.980E-009 IE7W2D6, MSS-NRV-MA-lOlB, FI-S-V-1535 166 100.0 0.0 8.980E-009 IE7W2D6, MSS-NRV-MA-lOlB, FI-S-V-1536 167 100.0 0.0 8.980E-009 IE7W2D6, MSS-NRV-MA-101A, FI-S-V-1535 168 100.0 0.0 8.935E-009 IE1W2D6, CCW-LF-RHE2B, R-E1W2-D6-9 169 100.0 0.0 8.924E-009 IE1W1D6, FI-S-V-1700, R-E1Wl-D6-7 170 100.0 0.0 8.868E-009 IE13BW2D6, CCW-MDP-FS-CCPlB, R-El3BW2-D6-9 171 100.0 0.0 8.868E-009 IE13BW2D6, RHR-MDP-FS-RHRlB, R-El3BW2-D6-9 172 100. 0 0.0 8.860E-009 IE1W1D6, A-ElWl-XHE-FL-19, A-ElWl-XHE-R-12 173 100.0 0.0 8.552E-009 IE7W2D6, AFW-MDP-FS-FW3B, R-E7W2-D6-9 174 100.0 0.0 8.376E-009 IE1W2R6, A-E1W2-XHE-FL-19, FI.-S-V-1700,
                                  /PZR-SV-REMOVEDW2             ;

175 100.0 0.0 8.172E-009 IE4W4D6, <TRUE>, R-E4W4-2CH 176 100.0 0.0 8.172E-009 IE5W4D6, <TRUE>, R-E5W4-2CH 177 100.0 0.0 8.152E-009 IE1W2D6, A-ElW2-XHE-FL-19, A-E1W2-XHE-R-12 178 100.0 0.0 8.055E-009 ICT2W1D6, LPI-CCF-FS-SI1AB 179 100.0 0.0 8.054E-009 IE1W1D6, A-ElWl-XHE-FL-19, FI-S-V-1700 180 100.0 0.0 7.925E-OO~ ICT1W3R6, PZR-SV-REMOVEDW3, D-CT1W3-XHE 181 100.0 0.0 7.847E-009 IE3W2D6, CCW-LF-RHE2B, A-E3W2-XHE~FL-10 182 100.0 0.0 7.847E-009 IE2W2D6, CCW-LF-RHE2B, A-E2W2-XHE-FL-10 183 100.0 0.0 7.715E-009 IE7WlR6, /PZR-SV-REMOVEDWl, A-E7Wl-XHE-S2-l7, R-E7Wl-R6-17 184 100.0 0.0 7.660E-009 IE13AW2R6, /PZR-SV-REMOVEDW2, D-EAW2-XHE 185 100.0 0. 0, 7. 540E-009 IE7W2R6, CIR-COND-UNAVLBL, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 186 100.0 0.0 7.460E-009 IM4W2D6, A-M4W2-XHE-S1-8 187 100.0 0.0 7.382E-009 IE7W2R6, /PZR-SV-REMOVEDW2, D-E7W2-XHE 188 100.0 0.0 7.210E-009 IE12W1D6, A-ECWl-XHE-C-18 189 100.0 0.0 7.210E-009 ICT1W1D6, LPR-CCF-PG-SUMPl 190 100.0 0.0 7.013E-009 IE1W3D6, A-ElW3-XHE-FL-13, A-E1W3-XHE-R-9 191 100.0 0.0 6.890E-009 IE3W3D6, A-E3W3-XHE-FL-7, FI-S-V-1700, R-E3W3-2CH 192 100.0 0.0 6.890E-009 IE2W3D6, A-E2W3-XHE-FL-7, FI-S-V-1700, R-E2W3-2CH 1994/01/27 23:02:45 page 5 0-5

Partition Cut Set Report Family->RHRTEST End State ->CD Mincut Upper Bound-> l.676E-005 This Partition-> l.676E-005 cut t t cut No. Total Set Frequency cut sets 193 100.0 o.o 6.750E-009 IE6W2R6, /PZR-SV-REMOVEDW2, FI-S-V-1535 194 100.0 o.o 6.420E-009 IM4W3D6, A-M4W3-XHE-Sl-7 195 100.0 o.o 6.419E-009 IE12W1D6, CPC-MDP-FR-SWlOA, CPC-MDP-MA-SW10B, A-ECWl-XHE-FL-19 196 100.0 o.o 6.25BE-009 IE7W2R6, SGS-DRAINED-R, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 197 100.0 o.o 6.088E-009 IE13BW306, ACP-INV-NO-UPSA2, A-EBW3-XHE-FL-13, R-EBW3-2CH 198 100.0 o.o 6.039E-009 IE1W206, ACP-INV-NO-UPSA2, A-ElW2-XHE-FL-19 199 100.0 o.o 5.912E-009 IE13BW2D6, CCW-MDP-MA-CCP1B, R-El3BW2-D6-9 200 100.0 o.o 5.808E-009 IE2W4Rl0, PZR-SV-REMOVEDW4, A-E2W4-XHE-FL-4, FI-S-V-1700 201 100.0 o.o 5.808E-009 IE3W4Rl0, PZR-SV-REMOVEDW4, A-E3W4-XHE-FL-4, FI-S-V-1700 o.o 5.802E-009 IC'1'2W2R6, L00PISOLATED2R6, CPC-MDP-FR-SWlOA, 202 100.0 CPC-MDP-MA-SW10B, OSR-TRA-MA, ISR-TRA-MA, 

                                /PZR-SV-REMOVEDW2 203 100.0    o.o  5.787E-009    IE7W1R6, L00PISOLATED1R6, /PZR-SV-REMOVEDWl, R-E7Wl-R6-17 204 100.0    o.o  5.714E-009    IE6W4R10, PZR-SV-REMOVEDW4, A-E6W4-XHE-FL-4 205 100.0    o.o  5.700E-0~9    IMAW3D6, A-MAWJ-XHE-FH-7, A-MAW3-XHE-FL-7, A~MAW3-XHE-S1-7 206 100.0    o.o  5.485E-009    IE13AW3R6, PZR-SV-REMOVEDW3, D-EAW3-XHE 207 100.0    o.o  S.261E-009    IE7W3R6, PZR-SV-REMOVEDW3, D-E7W3-XHE 208 100.0    o.o  5.250E-009    IE7W2R6, PZR-SV-REMOVEDW2, LPR-CCF-PG-SUMP2 209 100.0    o.o  S.250E-009    IE7W2R6, PZR-SV-REMOVEDW2, FI-S-V-1535 210 100.0    O.Q  5.250E-009    IE7W2R6, PZR-SV-REMOVEDW2, FI-S-V-1536 211 100.0    o.o  5.096E-009    ICV1W3Rl0, PZR-SV-REMOVEDWJ, R-CV1W3-2CH 212 100.0    o.o  5.066E-009  . IE13BW4R10, A-EBW4-XHE-FL-13, A-EBW4-XHE-R-9,
                                /PZR-SV-REMOVEDW4 213 100.0    o.o  5.000E-009    IE10W2R6, PZR-SV-REMOVEDW2 214 100.0    o.o  4.957E~009    IE1W2R6, CCW-LF-RHE2B, /PZR-SV-REMOVEDW2, R-ElW2-R6-17 215 100.0    o.o  4.943E-009     IE13BW2R6, CCW-MDP-FS-CCP1B, /PZR-SV-REMOVEDW2, R-El3BW2-R6-l7 216 100.0    o.o  4.943E-009     IE13BW2R6, RHR-MDP-FS-RHR1B, /PZR-SV-REMOVEDW2, R-El3BW2-R6-l7 217 100.0    o.o  4.849E-009     IE7W2D6, MSS-NRV-MA-101B, A-E7W2-XHE-FL-19 218 100.0    o.o  4.849E-009     IE7W2D6, MSS-NRV-MA-101A, A-E7W2-XHE-FL-19 219 100.0     o.o 4.828E-009     IE1W4R10, A-ElW4-XHE-FL-13, FI-S-V-1700,
                                 /PZR-SV-REMOVEDW4 220 100.0     o.o  4.783E-009    IE13AW2D6, AFW-MDP-MA-FWJB, DCP-BAT-LP-BATlA 221 100.0     o.o 4.750E-009     IE7W2R6, AFW-MDP-FS-FWJB, /PZR-SV-REMOVEDW2, R-E7W2-R6-17 222 100.0     0.0  4.728E-009    IE7W3R6, PZR-SV-REMOVEDWJ, A-E7W3-XHE-FL-10, R-E7W3-2CH 223 100.0     o.o  4.710E-009    IE6W3D6, A-E6W3-XHE-FL-7, R-E6WJ-2CH 1994/01/27                       23:02:45                       page      6 0-6
  • cut No.

Family->RHRTEST Total 

               , cut Set    Frequency Partition cut Set Report Mincut Upper Bound-> 1.676E-005
                                                         .End State ->CD This Partition-> 1.676E-005 cut Sets 224  100.0     o.o  4.670E-009     IE7W2D6, A-E7W2-XHE-S2-17, FI-S-V-1536 225  100.0     o.o  4.670E-009     IE7W2D6, A-E7W2-XHE-S2-17, FI-S-V-1535 226  100.0     o.o  4.664E-009     IE2W1D6, CCW-LF-RHE2B, R-E2W1-D6-3 227  100.0     o.o  4.664E-009     IE3W1D6, CCW-LF-RHE2B, R-E3W1-D6-3 228  100.0     o.*o 4.654E-009     ICT2W1D6, LPR-CCF-FT-862AB 229  100.0     o.o  4.654E-009     ICT2W1D6, LPR-CCF-FT-860AB 230  100.0     o.o  4.523E-009     IE1W2R6, A-ElW2-XHE-FL-19, A-E1W2-XHE-R-12,
                                      /PZR-SV-REMOVEDW2 231 100.0      o.o  4.410E-009 IE10W4R6, /PZR-SV-REMOVEDW4 232 100.0      o.o  4.397E-009 IEJW2R6, CCW-LF-RHE2B, A-E3W2-XHE-FL-10,
                                      /PZR-SV-REMOVEDW2 233 100.0      o.o  4.397E-od9 IE2W2R6, CCW-LF-RHE2B, A-E2W2-XHE-FL-10,
                                      /PZR-SV-REMOVEDW2 234  100.0     o.o  4.380E-009 IMGW1D6, LPR-CCF-PG~SUMPl 235  100.0     o.o  4.312E-009 IN1W2D6, D-N1W2-XHE 236  100.0     o.o  4.312E-009 IE13BW2D6, D-EBW2-XHE 237  100.0     o.q  4.293E-009 IE7W1R6, AFW-MDP-MA-FWJB, /PZR-SV-REMOVEDWl, A-E7Wl-XHE-FL-19 238  100.0     o.o  4.234E-009 IE10W4Rl0; /PZR-SV-REMOVEDW4, R-ElOW4-2CH 239  100.0     o.o  4.220E-009 IE8W1D6, A-E8Wl-XHE-CW-8 240  100.0     o.o  4.196E-009 IE3W1D6, CCW-LF-RHE;2B, A-EJWl-XHE-FL-10 241  100.0     o.o  4.196E-009 IE2W1D6; A-E2Wl-XHE-FL-10, ccw-LF-RHE2B
 *242   100.0     o.o  4.180E-009' IE8W1D6, <TRUE>, R-E8Wl-D6-2 243  100.0     o.o  4.142E-009 IM4W2R6, A-M4W2-XHE-Sl-8, /PZR-SV-REMOVEDW2 244  100.0     o.o  4.lJlE-009 IE7W2D6, SGB-DRAINED-R, FI-S-V-1536 245  100.0     o.o  4.lJlE-009 IE7W2D6, SGA-DRAINED-R, FI-S-V-1536 246  100.0     o.o  4.lJlE-009 IE7W2D6, SGB-DRAINED-R, FI-S-V-1535 2,t7 100. 0    o.o  4.lJlE-009 IE7W2D6, SGA-DRAINED-R, FI-S-V-1535 248  100.0     o.o  4.086E-009 IE13BW1R6, A-EBWl-XHE-R-12, /PZR-SV-REMOVEDWl, R-E13BW1-R6-17 249  100.0     o.o  4.072E-009 IE7W2D6, AFW-MOV-FT-151C, R-E7W2-D6-9 250  100.0     o.o  4.072E-009 IE7W2D6, MSS-NRV-FT-101B, R-E7W2-D6-9 251  100.0     o.o  4.072E-009 IE7W2D6, AFW-MOV-FT-151E, R-E7W2-D6-9 252  100.0     o.o  4.072E-009 IE7W2D6, MSS-NRV-FT-101A, R-E7W2-D6-9 253  100.0     o.o  4.039E-009 IE2W2D6, CCW-MDP-FS-CCP1B, R-E2W2-D6-4 254  100.0     o.o  4.039E-009 *IE2W2D6, RHR-MDP-FS-RHR1B, R-E2W2-D6-4 255  100.0     o.o  4.039E-009 IE3W2D6, CCW-MDP-FS-CCP1B, R-E3W2-D6-4 256  100.0
  • o. 0 4.039E-009 IE3W2D6, RHR-MDP-FS-RHR1B, R-E3W2-D6-4 257 100.0 o.o 4.004E-009 IE8W2D6, A-E8W2-XHE-CW=8 258 100.0 o.o J.984E-009 ICT2W1D6, CPC-MDP-FR-SWlOA, CPC-MDP-MA-SW10B, OSR-TRA-MA, ISR-TRA-MA 259 100.0 o.o 3.932E-009 IE8W4R10, PZR-SV-REMOVEDW4, A-E8W4-XHE-2CH-5 260 100.0 o.o 3.779E-009 IE4W3R10, PZR~sv-REMOVEDWJ, R-E4WJ-2CH 261 100.0 o.o 3 .* 779E-009 IE5W3R10, PZR-SV-REMOVEDWJ, R-E5W3-2CH
  -262  100. 0    o.o  3.749E-009 ICT1W1D6, LPR-MOV-FT-1862B 263  100.0     o.o  3.718E-009 IE12W2R6, LOOPISOLATED2R6, CPC-MDP-FR-SWlOA, CPC-MDP-MA~SW10B, LPR-CCF-PG-SUMP2, 1994/01/27                        23:02:45                       page     7 0-7

Partition Cut Set Report Family->RHRTESl' End State ->CD Mincut Upper Bound-> l.676E-005 This Partition-> l.676E-oos cut t t cut No. Total Set Frequency cut Sets 

                                      /PZR-SV-REMOVEDW2 264  100.0     o.o     3.718E-oob     IN1W306, D-N1W3-XHE 265  100.0     o.o     3.718E-009     IE13BW3D6, D-EBW3-XHE 266  100.0     o.o     3.713E-009     IE7W4R10, LPI-MDP-FS-SI1B, /PZR-SV-REMOVEDW4 267 100.0     o.o     3.688E-009     IE13BW1R6, A-EBWl-XHE-R-12, A-EBWl-XHE-FL-19,
                                      /PZR-SV-REMOVEDWl 268 100.0     o.o     3.687E-009     IMAW2R6, A-MAW2-XHE-S1-8, A-MAW2-XHE-FH-9, A-MAW2-XHE-FL-9, /PZR-SV-REMOVEDW2 269 100.0     o. o*   3.653E-009     ICT2WlR6, LOOPIS0LATED1R6, LPR-CCF-PG-SUMPl,
                                      /PZR-SV-REMOVEDWl 270 100.0     0.0     3.570E-009     IE1W106, ACP-INV-NO-UPSA2, R-ElWl-06-7 271 100.0     o.o     3.SlOE-009     IE13AW2R6, LOOPIS0LATED2R6, DCP-BAT-LP-BATlA,
                                      /PZR-SV-REMOVEDW2 272 100.0     o.o     3.479E-009      IE13AW106, H-4KV-REC-Wl, A-EAWl-XHE-R-12, R-E13AW1-D6-7 273 100.0     0.0     3.442E-009      IE8W306, A-E8W3-XHE-CW-8 274 100.0     o.o     3.401E-009      ICT2WlD6, CON-VFC-RP-COREM, ISR-MDP-FS-RSlA, OSR-TRA-MA 275 100.0     o.o     3.350E-009      IE1W2R6, ACP-INV-NO-UPSA2, A-E1W2-XHE-FL-19,
                                      /PZR-SV-REMOVEDW2 276 100.0     0.0     3.295E-009      IE13BW2R6, CCW-MDP-MA-CCPlB, /PZR-SV-REMOVEDW2, R-E13BW2-R6-17
  • 277 100.0 o.o 3.267E-009 IE6Wl06, FI-S-V-1535 278 100.0 o.o 3.257E-009 IM3W3R6, PZR-SV-REMOVEDW3, A-M3W3-XHE-FH-4, A-M3W3-XHE-FL-4, A-M3W3-XHE-R-3 279 100.0 o.o 3.257E-009 IE7WlR6, /PZR-SV-REMOVEDWl, A-E7Wl-XHE-FL-19, A-E7Wl-XHE-S2-17 280 100.0 o.o 3.255E-009 ICT1WlD6, A-CTlWl-XHE-FH-9, A-CTlWl-XHE-FL-9 281 100.0* o.o 3.245E-009 IE12Wl06, LPI-CCF-FS-SI1AB 282 100.0 o.o 3.237E-009 IE1W3R6, PZR-SV-REMOVEDW3, A-E1W3-XHE-FL-10, A-ElW3-XilE-,-R-9 283 100.0 0.0 3.234E-009 IE3W406, A-E3W4-XHE-.FL-7, FI-S-V-1700

. 284 100. 0 o.o 3.234E-009 IE2W4D6, A-E2W4-XHE-FL-7, FI-S-V-1700 285 100.0 0 *. 0 *3.222E-009 IE1WlD6, ACP-INV-NO-UPSA2, A-E1Wl-XHE-FL~l9 286 100.0 o.o 3.206E-009 IE2W3R6, PZR-SV-REMOVEDW3, A-E2W3-XHE-FL-4, FI-S-V-1700, R-E2W3-2CH 287 100.0 0.0 3 *. 206E-009 IE3W3R6, PZR-SV-REMOVEDW3, A-EJWJ-XHE-FL-4, FI-S-V-1700, R-E3W3-2CH 288 100.0 0.0 3.196E-009 IE6W4D6, A-E6W4-XHE-FL-7 289 100.0 0.0 3.177E-009 IM3W2R6, LOOPIS0LATED2R6, A-M3W2-XHE-FH-10, A-M3W2-XHE-FL-10, A-M3W2-XHE-R-3, 

                                       /PZR-SV-REMOVEDW2 290 100.0     o.o     3.165E-009      ICT2W2D6, ACP-BAC-ST-4KV1H, AFW-MDP-MA-FWJB 291 100.0     o.o     3.143E-009      IE13AW1D6, A-EAWl-XHE-FL-19, H-4KV-REC-Wl, A-EAWl-XHE-R-12 292 100.0     o.o     2.980E-009       ICVlWJRlO, /PZR-SV-REMOVEDWJ 293 100.0     o.o     2.968E-009       ICT1W4Rl0, D-CT1W4-XHE, /PZR-SV-REMOVEDW4 1994/01/27                           23:02:45                        page     8 0-8

Appendix P Basic Event Importance Reports

  • Appendix P.1 Basic Event Importance Sorted by Fussell-Vesely Importance
  • Family IMPORTANCE MEASURES REPORT (Alternate Cut Sets)
RHRTEST Analysis: RANDOM Case .ALTERNATE EndState (Sorted by Fussell-Vesley Importance)
CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio
 <TRUE>                   22    1. OOOE+OOO     3.999E-001    1.666E+OOO   1. OOOE+OOO ICV1W2D6                  1    l.860E-006      1. 020E-001   l.114E+OOO   5.486E+004 AFW-MDP-MA-FW3B          49    5.272E-001      8.432E-002    l.092E+OOO   l.076E+OOO IE7W2D6                109     1. 796E-006     7.569E-002    l.082E+OOO   3.219E+004 IE4W2D6                   1    1. 370E-006     7.516E-002    1. 081E+OOO  5.486E+004 IE5W2D6                   1    1. 370E-006     7.516E-002    l.081E+OOO   5.486E+004 IE7W2R6                  96    1. 050E-006     7.429E-002    1. 080E+OOO  4,369E+004 ICV1W2R6                  2    1. 090E-006     5.980E-002    l.064E+OOO   5.226E+004 R-E7W2-D6-9              40    7.558E-001      5,590E-002    l.059E+OOO   l.OlSE+OOO R-E7W2-R6-17             37    7.559E-001      5.431E-002    l.057E+OOO   1.018E+OOO FI-S-V-1700              96    l.OOOE-001      4.648E-002    1. 049E+OOO  1. 418E+OOO IE4W2R6                   2    8.090E-007      4.438E-002    1. 046E+OOO  5.226E+004 IE5W2R6                   2    8.090E-007      4.438E-002    l.046E+OOO   5.226E+004 LOOPISOLATED2R6          84    7.000E-001      4.387E-002    1. 046E+OOO  1. 019E+OOO IE7Wl.D6                  8    4.822E-007      2.822E-002    l.029E+OOO   4.160E+004 IE13BW2D6.               68    3.920E-006      2.747E-002    l.028E+OOO   6.656E+003 ICV1W1D6                  1    4.980E-007      2.732E-002    1. 028E+OOO  5.486E+004 ICT2W1D6                 51    1. 790E-005     2.603E-002    l.027E+OOO   l.440E+003 R-CV1W3-2CH               4    l.900E-001      2.550E-002    1. 026E+OOO  l.109E+OOO ACP-INV-NO-UPSA2         92    4.000E-002      2.076E-002    1. 021E+OOO  l.498E+OOO R-El3BW2-D6-9            35    7.541E-001      2.056E-002    1. 021E+OOO  l.007E+OOO
  • IE4W1D6 1 3.680E-007 2.019E-002 1. 021E+OOO 5.486E+004 IE5W1D6 1 3.680E-007 2.019E-002 1. 021E+OOO 5.486E+004 FI-S-V-1535 51 l.OOOE-001 1.895E-002 l,019E+OOO l. l 71E+OOO R-E4W3-2CH 5 1. 900E-001 l.890E-002 l.019E+OOO 1. 081E+OOO R-E5W3-2CH 5 1.900E-001 1. 890E-002 l.019E+OOO 1. 081E+OOO IE2W2D6 61 1. 780E-006 1. 872E-002 l.019E+OOO 9.768E+003 IE3W2D6 61 1. 780E-006 1.872E-002 l,019E+OOO 9. 7,68E+003 A-EBW2-XHE-R-12 14 5.400E-002 1. 820E-002 l.019E+OOO 1. 319E+OOO FI-S-V-1536 46 1. OOOE-001 1. 770E-002 l.018E+OOO 1.159E+OOO CCW-LF-RHE2B 100 l.860E-002 l.677E-002 1. 017E+OOO l.885E+OOO r°CV1W3D6 1 l.600E-006 1. 668E-002 l,017E+OOO l.042E+004 R-E7Wl-D6-7 1 5.922E-001 1.567E-002 l,016E+OOO 1. OllE+OOO IE13BW2R6 63 2.300E-006 l.552E-002 1. 016E+OOO 6.417E+003 LPR-CCF-PG-SUMPl 21 1. OOOE-002 l.501E-002 l.015E+OOO 2.486E+OOO R-E3W2-D6-4 27 7.563E-001 1. 390E-002 1. 014E+OOO l.004E+OOO R-E2W2-D6-4 27 7.563E-001 1. 390E-002 l,014E+OOO 1. 004E+OOO IE4W3D6 1 ,l,180E-006 1. 230E-002 1. 012E+OOO 1. 042E+004 IE5W3D6 1 l.180E-006 1. 230E-002 l.012E+OOO 1. 042E+004 R;..El3BW2-R6-17 27 7.541E-001 l.143E-002 1. 012E+OOO 1. 004E+OOO IE12W1D6 45 7.210E-006 l.090E-002 1. OllE+OOO 1. 497E+003 IE13BW1D6 38 1. OSOE-006 l,060E-002 1. OllE+OOO 9.386E+003 IE3W2R6 51 l.050E-006 l.059E-002 1. OllE+OOO 9.393E+003 IE2W2R6 51 1.0SOE-006 1. 059E-002
  • l.OllE+OOO 9.393E+003 1994/01/27 12:42:35 page 1 P-1

IMPORTANCE MEASURES REPORT (Alternate Cut Sets) Family RHRTEST EndState  : CD Analysis RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio A-EBW2-XHE-FL-19 33 2.370E-001 9.959E-003 l.OlOE+OOO 1. 032E+OOO IE10W2D6 1 l.700E-007 9.326E-003 l.009E+OOO 5.486E+004 ICV1W3R6 2 8.200E-007 8.547E-003 l.009E+OOO 1. 025E+004 A-E3W2-XHE-R-3 10 5.400E-002 8.267E-003 1. 008E+ooo* l.145E+OOO A-E2W2-XHE-R-3 10 5.400E-002 8.267E-003 1. 008E+OOO l.145E+OOO IE1W2D6 34 6.370E-007 7.891E-003 1. 008E+OOO l.130E+004 LPR-MOV-FT-1862B 20 5.200E-003 7.848E-003 1. OOSE+OOO 2.501E+OOO A-E7W2-XHE-FL-19 23 5.400E-002 7.776E-003 1. OOSE+OOO l.136E+OOO R-E2W2-R6-8 18 7.564E-001 7.754E-003 1. OOSE+OOO l.002E+OOO R-E3W2-R6-8 18 7.564E-001 7.754E-003 l.008E+OOO l.002E+OOO A-E7Wl-XHE-FL-19 12 2.SOOE-001 7.298E-003 l.007E+OOO 1.022E+OOO IE6W2D6 7 1. 220E-007 6.874E-003 l.007E+OOO 4.284E+004 A-EBWl-XHE-R-12 7 l.lOOE-001 6.769E-003 l.007E+OOO l.055E+OOO A-E3W2-XHE-FL~l0 31 2.370E-001 6.745E-003 l.007E+OOO 1. 022E+OOO A-E2W2-XHE-FL-10 31 2.370E-001 6.745E-003 1.007E+OOO 1. 022E+OOO IE3W1D6 36 4.790E-007 6.529E-003 l.007E+OOO 1. 232E+004 IE2W1D6 36 4.790E-007 6.529E-003 l.007E+OOO l.232E+004 IE4W3R6 2 6.llOE-007 6.369E-003 l.006E+OOO 1.025E+004 IE5W3R6 2 6.llOE-007 6.369E-003 l.006E+OOO 1. 025E+004 R-E1W2-D6-9 17 7.541E-001 5.960E-003 l.006E+OOO 1.002E+OOO LPI-MDP-FS-SI1B 65 3.000E-003 5.833E-003 1.006:E+OOO 2.939E+OOO MSS-NRV-MA-lOlB 31 5.000E-002 5.558E-003 l.006E+OOO l.106E+OOO MSS-NRV-MA-lOlA 31 5.000E-002 5.558E-003 l.006E+OOO 1.106E+OOO IE10W2R6 2 l.OOOE-007 5.486E-003 l.006E+OOO 5.226E+Q04 R-El3BW1-D6-7 16 5.219E-001 5.452E-003 l.005E+OOO l.005E+OOO A-EBWl-XHE-FL-19 20 4.710E-001 5.236E-003 1.005E+OOO 1. 006E+OOO R-E6W2-D6-3 1 6.767E-001 4.529E-003 l.005E+OOO 1.002E+OOO LPR-MOV-FT-l860B 12 3.000E-003 4.491E-003 1.005E+OOO 2.493E+OOO IE8W2D6 6 7.SSOE-008 4.453E-003 l.004E+OOO 4.106E+004 IE1W2R6 31 3.720E-007 4.411E-003 l.004E+OOO l.086E+004 R-CV1W4-2CH 5 3.600E-002 4.355E-003 l.004E+OOO l.117E+OOO A-E7W2-XHE-S2-l7 9 2.600E-002 4.031E-003 l.004E+OOO l.151E+OOO CPC-MDP-MA-SWlOB 105 9.274E-001 3.892E-003 1.004E+OOO 1.000E+OOO IE6W2R6 9 7.105E-008 3.885E-003 l.004E+OOO 4.158E+004 A-EBW3-XHE-R-9 6 5.400E-002 3.639E-003 1. 004E+OOO 1.064E+OOO ICV1W4Rl0 2 1. 830E-006 3.614E-003 1.004E+OOO l.961E+003 OSR-TRA-MA 50 2.SOOE-001 3.526E-003 l.004E+OOO 1.0llE+OOO R-E2Wl-D6-3 14 5.235E-001 3.330E-OQ3 1.003E+OOO 1.003E+OOO R-E3Wl-D6-3 14 5.235E-001 3.330E-003 1.003E+OOO 1.003E+OOO R-ElW2-R6~17 16 7.541E-001 3.302E-003 l.003E+OOO 1. OOlE+OOO R-E4W4-2CH 5 3.600E-002 3.234E-003 l.003E+OOO 1. 087E+OOO R-E5W4-2CH 5 3.600E-002 3.234E-003 l.003E+OOO 1. 087E+OOO A-EBW3-XHE-FL-13 14 2.370E-001 3.214E-003 l.003E+OOO 1. OlOE+OOO A-E3Wl-XHE-FL-10 15 4.710E-001 3.177E-003 1. 003E+OOO l.004E+OOO 1994/01/27 12:42:35 page 2 P-2

  • Family IMPORTANCE MEASURES REPORT (Alternate cut Sets)
RHRTEST Analysis: RANDOM Case ALTERNATE EndState  : CD (Sorted by Fussell-Vesley Importance)

Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio A-E2Wl-XHE-FL-10 15 4.710E-001 3.177E-003 l.003E+OOO 1. 004E+OOO IE13BW3D6 12 3.380E-006 3.163E-003 1.003E+OOO 9.334E+002 A-E8W2-XHE-2CH-8 2 4.700E-001 3.148E-003 l.003E+OOO l.004E+OOO ISR-TRA-MA 40 2.500E-001 3.llOE-003 1.003E+OOO l.009E+OOO A-E3Wl-XHE-R-3 6 1. lOOE-001 3.084E-003 1.003E+OOO 1. 025E+OOO A-E~Wl-XHE-R-3 6 1. lOOE-001 3.084E-003 1,003E+OOO 1. 025E+OOO CPC-MDP-FR-SWlOA 69 3,840E-003 2,988E-003 1. 003E+OOO 1. 775E+OOO A-ElW2-XHE-R-12 8 5,400E-002 2.938E-003 l.003E+OOO 1.051E+OOO IE7WlR6 0 40 3.290E-008 2,883E-003 l.003E+OOO 4.518E+004 A-ElW2-XHE-FL- 19 18 2,370E-001 2.867E-003 l.003E;+OOO 1. 009E+OOO SGA-DRAINED-R 31 2.300E-002 2.774E-003 l.003E+OOO l.llSE+OOO SGB-DRAINED-R 31 2.300E-002 2.774E-003 l.OOJE+OOO 1.118E+OOO IE5W4Rl0 2 1. 360E-006 2.686E-003 1. 003E+OOO 1. 961E+003 IE4W4Rl0 2 1.360E-006 2.686E-003 1.003E+OOO 1.961E+003 IE1W1D6 15 1. 710E-007 2.603E-003 1.003E+OOO 1. 355E+004 IE8W2R6 7 4.590E-008 2.599E-003 1.003E+OOO 4.046E+004 RHR-MDP-FS-RHR1B 37 3.000E-003 2.551E-003 1.003E+OOO 1.848E+OOO CCW-MDP-FS-CCP1B 37 3.000E-003 2.551E-003 1.003E+OOO 1. 848E+OOO IE10W1D6 1 4.SSOE-008 2.513E-003 1.003E+OOO 5.486E+004 R-E6W2-R6-7 1 ~.767E-001 2.506E-003 1.003E+OOO 1. OOlE+OOO A-E6W2-XHE-FL-9 2 2.370E-001 2.464E-003 1.002E+OOO 1,00SE+OOO CON-VFC-RP-COREM 22 2.000E-002 2.324E-003 1. 002E+OOO 1.114E+OOO R-E10W3-2CH 3 1.900E-001 2.320E-003 1.002E+OOO 1. OlOE+OOO H-4KV-REC-W2 73 1. 300E-002 2.256E-003 1.002E+OOO 1.171E+OOO LPR-CCF-PG-SUMP2 55 1. OOOE-001

  • 2 .128E-003 1.002E+OOO 1. 019E+OOO R-E8W2-D6-3 1 4.860E-001 2.093E-003 1. 002E+OOO 1. 002E+OOO SSHR-AOV-XHE-105 10 1. 300E-002 2.031E-003 1.002E+OOO 1,154E+OOO IE8W3D6* 5 6.750E-008 2,029E-003 1.002E+OOO 2.801E+004 ICT2W2R6 40 3.920E-005 l.975E-003 1.002E+OOO 5.137E+001 IE6W1D6 4 3.267E-008 l.928E-003 1. 002E+OOO 4,313E+004 ICT1W1D6 14 7.210E-007 1. 927E-003 l.002E+OOO 2.624E+OOJ ICV1WlR6 2 3.400E-008 l.865E-003 l.002E+OOO 5.432E+004 A~E8W3-XHE-2CH-8 2 4.700E-001 1.SJOE-003 1,002E+OOO 1.002E+OOO DCP-BAT-LP-BATlA 40 7.200E-004 1. 761E-003 1.002E+OOO 3.444E+OOO A-E3W3-XHE-FL-7 9 2.370E-001 1. 730E-003 1.002E+OOO 1.006E+OOO A-E2W3-XHE-FL-7 9 2.370E-001 1. 730E-003 .1,002E+OOO 1.006E+OOO D:-CT1W2-XltE 3 7.400E-003 1. 729E-003 1,002E+OOO 1. 232E+OOO IE13BW3R6 13 1. 730E-006 1. 721E-003 l.002E+OOO 9.903E+002 IE2W3D6 10 1. 530E-006 l.680E-003 1.002E+OOO 1. 093E+003 IE3W3D6 10 1. 530E-006 1.680E-003 1. 002E+OOO l.093E+003 CCW-MDP-MA-CCP1B 31 2.000E-003 1. 675E-003 1.002E+OOO 1.836E+OOO A-E2W3-XHE-R-3 4 5.400E-002 1.648E-003 1.002E+OOO 1,029E+OOO A-E3W3-XHE-R-3 4 5.400E-002 1.648E-003 1.002E+OOO 1. 029E+OOO R-E7Wl-R6-17 14 5,922E-001 l.647E-003 1,002E+OOO 1. OOlE+OOO 1994/01/27 12:42:35 page 3 P-3

Family Analysis Case IMPORTANCE MEASURES REPORT (Alternate cut sets) RHRTEST RANDOM ALTERNATE EndState  : CD (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio

~-

CIR-COND-UNAVLBL 9 l.OOOE-002 1.558E-003 1.002E+ooo l.154E+OOO IE13AW206 14 l.260E-005 l.SSSE-003 1.002E+OOO 1.243E+002 IMJW106 10 6.070E-008 1.554E-003 1.002E+OOO 2.460E+004 A-MJWl-XHE-R-3 10 5.900E-001 l.547E-003 1.002E+OOO l.OOlE+OOO IE10W306 1 l.470E-007 1.532E-003 1.002E+OOO l.042E+004 A-MJWl-XHE-FH-10 2 7.200E-001 1.443E-003 1.00lE+OOO l.OOlE+OOO 0-CTlWJ-XHE 4 7. 400E-003 . 1.437E-003 1. OOlE+OOO l.193E+OOO

  • A-EBWJ-XHE-FL-10 9 2.370E-001 1.432E-003 1. OOlE+OOO 1.00SE+OOO IE5WlR6 2 2.530E-008 1. 388E-003 1. OOlE+OOO 5.432E+004 IE4WlR6 2 2.530E-008 1. 3.BSE-003 1.00lE+OOO 5.432E+004 IE8WlD6 5 2.llOE-008 1. 360E-003 1. OOlE+OOO 4.605E+004 R-ElWl-06-7 7 5.219E-001 l.354E-003 1. OOlE+OOO l.OOlE+OOO L00PIS0LATED1R6'. 23 3.000E-001 1.314E-003 1.00lE+OOO l.OOJE+OOO IE13AW106 12 13. 370E-006 l.309E-003 l.OOlE+OOO 3.885E+002 A-ElWl-XHE-FL-19 11 4.710E-001 1.JOJE-003 l.OOlE+OOO l.OOlE+OOO A-E6Wl-XHE-FL-9 2 6.SlOE-001 1.246E-003 l.OOlE+OOO 1.00lE+OOO D-EAW2-XHE 3 1.lOOE-003 l.203E-003 1. OOlE+OOO 2.092E+OOO IMAW2R6 17 2.390E-006' 1.170E-003 l.OOlE+OOO 4.893E+002 PZR-SV-REMOVEDW4 125 3.000E-001 l.163E-003 l.OOlE+OOO l.OOJE+OOO R-E8W2-R6-7 1 4.860E-001 l.163E-003 l.OOlE+OOO l.OOlE+OOO D-E7W2-XHE 3 7.400E-003 l.lSSE-003 l.OOlE+OOO l.155E+OOO H-4KV-REC-Wl 32 1. SOOE-002 1.134E-003 1.00lE+OOO 1.062E+OOO 1'-MAW2-XHE-FL-9 9 l.450E-001 1.lOJE-003 1.00lE+OOO 1.007E+OOO IM4W2R6 5 2.lBOE-008 l.lOJE-003 l.OOlE+OOO 4.096E+004 ICT1W2D6 2 2.690E-006 1. 099E-003 l.OOlE+OOO 4.096E+002 A-ElWl-XHE-R-12 4 1.lOOE-001 1.094E-003 1.001E+OOO l.009E+OOO A-MAW2-XHE-FH-9 8 5.600E-002 l.064E-003 1.00lE+OOO l.018E+OOO IE8WJR6 7 3.460E-008 1. 035E-003 1.00lE+OOO 2.692E+004 IE13AW2R6 12 7.330E-:006 1. 032E-003 l.OOlE+OOO l.417E+002 A-CT2Wl-XHE-C-8 2 l.OOOE-003 l.002E-003 1.00lE+OOO 2.00lE+OOO D.;.EAWJ-XHE 4 1.lOOE-OOJ* 9.970E-004 l.OOlE+OOO l.90SE+OOO AFW-MDP-FS-FW3B 9 6.JOOE-003 9.817E-004 1.00lE+OOO 1.155E+OOO D-E7W3-XHE 4 7.400E-003 9.605E-004 1.00lE+OOO l.129E+OOO ICT1WJD6 1 2.JlOE-006 9.378E-004 l.OOlE+OOO 4.070E+002 IE2WJR6 8 7.910E-007 9.372E-004 1. OOlE+OOO 1.177E+003 IEJWJR6 8 7.910E-007 9.372E-004 1. OOlE+OOO 1.177E+003 A-E8Wl-XHE-2CH-8 2 7,.400E-001 9.145E-004 l.OOlE+OOO l.OOOE+OOO IE12W2R6 22 l.570E-005 8.870E-004 1. OOlE+OOO 5.747E+001 IE8W4R10 8 7.710E-008 8.SlJE-004 1. OOlE+OOO 1. 041E+004 R-EBW3-2CH 15 1.900E-001 8.417E-004 l.OOlE+OOO 1.004E+OOO A-ESW3-XHE-2CH-4 2 4.700E-001 8.319E-004 l.OOlE+OOO 1.00lE+OOO 0-CTlWl-XHE 2 1.900E-002 8.024E-004 l.OOlE+OOO l.041E+OOO IE13AWJD6 4 l.OSOE-005 7.940E-004 1. OOlE+OOO 7.451E+001 IE10WJR6 2 7.560E-008 7.SSOE-004 l.OOlE+OOO l.025E+004 1994/01/27 12:42:35 page 4 P-4
                'IMPORTANCE MEASURES REPORT *(Alternate cut Sets)

Family  : RHRTEST EndState  : CD ' Analysis : RANDOM Case  : ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio LPI-CCF-FS-SilAB 11 4.SOOE-004 7.667E-004 1.00lE+OOO 2.703E+OOO A-E3W3-XHE-FL-4 6 2.370E-001 7.662E-004 l.OOlE+OOO l.002E+OOO A-E2W3-XHE-FL-4* 6 2.370E-001 7.662E-004 l.OOlE+OOO l.002E+OOO ACP-BAC-ST-4KV1H 16 9.000E-005 7.478E-004 l.OOlE+OOO 9.308E+OOO A-E7W1-XHE-S2-l7 4 4.000E-001 7.449E-004 l.OOlE+OOO l.OOlE+OOO IE1W4R10 12 6.270E-007 6.933E-004 l.OOlE+OOO l.098E+003 IE13BW1R6 11 7.190E-008. 6.879E-004 l.OOlE+OOO 8.943E+003 R-E2W3-2CH 7 l.900E-001 6.87lE-004 1.00lE+OOO l.003E+OOO R-E3W3-2CH 7 l.900E-001 6.871E-004 l.OOlE+OOO l.003E+OOO A-EBW4-XHE-FL-13 12 1.lOOE-001 6.853E-004 l.OOlE+OOO l.006E+OOO A-ElW3-XHE-FL-13 8 2.370E-001 6.771E-004 l.OOlE+OOO l.002E+OOO ICT1W2R6 5 l.570E-006 6.762E-004 l.OOlE+OOO 4.314E+002 IE7W3D6 3 l.SSOE-006 6.718E-004 l.OOlE+OOO 4.342E+002 IE7W4R10 12 l.768E-006 6.672E-004 l.OOlE+OOO 3.773E+002 IN1W2D6 12 3.920E-006 6.628E-004 l.OOlE+OOO l.699E+002 IE3W4Rl0 12 1. 760E-006 6.485E-004 l.OOlE+OOO 3.686E+002 IE2W4R10 12 1. 760E-006 6.485E-004 1. OOlE+OOO

  • 3.686E+002 A-ESW4-XHE-2CH-8 3 1. 700E-001 6.433E-004 l.OOlE+OOO l.003E+OOO IAS-CPS-FS-IAC-1 33 8.000E-002 6.381E-004 l.OOlE+OOO l.007E+OOO A-M4W2-XHE-S1-8 2 2.000E-001 6.365E-004 l.OOlE+OOO l.003E+OOO IE1W3D6 5 5.480E-007 6.325E-004 l.OOlE+OOO l.148E+003 IE7W3R6 6 *7. 900E-007 6.240E-004 l.OOlE+OOO 7~874E+002 ICT2W1R6 19 l.230E-006 6.194E-004 l.OOlE+OOO 5.026E+002 IMGW1D6 10 4.380E-007 6.082E-004 l.OOlE+OOO 1.376E+003 ICV1W4D6. 1 3.070E-007 6.063E-004 l.OOlE+OOO l.976E+003 A-ElW4-XHE-FL-13 n 1.lOOE-001 6.021E-004 l.OOlE+OOO l.OOSE+OOO A-ElW3-XHE""'.R-9 4 5.400E-002 5.SSSE-004 l.OOlE+OOO l.OlOE+OOO RHR-MDP-FR-B24HR 22 7.200E-004 5.772E-004 l.OOlE+OOO 1.801E+OOO CCW-MDP-FR-CCP1B 22 7.200E-004 5.772E-004 l.OOlE+OOO l.801E+OOO PORV-PATH-CLSD 30 5.000E-002 5.690E-004 l.OOlE+OOO l.OllE+OOO IM4W2D6 7 3.730E-008 5.607E-004 l~OOlE+OOO 1.413E+004 PPS-MOV-FT-1536 28 4.000E-002 5.546E-004 l.OOlE+OOO l.013E+OOO D-EAWl-XHE 2 2.SOOE-003 5.526E-004 l.OOlE+OOO l.197E+OOO IM4W1D6 1 l.OOOE-008 5.486E-004 1.00lE+OOO 5.486E+004 R-E6W1-D6-2 1 3.059E-001 5.483E-004 l.OOlE+OOO l.OOlE+OOO IMAW3D6 8 3.SlOE-006 5.384E-004 l.OOlE+OOO 1.543E+002 D-E7Wl-XHE 2 1. 900E-002 5.366E-004 l.OOlE+OOO l.028E+OOO ICT2W2D6 24 6.670E-005 5.330E-004 l.OOlE+OOO 8.991E+OOO A-MAW3-XHE-FL-7 7 l.450E-001 5.086E-004 1. OOlE+OOO l.003E+OOO MSS-NRV-MA-lOlC 20 5.000E-002 5.022E-004 l.OOlE+OOO l.OlOE+OOO SGS-DRAINED-R 9 8.JOOE-003 4.969E-004 l.OOOE+OOO l.059E+OOO A-MAW3-XHE-FH-7 7 5.600E-002 4.952E-004 l.OOOE+OOO l.OOSE+OOO IE13BW4R10 7 3.870E-006 4.926E-004 l.OOOE+OOO l.282E+002 ICT1W3R6 2 l.190E-006 4.831E-OE>4 l.OOOE+OOO 4.067E+002 1994/01/27 12:42:35 page 5 P-5

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family  : RHRTEST Endstate  :*CD Analysis: RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IM4W306 7 3.210E-008 4.826E-004 l.OOOE+OOO l.413E+004 A-EBW4-XHE-R-9 4 1. 700E-002 4.738E-004 l~OOOE+OOO 1.027E+OOO A-E3W4-XHE-FL-4 7 l.lOOE-001 4.694E-004 l.OOOE+OOO l.004E+OOO A~E2W4-XHE-FL-4 7 l.lOOE-001 4.694E-004 l.OOOE+OOO l.004E+OOO A._ECWl-XHE-FL-19 8 2.SOOE-001 4.693E-004 l.OOOE+OOO l.OOlE+OOO IE12WlR6 13 4.930E-007 4.491E-004 l.OOOE+OOO 9.053E+002 IE5W406 1 2.270E-007 4.483E-004 l.OOOE+OOO 1.976E+003 IE4W4D6 1 2.270E-007 4.483E-004 l.OOOE+OOO 1.976E+003 ICV1W3Rl0 2 2.980E-008 4.430E-004 l.OOOE+OOO 1.393E+004 IN1W2R6 12 2.JOOE-006 4.363E-004 l.OOOE+OOO l.904E+002 A-E2W4-XHE-FL-7 6 l.lOOE-001 4.214E-004 1.000E+OOO l.003E+OOO A-E3W4-XHE-FL-7 6 l.lOOE-001 4.214E-004 1.000E+OOO 1. 003E+OOO A-ECWl-XHE-C-18 3 l.OOOE-003 4.143E-004 1.000E+OOO l.414E+OOO IE3WlR6 6 3.280E-008 4. 05.0E-004 l.OOOE+OOO l.130E+004 IE2WlR6 6 3.280E-008 4.0SOE-004 l.OOOE+OOO 1.130E+004 RHR-CKV-00-CVll 15 l.OOOE-003 4.042E-004 1.000E+OOO l.404E+OOO ISR*,MDP-FS-RSlA 9 3.SOOE-002 4.0lSE-004 l.OOOE+OOO l.OlOE+OOO IE13AW3R6 5 5.540E-006 4.000E-004 1. OOOE+OOO 7.319E+001 A-EAWl-XHE-R-12 4 l.lOOE-001 3.878E-004 l.OOOE+OOO l.OOJE+OOO R-ElOW4-2CH 3 3.600E-002 3.875E-004 l.OOOE+OOO l.OlOE+OOO IN1W1D6 9 -1. OSOE-006 3.833E-004 l.OOOE+OOO 3.651E+002 R-E6W3-2CH 2 l.900E-001 3. 777E-004 l.OOOE+OOO l.002E+OOO D-NlW2-XHE 3 l.lOOE-003 3.754E-004 1.000E+OOO 1. 341E+OOO D-EBW2-XHE 3 l.lOOE-003 3.754E-004 l.OOOE+OOO 1. 341E+OOO LPR-CCF-FT-860AB 4 2.600E-004 3.747E-004 l.OOOE+OOO 2.441E+OOO LPR-CCF-FT-862AB 4 2.600E-004 3.747E-004 l.OOOE+OOO 2.441E+OOO H-4KV-REC-W3 21 9.000E-003 3.740E-004 l.OOOE+OOO 1. 041E+OOO IE1W3R6 9 2.SlOE-007 3.696E-004 l.OOOE+OOO l.305E+003 R-El3BW1-R6-l7 5 5.219E-001 3.SSSE-004 1.000E+OOO 1.000E+OOO CCW-CKV-OO-CV557 12 l.OOOE-003 3.SSOE-004 l.OOOE+OOO 1.355E+OOO RHR-CCF-FS-MDPAB 20 4.SOOE-004 3.533E-004 1.000E+OOO 1. 785E+OOO IE6W4Rl0 4 l.198E-007 3.531E-004 l.OOOE+OOO 2.932E+003 A-M4W3-XHE-S1-7 1 2.000E-001 3.522E-004 l.OOOE+OOO l.OOlE+OOO IE10W4R6 2 6.JOOE-009 3.456E-004 l.OOOE+OOO 4.334E+004 A-E8W2-XHE-CW-8 2 5.lOOE-002 3.416E-004 l.OOOE+OOO l.006E+OOO A-MAW3-XHE-S1-7 3 2.000E-001 3.391E-004 l.OOOE+OOO l.OOlE+OOO IE13BW4D6 7 6.480E-007 3.354E-004 l.OOOE+OOO 5. l 70E+002* RHR-XVM-PG-XV2 18 4.400E-004 3.346E-004 l.OOOE+OOO 1. 760E+OOO RHR-XVM-PG-XV6 18 4.400E-004 3.346E-004 l.OOOE+OOO 1. 760E+OOO A-MAW2-XHE-S1-8 6 2.000E-001 3.338E-004 l.OOOE+OOO 1.00lE+OOO IE10W4Rl0 2 l.680E-007 3.318E-004 l.OOOE+OOO l.961E+003 ACP-BAC-ST-lHl 10 9.000E-005 3.302E-004 l.OOOE+OOO 4.668E+OOO A-E6W4-XHE-FL-4 2 l.590E-001 3.251E-004 1.000E+OOO l.002E+OOO R-E7W3-2CH 4 l.900E-001 3.242E-004 l.OOOE+OOO l.OOlE+OOO 1994/01/27 12:42:35 page 6 P-6

  • Family Analysis case IMPORTANCE MEASURES REPORT (Alternate cut Sets)

RHRTEST RANDOM ALTERNATE I Endstate (Sorted by FUssell-Vesley Importance) 

                                                                      . CD Num. Probability        FUssell-             Risk          Risk of            of           Vesely          Reduction       Increase Event Name          0cc.       Failure        Importance            Ratio         Ratio A-EAW2-XHE-R-12            4 5.400E-002 3.217E-004 l.OOOE+OOO 1.006E+OOO IN2W206                    9      1.930E-006     3.170E-004     1.000E+OOO     l.650E+002 A-EAW2-XHE-FL-19           6     2.370E-001      3.161E-004     1.000E+OOO     1.00lE+OOO SAS-CPS-FR-2SAC1          16      4.SOOE..-003   3.159E-004     1.000E+OOO     l.066E+OOO SAS-CPS-FR-1SAC1          16     4.SOOE-003      3.159E-004     1.000E+OOO     1.066E+OOO R-E1W3-2CH                 6     1.900E-001      3.138E-004     1.000E+OOO     l.OOlE+OOO MSS-NRV-FT-101A            6     3.000E-003      3.109E-004     i.OOOE+OOO     1.103E+OOO MSS-NRV-FT-101B            6     3.000E-003      3.109E-004     1.000E+OOO     1.103E+OOO A-E7W3-XHE-FL-10           2      3.SOOE-002     3.092E-004     1.000E+OOO     1.009E+OOO D-N1W3-XHE                 3     1.lOOE-003      3.084E-004     1 .* 000E+OOO  1.280E+OOO D-EBW3-XHE                 3      1.lOOE-003     3.084E-004     1.000E+OOO     1.280E+OOO AFW-MOV-FT-151E            5      3.000E-003     3.075E-004     1. OOOE+OO.O   l.102E+OOO AFW-MOV-FT-151C            5     3.000E-003      3.075E-004     1.000E+OOO     l.102E+OOO IE6W306                    2      1.046E-007     3.009E-004     1.000E+OOO     2.859E+003 R-EAW2-2CH                 6      1.900E-001     2.985E-004     1.000E+OOO     l.OOlE+OOO A-E1W3-XHE-FL-10           6     2.370E-001      2. 950E-004
  • l.OOOE+OOO 1.00lE+OOO R-E13AW1-D6-7 3 5.214E:-001 2.925E-004 1.000E+OOO l.OOOE+OOO D-CT1W4-XHE 4 l.600E-003 2.776E-004 1.000E+OOO 1.173E+OOO A-EAWl-XHE:-FL-19 4 4.710E-001 2.759E-004* 1.000E+OOO 1. OOOE+OOO A-ECW1-XHE-S2-17 7 4.000E-001 2.607E-004 l.OOOE+OOO 1.000E+OOO A-E6W3-XHE-FL-7 1 2.370E-001 2.584E-004 1.000E+OOO 1.00lE+OOO
 . ACP-BCH-MA-UPSBl          11     4.00JE-001      2 .571E:-004   1.000E+OOO     l.OOOE+OOO DCP-BAT-LP-BAT1B          11      7.200E-004     2.571E-004     l.OOOE+OOO     1. 357E+OOO ACP-BCH-MA-UPSB2          11      4.00JE-001     2.571E;..004   l.OOOE+OOO     1.000E+OOO OEP-CRB-FT-15H3           17      3.000E-003     2.538E-004     1.000E+OOO     1.084E+OOO IMAW3R6                    5      1.SlOE-006     2.506E-004     1.000E+OOO     1.393E+002    .....

R-N1W2-D6-9 5 7.541E..;001

  • 2. SOOE-004 1.000E+OOO 1.000E+OOO* *cr~

IN1W3D6 4 3.JSOE-006 2.485E-004 1.000E+OOO 7.451E+001 A-EBWl-XHE-CW-8 2 2.000E-001 2.472E-004 1.000E+OOO 1.00lE+OOO IE3W4D6 3 2.940E-007 2.406E-004 1. OOOE+OOO 8.167E+002 IE2W4D6 3 2.940E-007. 2.406E-004 1. OOOE+OOO 8.167E+002 A-M3W3-XHE-R-3 7 2.400E-001 2.405E-004 1.000E+OOO l.OOlE+OOO A-M3W2-XHE-R-3 7 2.400E-001 2.342E-004 1.000E+OOO 1.00lE+OOO A-N1W2-XHE~R-12 4 5.400E-002 2.330E-004 1.000E+OOO 1.004E+OOO ICT1W4R10 2 2.650E-006 2.326E-004 l.OOOE+OOO B.87SE+001 A-M13W2-XHE-R-3 2 2.400E-001 2.316E-004 1.000E+OOO l.OOlE+OOO IE4W3R10 2 2.210E-OQ8 2.304E-004 1.000E+OOO 1. 025E+004 IESW3R10 2* 2.210E-008 2.304E-004 -1.000E+OOO 1.025E+004 IM3W2R6 7 1.320E-007 2.296E-004 1.000E+OOO 1. 729E+003 R-EBW1-D6-2 1 1.981E-001 2.293E-004 1.000E+OOO 1.00lE+OOO A-E6W4-XHE-FL-7 3 1.590E-001 2.288E-004 1.000E+OOO l.OOlE+OOO A-E8W4-XHE-2CH-5 2 1.700E-001 2.237E-004 1.000E+OOO 1. OOlE+OOO SGC-DRAINED-R 12 2.JOOE-002 2.220E-004 1.000E+OOO l.009E+OOO A-M3W2-XHE-FH-10 6 2.600E-001 2.211E.;.004 1.000E+OOO 1. OOlE+OOO 1994/01/27 12:42:35 page 7 P~7

Family Analysis case IMPORTANCE MEASURES REPORT (Alternate Cut Sets) RHRTEST RANDOM ALTERNATE EndState (Sorted by Fussell-Vesley Importance)

CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance. *Ratio Ratio HPI-MDP-FR-1A6HR 10 3.780E-004 2.182E-004 1.000E+OOO l.577E+OOO A-CT2W2-XHE-Sl-8 12 4.200E-002 .2.157E-004 1.000E+OOO 1.005E+OOO A-M3W2-XHE-FL-10 5 5.BOOE-001 2.145E-004 1.000E+OOO l.OOOE+OOO R-E2Wl-R6-8 3 5.235E-001 2.132E-004 1.000E+OOO l.OOOE+OOO R-E3Wl-R6-8 3 5.235E-001 2.132E-004 1.000E+OOO 1.000E+OOO A-E3W4-XHE-R-3 3 1. 700E-002 2.107E-004 1.000E+OOO l.012E+OOO A-E2W4-XHE-R-3 3 1.700E-002 2.107E-004 1. OOOE+OOO
  • 1.012E+OOO RHR-ASF-PG-1605 13 3.000E-004 2.077E-004 1.000E+OOO 1.692E+OOO IM3W3R6 3 1.000E-007 2.053E-004 1.000E+OOO 2.045E+003 R-E3W2-D6-9 4 7.533E-001 2.033E-004* 1.000E+OOO l.OOOE+OOO R-E2W2-D6-9 4 7.533E-001 2.033E-004 1.000E+OOO l.OOOE+OOO IE13AW4R10 6 1.240E-005 2.021E-004 1.000E+OOO 1. 730E+001 A-CT2W2-XHE-X 7 1.000E-003 2.020E-004 1.000E+OOO 1.202E+OOO A-E1W4-XHE-FL-10 4 1.lOOE-001 l.993E-004 1.000E+OOO 1.002E+OOO IN2W2R6 8 1.130E-006 1.989E-004 1.000E+OOO 1.768E+002 A-ESW3-XHE-CW-8 2 5.lOOE-002 1.985E-004 1.000E+OOO 1.004E+OOO A-M13W3-XHE-R-3 3 2.400E-001 1.942E-004 1.000E+OOO 1. OOlE+OOO.

A-CTlWl-XHE-FL-9 2 1.0SOE-001 l.934E-004 1.000E+OOO 1.002E+OOO A-M3W3-XHE-FH-4 3 2.600E-001 1.919E-004 1.000E+OOO 1.00lE+OOO D-EAW4-XHE 3 2.400E-004 1.905E-004 1.000E+OOO 1.794E+OOO. ACP-BAC-ST-4KV1J 8 9.000E-005 . 1. 867E-004 1.000E+OOO 3*.014E+OOO DCP-BDC-ST-BUS1B 8 9.000E-005 1.867E-004 1.000E+OOO 3~074E+OOO A-M3W3-XHE-FL-4 2 5.SOOE-001 1.SS~E-004 1.000E+OOO 1.000E+OOO IM8W2R6 5 1.540E-008 1.848E-004 1.000E+OOO 1.112E+004 IE6W1R6 3 2.230E-009 1~841E-004 1.000E+OOO 5.067E+004 IM1W1D6 6 B.300E-008 1. 820E-004 1.000E+OOO 2.162E+003 D-N2W2-XHE 2 1.lOOE-003 1. 813E-004 l.OOOE+OOO 1.165E+OOO D-E7W4-XHE 3 l.60QE-003 1.812E-004 1.000E+OOO 1. l.13E+OOO IE12W2D6 9 2.690E-005 1.787E-004 1.000E+OOO 7.644E+OOO A-CTlWl-XHE-FH-9 1 4.300E-002 1. 786E-004 l.OOOE+OOO 1.004E+OOO IN2W1D6 6 5.170E-007 . 1. 7 59E-004 1.000E+OOO 3.404'E+002 IE6W4D6 1 2.0lOE-008 1.753E-004 1.000E+OOO 8.724E+003 D-EBWl-XHE 2 2.SOOE-003 1.722E-004 l.OOOE+OOO 1.061E+OOO D-NlWl-XHE 2 2.BOOE-003 1.722E-004 1.000E+OOO 1.061E+OOO IM4W3R6 2 1.650E-008 1. 720E-004 l.OOOE+OOO 9.931E+003 IE1W1R6 8 1.170E-008 1.695E-004 1.000E+OOO* 1.298E+004 A-EBW2-XHE-FL-14 3 2.370E-001 1.684E-004 1.000E+OOO 1.00lE+OOO D-E2W2-XHE 2 1.lOOE-003 1.676E-004 1.000E+OOO 1.152E+OOO D-E3W2-XHE 2 1. lOOE-003 l.676E-004 1.000E+OOO 1.152E+OOO LPR-MOV-FT-1890B 12 3.000E-003 l.667E-004 1.000E+OOO 1.055E+OOO R-El3AW1-D6-3 3 1.000E+OOO l.656E-004 1.000E+OOO l.OOOE+OOO IM13W2D6 2 1.130E-008 1.606E-004 1.000E+OOO l.396E+004 IMAW1D6 5 1.lOOE-006 1.594E-004 1.000E+OOO l.458E+002 IE10WlR6 1 2.860E-009 1.553E-004 1.000E+OOO 5.431E+004 1994/01/27 12:42:35 page 8 P-8

  • Family Analysis case IMPORTANCE MEASURES REPORT (Alternate cut Sets)

RHRTEST RANDOM ALTERNATE EndState  : CD (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely

  • Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio AFW-MOV-MA-151A 6 7.260E-002 1.532E-004 1.000E+OOO 1.002E+OOO D-MAW3-XHE 2 5.400E-004 1.522E-004 l.OOOE+OOO 1. 282E+OOO .

IE10W3Rl0 2 2.720E-009 1.492E-004 1.000E+OOO 4.992E+004 D-N2W3-XHE 2 1.lOOE-003 1.465E-004 l.OOOE+OOO l.133E+OOO A-M8W2-XHE-FL-9 3 1.450E-001 1.464E-004 1.000E+OOO 1.00lE+OOO CPC-MDP-FS-SW20A 8 8.000E-003 1.457E-004 1.000E+OOO 1.018E+OOO A-E7W4-XHE-FL-10 1 5.000E-003 1.455E-004 1.000E+OOO 1.029E+OOO LPI-CKV-FT-CV50 3 1.000E-004 1.445E-004 1.000E+OOO 2.445E+OOO A-EAW3-XHE-FL-13 3 2.370E-001 1.423E-004 1.000E+OOO l.OOOE+OOO A-E6W3-XHE-FL-3 2 2.370E-001 1.421E-004 1.000E+OOO 1.000E+OOO IE8W4D6 3 1.JOOE-008 1.405E-004 1.000E+OOO 1.055E+004 A-EBW4-XHE-FL-10 3 1.lOOE-001 1.396E-004 1.000E+OOO 1.00lE+OOO IE6W3R6 2 5.367E-008 1.389E-004 1.000E+OOO 2.575E+003 IM13W3D6 2 9.750E-009 1. 385E-004 l.OOOE+OOO 1.*J96E+004 LPR-CKV-FT-CV47 2 1.000E-004 1.378E-004 l.OOOE+OOO 2.377E+OOO A-ECW2-XHE-FL-19 4 5.400E-002 1. 373E-004 1.000E+OOO 1.002E+OOO AFW-CKV-oo...:cv157 4 1.000E-003 1. 355E-004 1.000E+OOO l.135E+OOO 

  *A-E7W2-XHE-S1-17          4    1.000E-003    1. 355E-004  l.OOOE+OOO  1.135E+OOO AFW-CKV-OO-CV142           4    1.000E-003    1.355E-004  1.000E+OOO   l.135E+OOO D-E2W3-XHE                 2    1.lOOE-003    1. 353E-004 l.OOOE+OOO   1.123E+OOO D-E3W3-XHE                 2    1.lOOE-003    1.353E-004  1.000E+OOO   1.123E+OOO ICV1W4R6                   2    6.BOOE-008    1. 343E-004 1.000E+OOO   1.961E+003 ACP-TFM-NO-lHl             5    4.0BOE-005    1. 337E-004 1.000E+OOO   4.277E+OOO R-N1W2-R6-17               3    7.541E-001    1. 323E-004 1.000E+OOO   l.OOOE+OOO ACP-BAC-ST-4801J           3    9.000E-005    1.JOlE-004  1. OOOE+OOO  2.445E+OOO LOSP                      11    1. 670E-004   1.295E-004  1. OOOE+OOO  1. 775E+OOO ACP-BAC-ST-lJl-2           2    9.000E-005    1. 240E-004 1.000E+OOO   2~377E+OOO ACP-BAC-ST-lJl
  • 2 9.000E-005 1.240E-004 1.000E+OOO 2.377E+OOO IN1W3R6 4 1. 730E-006 1. 215E-004 1.000E+OOO 7.123E+001 IN2W3D6 3 1.660E-006 1.184E-004 l.OOOE+OOO 7.233E+001 A-E2W2-XHE-FL-5 3 2.370E-001 1.178E-004 1.000E+OOO l.OOOE+OOO A-E3W2-XHE-FL-5 3 2.370E-001 1.178E-004 l.OOOE+OOO 1.000E+OOO IE13AW1R6 7 2.JOOE-007 1.169E-004 1. OOOE+OOO 5.073E+002 R-N2W2-D6-9 3 7.541E-001 1.169E-004 l.OOOE+OOO l.OOOE+OOO HPR-MDP-FR-A18HR 3 1.224E-003 1.168E-004 l.OOOE+OOO l.095E+OOO A-N1W2-XHE-FL-19 6 2.370E-001 1.162E-004 1.000E+OOO 1.000E+OOO A-MAW3-XHE-FL-3 2 5.*290E-002 1.161E-004 1.000E+OOO 1.002E+OOO A-N2W2-XHE-R.;..12 4 5.400E-002 1,146E-004 1.000E+OOO l.002E+OOO R-E2W2-R6-17 4 7.534E-001 l.139E-004 1.000E+OOO l.OOOE+OOO R-E3W2-R6-17 4 7.534E-001 1,139E-004 1.000E+OOO 1.000E+OOO A-NlWl-XHE-R-12 2 1.lOOE-001 1.132E-004 l.OOOE+OOO 1.00lE+OOO IE1W4D6 4 1.0SOE-007 1.llJE-004 1. OOOE+OOO 1.055E+003 IE9W1D6 5 1.700E-008 l,lOJE-004 1.000E+OOO 6.232E+003 IMAW4Rl0 5 4.020E-006 1. 098E-004 1.000E+OOO 2.832E+001 1994/01/27 12:42:35 page 9 P-9

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family RHRTEST EndState  : CD Analysis RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name occ. Failure Importance Ratio Ratio A-E2W2-XHE-R-12 4 5.400E-002 1.059E-004 l.OOOE+OOO l.002E+OOO A-E3W2-XHE-R-12 4 5.400E-002 l.059E-004 1.000E+OOO l.002E+OOO A-M8W2-XHE-Sl-8 4 2.000E-001 1.052E-004 1.000E+OOO l.OOOE+OOO A-MAWJ-XHE-FH-3 2 2.lOOE-002 1.049E-004 1.000E+OOO l.005E+OOO A-E7W2-XHE-FL-14 1 3.SOOE-002 l.OOSE-004 1.000E+OOO 1.003E+OOO D-E8W2-XHE 2 1.SOOE-002 1.00SE-004 1.000E+OOO 1.007E+OOO IE5W4R6 2 5.070E-008 l.OOlE-004 l.OOOE+OOO 1.961E+003 IE4W4R6 *2 5.070E-008 1.00lE-004 1.000E+OOO 1.961E+003 D-MAW2-XHE 2 5.400E-004 9.985E-005 l.OOOE+OOO 1.185E+OOO A-EAWJ-XHE-R-9 2 5.400E-002 9.975E-005 1.000E+OOO 1.002E+OOO IE12W3R6 3 l.190E-005 9.687E-005 l.OOOE+OOO 9.140E+OOO A-E2W2-XHE-FL-19 7 2.370E-001 9.667E-005 1.000E+OOO l.OOOE+OOO A-E3W2-XHE-FL-19 7 2.370E-001 9.667E-005 1.000E+OOO 1.000E+OOO A-M1W2-XHE-FH-9 3 5.600E-002 9.656E-005 l.OOOE+OOO l.002E+OOO A-M1W2-XHE-FL-9 3 1.450E-001 9.656E-005 l.OOOE+OOO 1.00lE+OOO A-E9Wl-XHE-R-4 3 l. lOOE-001 9.SSlE-005 l.OOOE+OOO 1.00lE+OOO SGS-DRAINED-CSD 3 l.OOOE-003 9.417E-005 l.OOOE+OOO l.094E+OOO AFW-MOV-MA-151C 3 1.000E-003 9.417E-005 1.000E+OOO 1.094E+OOO AFW-MOV-MA-151E 3 l.OOOE-003 9.417E-005 1. O'OOE+OOO l.094E+OOO R-E6Wl-R6-7 1 7.691E-001 9.315E-005 l.OOOE+OOO l.OOOE+OOO R-N1Wl-D6-7 3 5.219E-001 9.124E-005 1.000E+OOO l.OOOE+OOO ACP-CRB-C0-15H7 4 2.900E-005 9.092E-005 l.OOOE+OOO 4.135E+OOO ACP-CRB-C0-14H15 4 2.900E-005 9.092E.;..005 l.OOOE+OOO 4.135E+OOO IM13W2R6 2 6.620E-009 8.936E-005 1. OOOE+OOO 1.327E+004 R-E1Wl-R6-17 4 5.219E-001 8.908E-005 l.OOOE+OOO l.OOOE+OOO IE8W1R6 3 1.440E-009 8.901E-005 1.000E+OOO 4.540E+004 IM8W106 2 7.040E-009 8.883E-005 1.000E+OOO 1.240E+004 A-EBWJ-XHE-CW-4 1 5.lOOE-002 B.713E-005 1.000E+OOO 1.002E+OOO HPI-CCF-FT-115BD 4 2.600E-004 8.583E-005 1.000E+OOO 1. 330E+OOO IE13BW3R10 3 6~290E-008 B.288E-005 1.000E+OOO 1.309E+003 A-NlWl-XHE-FL-19 3 4.710E-001 B.234E-005 1.000E+OOO l.OOOE+OOO A-MBWl-XHE-FL-9 1 2.llOE-001 8.149E-005 1.000E+OOO l.OOOE+OOO R-M4W3-l869B 1 1.000E-001 8.147E-005 l.OOOE+OOO 1.00lE+OOO D-E8W3-XHE 2 1.SOOE-002 8.117E-005 1.000E+OOO 1.005E+OOO A-ECWJ-XHE-FL-10 2 3.SOOE-002 8.lOlE-005 1.000E+OOO 1.002E+OOO IM8W206 3 2.620E-008 7.981E-005 l.OOOE+OOO 2.996E+003 A-MlWl-XHE-FL-9 1 2.llOE-001 7.974E-005 1.000E+OOO 1. OOOE+OOO A-MlWl-XHE-FH-9 1 8.JOOE-002 7.974E-005 1.000E+OOO 1.00lE+OOO D-N2Wl-XHE 1 2.SOOE-003 7.942E-005 l.OOOE+OOO 1.028E+OOO D-E6W2-XHE 2 7.400E-003 7.693E-005 1.000E+OOO l.OlOE+OOO IM4W4R6 2 1. 370E-009 7.516E-005 1.000E+OOO 4.334E+004 CPC-STR-PG-STR2A 5 1.SOOE-004 7.SllE-005 1.000E+OOO 1.417E+OOO A-E1W4-XHE-R-9 3 1. 700E-002 7.SlOE-005 1.000E+OOO 1.004E+OOO D-E3Wl-XHE 1 2.SOOE-003 7.JSBE-005 1.000E+OOO 1.026E+OOO 1994/01/27 12:42:35 page 10 P-10

  • Family Analysis Case IMPORTANCE MEASURES REPORT (Alternate Cut Sets)

RHRTEST RANDOM ALTERNATE EndState (Sorted by Fussell-Vesley Importance)

CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio D-E2Wl-XHE 1 2.SOOE-003 7.358E-005 1.000E+OOO 1. 026E+OOO ACP-INV-MA-UPSA2 5 2.000E-004 7.240E-005 1.000E+OOO 1. 362E+OOO A-M13Wl-XHE-FH-l 1 7.200E-001 7.085E-005 1.000E+OOO l.OOOE+OOO IM13W1D6 1 3.040E-009 7.0SSE-005 1.000E+OOO 2.331E+004 A-Ml3Wl-XHE-R-3 1 5.900E-001 7.085E-005
  • 1. OOOE+OOO l.OOOE+OOO A-E8W4-XHE-CW-8 2 1.900E-002 6.981E-005 l.OOOE+OOO l.004E+OOO IM1W2R6 2 1.SlOE-007 6.894E-005 l.OOOE+OOO 3.814E+002 IMAW1R6 6 7.500E-008 6.891E-005 l.OOOE+OOO 9.137E+002 LPI-MDP-FR-B24HR 3 7.200E-004 6.871E-005 l.OOOE+OOO 1.095E+OOO A-M4W4-XHE-Sl-7 1 2.000E-001 6.759E-005 l.OOOE+OOO l.OOOE+OOO IM4W4D6 1 6.160E-009 6.759E-005 l.OOOE+OOO l.097E+004 A-MAW4-XHE-FL-7 2 2.920E-002 6.634E-005 l.OOOE+OOO 1.002E+OOO IM13W3R6 2 5.000E-009 6.583E-005 l.OOOE+OOO 1:2saE+oo4 A-EAW3-XHE-FL-10 3 2.370E-001 6.570E-005 1.000E+OOO 1 *. 000E+OOO R-N2W2-R6-17 3 7.541E-001 6.501E-005 l.OOOE+OOO 1.000E+OOO A-MAW4-XHE-FH-7 2 1.300E-002 6.462E-005 1.000E+OOO l.OOSE+OOO*

A~EAW2-XHE-FH-19 1 1.000E+OOO 6.356E-005 l.OOOE+OOO l.OOOE+OOO A-EAWl-XHE-FL-10 1 4.710E-001 6.270E-005 l.OOOE+OOO 1.000E+OOO A-E9Wl-XHE-FL-10 3 4.710E-001 6.254E-005 l.OOOE+OOO 1.000E+OOO D-E6W3-XHE 2 7.400E-003 6.207E-005 1.000E+OOO l.OOSE+OOO D-ECW2-XHE 2 2.700E-005 6.194E-005 l.OOOE+OOO 3.294:E+OOO R-E2Wl-D6-7 3 5.214E-001 6.166E-005 1. OOOE+OOO

  • l.OOOE+OOO R-E3Wl-D6-7 3 5.214E-001 6.166E-ops l.OOOE+OOO 1.000E+OOO IM3W2D6 5 2.260E-007 6.053E-005 1.000E+OOO 2.683E+002 IE7W3R10 2 2.SSOE-008 6.029E-005 l.OOOE+OOO 2.083E+003 HPI-MDP-FS-CH2C 5 4.000E-003 6.028E-005 l.OOOE+OOO 1.015E+OOO D-E1W2-XHE 2 1.lOOE-003 5.977E-005 l.OOOE+OOO h054E+OOO D-EBW4-XHE 3 2.400E-004 5.949E-005 l.OOOE+OOO 1.248E+OOO D-N1W4-XHE 3 2.400E-004 5.949E-005 l.OOOE+OOO 1.248E+OOO ICT1W1R6 2 4.930E-008 5.891E-005 l.OOOE+OOO .1. 193E+003 A-CT2Wl-XHE-S1-8 4 4.lOOE-002 5.807E-005 l.OOOE+OOO 1.001E+OOO IE3W3R10 3 2 ~ 860E-008 . 5.776E-005 l.OOOE+OOO 2.000E+003 IE2W3Rl0 3 2.860E-008 5.776E-005 l.OOOE+OOO 2.000E+003 A-ECW2-XHE-X 1 1.000E-003 5.728E-005 l.OOOE+OOO 1.057E+OOO OEP-DGN-FS-DG03 3 2.200E-002 5.661E-005 l.OOOE+OOO 1.003E+OOO MSS-NRV-PG-lOlB 3 6.000E-004 5.650E-005 l.OOOE+OOO l.094E+OOO M5S-NRV-PG-l01A 3 6.000E-004 5.650E-005 l.OOOE+OOO 1.094E+OOO IE13BW4R6 4 1.440E-007 5.642E-005 l.OOOE+OOO 3.918E+002 ACP-TFM-NO-lJl 2 4.0SOE-005 5.620E-005 l.OOOE+OOO 2.377E+OOO ACP-TFM-NO-lJ 2 4.0SOE-005 5.620E-005 l.OOOE+OOO 2.377E+OOO MSS-AOV-FC-lOlB 5 l.SOOE-001. 5.616E-005 l.OOOE+OOO l.OOOE+OOO MSS-AOV-FC-lQlA 5 l.SOOE-001 5.616E-005 l.OOOE+OOO 1.000E+OOO A-N2Wl-XHE-R-12 2 1. lOOE-001 S.576E-005 l~OOOE+OOO 1.000E+OOO A-E2Wl-XHE-FL-19 3 4.710E-001 5.570E-005 1.000E+OOO l.OOOE+OOO 1994/01/27 12:42:35 page 11 P-11

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family . RHRTEST Endstate . CD Analysis . RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio A-EJWl-XHE-FL-19 3 4.710E-001 5.570E-005 l.OOOE+OOO l.OOOE+OOO IE10W406 1 2.820E-008 5.569E-005 1.000E+OOO l.976E+003 A-N2W2-XHE-FL-19 5 2.370E-001 5.379E-005 l.OOOE+OOO l.OOOE+OOO IE7W406' 2 2.960E-007 5.167E-005 l.OOOE+OOO l. 754E+002 A-EJWl-XHE-R-12 2 1. lOOE-001

  • 5.164E-005 1.000E+OOO l.OOOE+OOO A-E2Wl-XHE-R-12 2 1.lOOE-001 5.164E-005 1.000E+OOO l.OOOE+OOO IN1W4R10 2 3.870E-006 5.095E-005 1.000E+OOO l. 417E+001 H-4KV-REC-W4 6 8.000E-003 5.076E-005 1.000E+OOO 1.006E+OOO LPI-XVM-PG-XV48 2 3.650E-005 5.028E-005 1.000E+OOO 2.377E+OOO D-ECW3-XHE 2 2.700E-005 5.00SE-005 l.OOOE+OOO 2.SSSE+OOO A-MJWJ-XHE"'.'FL-7 4 S.SOOE-001 4.851E-005 l.OOOE+OOO l.OOOE+OOO A-M3W3-XHE-FH-7 4 2.600E-001 ** 4. 851E-OOS l.OOOE+OOO 1.000E+OOO A-EAWl-XHE-R-3 3 1.lOOE-001 4.837E-OOS 1.000E+OOO l.OOOE+OOO D-ElW3-XHE 2 1.lOOE-003 4.833E-005 1.000E+OOO 1. 044E+OOO.

IM8W306 2 2.260E-008 4.798E-OOS l.OOOE+OOO 2.109E+003 R-E9Wl-D6-3 2 4.294E-001 4.776E-005 1.000E+OOO 1.000E+OOO SWS-MOV-OP-RSS 3 1.440E-003 4.701E-005 1.000E+OOO 1.033E+OOO A-ElW2-XHE-FL-14 3 2.370E-001 4.692E-OOS 1.000E+OOO 1.000E+OOO IN2W3R6 1 8.SJOE-007 4.633E-005 l.OOOE+OOO 5.531E+001 A-E6W2-XHE-FL-4 1 2.370E-001 4.619E-OQ5 1.000E+OOO 1.000E+OOO A-M8W3-XHE-FL-7 2 l.4SOE-001 4.518E-OOS 1.000E+OOO l.OOOE+OOO IM8W3R6 3 l.160E-008 4.SOSE-005 1.000E+OOO 3.820E+003 R-EBW4-2CH 3 3.600E-002 4.458E-005 1.000E+OOO .l. OOlE+OOO A-NlW3-XHE-FL-13 3 2.370E-001 4.454E-OOS l.OOOE+OOO 1.000E+OOO D-CT2W2-XHE 2 7.700E-006 4.391E-005 l.OOOE+OOO 6.702E+OOO IMCW106 3 *2.430E-008 4.361E-005 1.000E+OOO l. 778E+003 R-M4W4-l869B 2 2.lSOE-002 4.341E-005 1.000E+OOO l. 002E+OOO IM4W4Rl0 2 3.680E-008 4.341E-005 l.OOOE+OOO l.175E+003 A-ECW2-XHE-C-13 1 l.OOOE-003 4.307E-005 l.OOOE+OOO l. 043E+OOO A-M1W2-XHE-S1-8 2* 2.000E-001 4.294E-005 l.OOOE+OOO l. OOOE+OOO IM8W4Rl0 2 2.590E-008 4.149E-005 l.OOOE+OOO l. 593E+003 IE9W2R6 2 3.710E-008 4.093E-005 l. OOOE+OOO l.099E+003 AFW-CCF-FS-FW3AB 2 3.SOOE-004 4.054E-005 l. OOOE+OOO l.116E+OOO A-M3W2-XHE-R-12 3 2.400E-001 4. OllE-005

  • 1.000E+OOO l.OOOE+OOO RHR-CKV-FT-CVS 4 l.OOOE-004 4.00JE-005 l.OOOE+OOO l.400E+OOO CCW-CKV-FT-CC563 4 1. OOOE-00.4 4.00JE-005 1.000E+OOO l.400E+OOO R-N2Wl-D6-7 2 5.219E-001 3.997E-005 l.OOOE+OOO l.OOOE+OOO ACP-CRB-C0-14Jl 2 2.900E-005 3.995E-005 l.OOOE+OOO 2.378E+OOO ACP-CRB-C0-15J7 2 2.900E-005 3.995E-005 l.OOOE+OOO 2.378E+OOO ACP-CRB-C0-14Jl4 2 2.900E-005 3.995E-005 1. OOOE+OOO. 2.378E+OOO ACP-CRB-C0-14Jll 2 2.900E-005 3.995E-005 l.OOOE+OOO 2.378E+OOO IE3W4R6 2 6.560E-008 3.959E-005 l.OOOE+OOO 6.031E+002 IE2W4R6 2 6.560E-008 3.959E-005 1.000E+OOO 6.031E+002 A-CTlWl-XHE-C-8 1 l.OOOE-003 3.955E-005 1.000E+OOO 1.040E+OOO 1994/01/27 12:42:35 page 12 P-12

IMPORTANCE MEASURES REPORT (Alternate Cut Sets) Family  : RHRTEST EndState CD Analysis: RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Hum. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio ICT1W4D6 1 -------*--- 4.4401::-007 3.897E-OOS 1.000E+OOO 8.878E+001 IE6W4R6 2* 4.4SOE-009 3.882E-OOS 1.000E+OOO 8.433E+003 A-MHW2-XHE-R-12 3 2.400E-001 3.873E-OOS 1.000E+OOO l.OOOE+OOO RHR-SRV-C0-1721 4 9.360E-OOS 3.747E-005 1.000E+OOO l.400E+OOO IM3W3D6 4 1.9SOE-007 3.742E-005 1.000E+OOO l.927E+002 CCW-S0-RV121 4 9.330E-OOS 3.73SE-OOS 1.0QOE+OOO l.400E+OOO CCW-S0-RV118 4 9.330E-OOS 3.735E-005 1.000E+OOO l.400E+OOO A-ECW2-XHE-S2-17 4 2.600E-002 3.716E-005 1.000E+OOO l.OOlE+OOO A-N2Wl-XHE-FL-19 2 4.710E-001 3.607E-OOS 1.000E+OOO l.OOOE+OOO ACP-BAC-ST-STB1J 4 9.000E-005 3.602E-OOS 1.000E+OOO 1.*400E+OOO ACP-BAC-ST-VB1II 4 9.000E-005 3

  • 602E-OOS
  • 1.000E+OOO 1.400E+OOO ACP-BAC-ST-V1III 4 9.000E-005 3.602E-005 1.000E+OOO l.400E+OOO A-M8W3-XHE-S1-7 1 2.000E-001 3.596E-005 l.OOOE+OOO 1.000E+OOO A-MAWl-XHE-FH-9 2 8.300E-002 3.567E-005 1.000E+OOO l.O(>OE+OOO A-MAWl-XHE-FL-9 2 2.:J,.lOE-001 3.567E-005 1.000E+OOO 1.000E+OOO D-CT2W3-XHE 2 7.700E-006 3.SSOE-005 1.000E+OOO 5.610E+OOO A-M3Wl-XHE-R-12 1* S.900E-001 3.537E-OOS 1.000E+OOO 1.000E+OOO A-CT2Wl-XHE-FL-9 1 1.000E-002 3.497E-OOS 1.000E+OOO l.003E+OOO A-E2W3-XHE-FL-13 3 2.370E-001 3 .*473E-OOS l.OOOE+OOO l.OOOE+OOO A-E3W3-XHE-FL-l3 3 2.370E-001 3.473E-005 - 1. OOOE+OOO l.OOOE+OOO IE12W3D6 1 2.llOE-005 3.422E-OOS 1.000E+OOO 2.481E+OOO D-E6Wl-XHE 1 l.900E-002 3.40SE-OOS l.OOOE+OOO l.002E+OOO D-EBWl-XHE 1 2.900E-002 3.357E-OOS 1.000E+OOO l.OOlE+OOO ICT2W3R6 3 2.960E-OOS 3. 311E-005 1.000E+OOO 2.119E+OOO A-MHWl-XHE-R-12 1 S.900E-001 3.269E-005 1.000E+OOO 1. OOOE+.000 IMHW1D6 1 S.610E-008 3.269E-005 1.000E+OOO 5.836E+002 A-EAW4-XHE-FL-13 3 l.lOOE-001 3.168E-OOS 1.000E+OOO l.OOOE+OOO D-ECWl-XHE 1 8.000E-005 3.164E-005 l.OOOE+OOO l.396E+OOO IE9W2D6 1 6.320E-008 3.153E-005 l.OOOE+OOO 4.999E+002 A-NlWl-XHE-R-9 2 5.400E-002 3.120E-005 1.000E+OOO l.OOlE+OOO D-M4W2-XHE *2 9.700E-003 3.087E-OOS l.OOOE+OOO 1. 003*E+OOO A-M8W3-XHE-FL-3 1 S.290E-002 3.030E-005 l.OOOE+OOO l.OOlE+OOO AFW-MOV-CC-151
  • 2 2.600E-004 3.012E-005 1.000E+OOO l.116E+OOO-A-M1W3-XHE-FL-7 2 1.450E-001 2.980E-005 l.OOOE+OOO l.OOOE+OOO A-M1W3-XHE-FH-7 2 S.600E-002 2.980E-005 1.000E+OOO l.OOlE+OOO IM4W3R10 1 5.980E-010 2.953E-OOS l.OOOE+OOO 4.938E+004 A-M8W4-XHE-FL-7 1 2.920E-002 2.904E-005 1.000E+OOO l.OOlE+OOO IE8W3R10 *1 l.250E-009 2.901E-005 1.000E+OOO 2.321E+004 ISR-CCF-FS-RSlAB 2 4.200E-003 2.893E-005 l.OOOE+OOO l.007E+OOO IM3W1R6 1 4.lSOE-009 2.872E-005 l.OOOE+OOO 6.923E+003 ACP-BAC~ST-lHl-1 3 9.000E-005 2.765E-005 l.OOOE+OOO l.307E+OOO IM1W2D6 1 3.lOOE-007 2.762E-005 l.OOOE+OOO 9.009E+001 IE13AW4D6 1 2.070E-006 2.725E-005 l.OOOE+OOO 1.417E+001 IMGW2R6 3 9.523E-007 2.679E-005 1. OOOE+OOO 2.912E+001 1994/01/27 12:42:35 page 13 P-13

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family RHRTEST EndState  : CD Analysis RANDOM Case ALTERNATE (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IE8W4R6 2 2.870E-009

2. 67.'?E-005 1.000E+OOO -----------

8.994E+OOJ R-E3W4-2CH 1 3.600E-002 2.677E-005 1.000E+OOO l.OOlE+OOO R-E2W4-2CH 1 J.600E-002 2.677E-005 l.OOOE+OOO 1. OOlE+OOO CPC-MDP-MAOSWlOB 3 4.47JE-001 2.637E-005 l.OOOE+OOO l.OOOE+OOO R-E6W4-2CH 1 3.600E-002 2.633E-005 l.OOOE+OOO l.OOlE+OOO D-ElWl-XHE 1 2.SOOE-003 2.627E-005 1.000E+OOO l.009E+OOO LPI-CKV-OO-CV58 3 . 1. OOOE~OOJ 2.622E-005 1.000E+OOO l.026E+OOO A-E7W3-XHE~:FI,;-iJ 2 2.~ OOOE-003 2.570E-005 l.OOOE+OOO l.013E+OOO ICT2W4Rl0 J 6.590E-005 2.546E-005 l.OOOE+OOO 1. 386E+OOO ACC-CKV-FT-CV147 2 l.OOOE-004 2.526E-005 l.OOOE+OOO 1.253E+OOO A-MAW4-XHE-FHr4 1 1. JOOE-002 2.512E-005 l.OOOE+OOO l.002E+OOO A-MAW4-XHE-FL-4 1 2.920E-002 2.512E-005 l.OOOE+OOO 1.001.E+OOO IN2W4Rl0 2 1.900E-006 2.502E-005 1.000E+OOO 1. 417E+001 D-N2W4-XHE 2 2.400E-004 2.502E-005 l.OOOE+OOO l.104E+OOO ICT2W3D6 1 5.740E-005 2.425E-005 l.OOOE+OOO *1. 422E+OOO HPI-CKV-FT-CV25 2 l.OOOE-004 2.419E-005 l.OOOE+OOO l.242E+OOO HPI-CKV-FT-CV410 2 l.OOOE-004 2.419E-005 l.OOOE+OOO l.242E+OOO R-M8W2-D6-3 1 8.414E-001 2.419E-005 l.OOOE+OOO l.OOOE+OOO A-E8W4-XHE-CW-5 1 1.900E-002 2.411E-005 l.OOOE+OOO l.OOlE+OOO A-MGWl-XHE-C-18 1 l.OOOE-003 2.403E-005 l.OOOE+OOO 1.024E+OOO A-MCW2-XHE-FL-9 2 l.450E-001 2.384E-005 1.000E+OOO l.OOOE+OOO A-MCW2-XHE-FH-9 2 5.600E-002 2.384E-005 l.OOOE+OOO l.OOOE+OOO IM1W3D6 1 2.660E-007 2.370E-005 l.OOOE+OOO 9.009E+001 A-MlWJ-XHE-Sl-7 1 2.000E-001 2.370E-005 l.OOOE+OOO l.OOOE+OOO A-MCWl-XHE-FH-9 1 8.JOOE-002 2.335E-005 l.OOOE+OOO l.OOOE+OOO A-MCWl-XHE-FL-9 1 2.llOE-001 2.335E-005 l.OOOE+OOO l.OOOE+OOO D-E2W4-XHE 2 2.400E-004 2.317E-005 l.OOOE+OOO l.097E+OOO D-E3W4-XHE 2 2.400E-004 2.317E-005 l.OOOE+OOO 1.097E+OOO R-M3W2-R6-17 2 8.713E-001 2.295E-005 l.OOOE+OOO 1.000E+OOO IE6W3Rl0 1 1.948E-009 2.280E-005 l.OOOE+OOO l.170E+004 DCP-BDC-ST-BUS1A 2 9.000E-005 2.273E-005 l.OOOE+OOO l.253E+OOO D-CT2Wl-XHE 1 2.JOOE-005 2.259E-005 l.OOOE+OOO l.982E+OOO A-MAWl-XHE-Sl-8 2 2.000E-001 2.241E-005 l.OOOE+OOO l.OOOE+OOO R-MHW2-R6-17 2 8.966E-001 2.lSJE-005 l.OOOE+OOO l.OOOE+OOO IMHW2R6 2 1.220E-007 2.lBJE-005 l.OOOE+OOO 1. 798E+002 D-M8W2-XHE 2 9.700E-003 2.173E-005 l.OOOE+OOO l.002E+OOO A-MGW1-XHE-FL~l9 1 2.SOOE-001 2.139E-005 1.000E+OOO l.OOOE+OOO OEP-DGN-FS-DGOl 2 2.200E-002 2.095E-005 l.OOOE+OOO l.OOlE+OOO AFW-MDP-FR-3B6HR 2 l.SOOE-004 2.0SSE-005 l.OOOE+OOO l.116E+OOO A-M3W2-XHE-S2-8 2 2.SOOE-002 l.954E-005 l.OOOE+OOO 1.00lE+OOO IM4WlR6 2 6.SJOE-010 1.855E-005 l.OOOE+OOO 2.393E+004 IE1W3Rl0 2 1. 020E-008 l.SJSE-005 l.OOOE+OOO 1. 790E+003 D-Ml3W2-XHE 2 1.900E-002 l.833E-005 l.OOOE+OOO l.OOlE+OOO A-N2W3-XHE-FL-13 2 2.370E-001 1. 826E-005 l.OOOE+OOO l.OOOE+OOO 1994/01/27 12:42:35 page 14 P-14

  • Family IMPORTANCE MEASURES REPORT (Alternate Cut Sets)
RHRTEST Analysis: RANDOM Case ALTERNATE Endstate  : CD (Sorted by Fussell-Vesley Importance)

Nwn. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio D-M8W3-XHE 2 9.700E-003 1. 758E-005 l.OOOE+OOO l.002E+OOO AFW-PSF-FC-XCONN 2 l.SOOE-004 1.738E-005 l.OOOE+OOO l.116E+OOO R-M3W2-D6-9 1 8.414E-001 1.716E-005 l.OOOE+OOO l.OOOE+OOO A-NlW3-XHE-FL-10 2 2.370E-001 l.713E-005 l.OOOE+OOO l.OOOE+OOO D-M4W3-XHE 1 9.700E-003 1.708E-005 l.OOOE+OOO 1.002E+OOO R-MHW2-D6-9 1 8.965E-001 l.690E-005 l.OOOE+OOO l.OOOE+OOO IMHW2D6 1 2.089E-007 l.690E-005 l.OOOE+OOO 8.190E+001 ACP-BAC-MA-lHl 2 7.270E-006 1.626E-005 l.OOOE+OOO 3.237E+OOO LPR-CCF-FT-863AB 1 2.600E-004 1.596E-005 l.OOOE+OOO l.061E+OOO D-M3W2-XHE 2 8.200E-004 1.SSlE-005 l.OOOE+OOO l.019E+OOO IMCW2R6 1 5.320E-008 1.576E-005 l.OOOE+OOO 2.972E+002 ICT1W3Rl0 1 4.JOOE-008 1. 571E-005 l.OOOE+OOO 3.664E+002 R-E8Wl-R6-7 1 1.981E-001 1. 549E-005 l.OOOE+OOO l.OOOE+OOO OSR-MDP-FS-RS2A 1 3.000E-003 l.473E-005 l.OOOE+OOO 1.00SE+OQO IM1W3R6 2 1. 370E-007 1.362E-005 1.000E+OOO l.004E+002 LPR-MOV-PG-1890B 2 6.600E-004 1. 334E-005 1. OOOE+0.00 l.020E+OOO A-M3W2-XHE-FH-5 1 2.600E-001 1.JlOE-005 1. OOOE+OOO l.OOOE+OOO A-M3W2-XHE-FL-5 1 S.SOOE~OOl 1. JlOE-005 1. OOOE+OOO l.OOOE+OOO R-El3AW1-R6-17 1 5.214E-001 1.290E-005 1. OOOE+OOO l.OOOE+OOO MSS-XVM-XHE-BYPS 2 L700E-003 l.266E-005 1.000E+OOO l.007E+OOO AFW-MDP-FS-FW3A 2 6.JOOE-003 l.265E-005 1.000E+OOO l.002E+OOO IM3W4Rl0 1 2.200E-007 1.250E-005 l.OOOE+OOO 5.782E+001 A-M3W4-XHE-FL-7 1 2.290E-001 l.2SOE-005 l.OOOE+OOO l.OOOE+OOO A-M3W4-XHE-FH-7 1 9.lOOE-002 l.250E-005 l.OOOE+OOO l.OOOE+OOO A-M3W4-XHE-R-3 1 7.lOOE-002 l.250E-005 l.OOOE+OOO l.OOOE+OOO A-M8W4-XHE-FL-4 1 2.920E-002 l.245E-005 l.OOOE+OOO l.OOOE+OOO MsS-NRV-FT-lOlC 2 3.000E-003 1. 241E-005 l.OOOE+OOO 1.004E+OOO SWS-CCF-FT-3ABCD 1 6.300E-004 l.237E-005 l.OOOE+OOO 1. 0.20E+OOO D-MAW4-XHE 1 8.000E-005 1. 235E-005 l.OOOE+OOO l.154E+OOO LPI-MDP-FR-1B6HR 1 1.SOOE-004 l.lOSE-005 l.OOOE+OOO l.061E+OOO IE13AW3Rl0 1 2.020E-007 l.097E-005 l.OOOE+OOO 5.531'E+001 IN1WlR6 1 7.190E-008 l.093E-005 l.OOOE+OOO 1. 531E+002 A-M3W3-XHE-S2-4 1 2.SOOE-002 l.084E-005 l.OOOE+OOO l.OOOE+OOO A-N2W3-XHE-R-9 1 5.400E-002 l.049E-005 l.OOOE+OOO l.OOOE+OOO D-Ml3W3-XHE 1 1.900E-002 1.016E-005 l.OOOE+OOO 1.00lE+OOO A-E9Wl-XHE-FH-10 1 2.lOOE-001 1.0lSE-005 l.OOOE+OOO 1. OOOE+OOO . IE1W4R6 1 2.330E-008 9.843E-006 l.OOOE+OOO 4.234E+002 A-E2W3-XHE-R-9 1 S.400E-002 9.668E-006 l.OOOE+OOO 1.000E+OOO A-EJW3-XHE-R-9 1 5.400E-002 9.668E-006 1.000E+OOO 1.000E+OOO D-MJW3-XHE 1 8.200E-004 8.772E-006 1.000E+OOO l.OllE+OOO A-MAW2-XHE-X 1 1.000E-003 8.719E-006 1.000E+OOO l.009E+OOO IN1W4D6 1 6.480E-007 8.532E-006 1.000E+OOO 1.417E+001 A-E3W3-XHE-FL-10 1 2.370E-001 8.JJlE-006 1.000E+OOO l.OOOE+OOO A-E2W3-XHE-FL-10 1 2.370E-001 8.331E-006 l.OOOE+OOO l.OOOE+OOO 1994/01/27 12:42:35 page 15 P-15

Family IMPORTANCE MEASURES REPORT (Alternate Cut Sets)

RHRTEST Analysis: RANDOM Case ALTERNATE EndState  : CD (Sorted by Fussell-Vesley Importance)

Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IMCW2D6 1 9.070E-008 8.0SlE-006 l.OOOE+OOO 9.009E+001 A-MCW2-XHE-S1-8 1 2.000E-001 8.0SlE-006 1.000E+OOO l.OOOE+OOO IE7W4R6 1 6.571E-008 7.570E-006 l.OOOE+OOO l.162E+002 A-MlW3-XHE-FH-3 1 2.lOOE-002 7.514E-006 l.OOOE+OOO l.OOOE+OOO A-MlW3-XHE-FL-3 1 5.290E-002 7.514E-006 l.OOOE+OOO 1. OOOE+OOO AFW-CCF-LK-STMBD 1 1.000E-004 7.447E-006 l.OOOE+OOO 1. 074E+OOO AFW-CKV-FT-CV27 1 l.OOOE-004 7.447E-006 l.OOOE+OOO l.074E+OOO AFW-CKV-FT-CV136 1 1.000E-004 7.447E-006 l.OOOE+OOO l.074E+OOO PCS-CCF-FT-TRBYP 1 l.OOOE-004 7.447E-006 l.OOOE+OOO l.074E+OOO AFW-CKV-FT-CV58 1 1.000E-004 7.447E-006 l.OOOE+OOO 1. 074E+OOO AFW-CKV-FT-CV138 1 1.000E-004 7.447E-006 l.OOOE+OOO l.074E+OOO AFW-CKV-FT-CV172 1 1.000E-004 7.447E-006 l.OOOE+OOO 1. 074E+OOO A-M4Wl-XHE-S1-8 1 2.000E-001 7.419E-006 l.OOOE+OOO l.OOOE+OOO D-E6W4-XHE 1 l.600E-003 7.361E-006 l.OOOE+OOO l.OOSE+OOO D-MSWl-XHE 1 1.900E-002 7.338E-006 l.OOOE+OOO l.OOOE+OOO A-MAW2-XHE-FL-4 1 5.290E-002 7.283E-006 l.OOOE+OOO l.OOOE+OOO A-MAW2-XHE-FH-4 1 2.lOOE-002 7.283E-006 l.OOOE+OOO 1. OOOE+OOO ~-EAW4-XHE-FL-10 1 l.lOOE-001 7.184E-006 l.OOOE+OOO l.OOOE+OOO ACP-BAC-MA-lJl-2 1 7.270E-006 7.139E-006 l.OOOE+OOO 1. 982E+OOO ACP-BAC-MA-4801J 1 7.270E-006 7.139E-006 l.OOOE+OOO 1. 982E+OOO ACP-BAC-MA-lJl 1 7.270E-006 7.139E-006 l.OOOE+OOO l.982E+OOO A-EAW4-XHE-R-9 1 1. 700E-002 7.124E-006 l.OOOE+OOO l.OOOE+OOO IMCW3D6 1 7.SOOE-008 6.949E-006 l.OOOE+OOO 9.009E+001 A-MCW3-XHE-FH-7 1 5.600E-002 6.949E-006 l.OOOE+OOO l.OOOE+OOO A-MCW3-XHE-FL-7 1 l.450E-001 6.949E-006 l.OOOE+OOO l.OOOE+OOO A-MCW3-XHE-Sl-7 1 2.000E-001 6.949E-006 l.OOOE+OOO 1.000E+OOO RWT-TNK-LF-RWST 1 2.700E-006 6.833E-006 l.OOOE+OOO 3.531E+OOO LPI-CKV-FT-CV46B 1 l.OOOE-004 6.790E-006 l.OOOE+OOO l.068E+OOO CPC-CCF-LF-STRAB 1 4.700E-005 6.722E-006 l.OOOE+OOO 1.143E+OOO CPC-CCF-LF-STRl 1 4.700E-005 6.722E-006 l.OOOE+OOO l.143E+OOO ACP-BAC-ST-lHl-2 1 9.000E-005 6.702E-006 l.OOOE+OOO 1. 074E+OOO A-MGW2-XHE-FL-19 1 5.400E-002 6.681E-006 l.OOOE+OOO 1. OOOE+OOO D-MAWl-XHE 1 1.600E-003 6.517E-006 l.OOOE+OOO 1.004E+OOO A-MGW1-XHE-S2-17 1 4.000E-001 6.507E-006 l.OOOE+OOO l.OOOE+OOO IMGW1R6 1 2.995E-008 6.507E-006 l.OOOE+OOO 2.182E+002 CCW-XMV-PG-CC112 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XMV-PG-CClOO 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XMV-PG-CC116 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-AOV-PG-109B 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO ccw-XMV-PG-CC220 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XVM-PG-CC564 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XVM-PG-CC560 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO IM3W3R10 1 3.620E-009 6.469E-006 l.OOOE+OOO l.788E+003 MSS-STV-MA-lOlA 1 5.000E-002 6.330E-006 l.OOOE+OOO l.OOOE+OOO 1994/01/27 12:42:35 page 16 P-16

  • Family Analysis Case IMPORTANCE MEASURES REPORT* (Alternate cut sets)

RHRTEST RANDOM ALTERNATE Endstate  : CD (Sorted by Fussell-Vesley Importance) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio MSS-STV-MA-101B 1 5.000E-002 6.330E-006 l.OOOE+OOO 1.000E+OOO A-CT2W3-XHE-FL-3 1 1.200E-003 6.246E-006 1.000E+OOO l.005E+OOO SAS-CCF-FR-SACl 1 4.BOOE-004 6.227E-006 1.000E+OOO l.013E+OOO D-EBW4-XHE 1 2.lOOE-003 6.21BE-006 1.000E+OOO 1.003E+OOO A-CT2W2-XHE-FL-9 1 1.200E-003 6.112E-006 l.OOOE+OOO 1.005E+OOO ICT1W4R6 1 9.860E-008 6.0SBE-006 1.000E+OOO 6.244E+001 A-E3W4-XHE-FL-13 1 1.lOOE-001 5.948E-006 1.000E+OOO 1.000E+OOO A-E2W4-XHE-FL-13 1 1.lOOE-001 5.94BE-006 1.000E+OOO 1.000E+OOO OEP-CRB-FT-15J3 1 3.000E-003 5.894E-006 l.OOOE+OOO 1.002E+OOO D-ElW4-XHE 1 2.400E-004 5.779E-006 l.OOOE+OOO l.024E+OOO A-CT1W2-XHE-X 1 l.OOOE-003 5.728E-006 1.000E+OOO 1.006E+OOO HPI-XVM-PG-XV24 1 4.000E-005 5.720E-006 1.000E+OOO 1.143E+OOO PZR-SV-REMOVEDWl 136 l.OOOE-002 -5.740E-005 9.999E-001 9.943E-001 PZR-SV-REMOVEDW2 461 5.000E-002 -4.542E-003 9.955E-001 9.137E-001 '*,; PZR-SV-REMOVEDW3 123 9.000E-001 -4.781E-003 9.952E-001 9.995E-001 1994/01/27 12:42:35 page 17 P-17

Appendix P.2 Basic Event Import~nce Sorted Alphabetically P-18

  • Family Case
                     . RHRTEST Analysis: RANDOM ALTERNATE EndState (Sorted by Event Name)

IMPORTANCE MEASURES REPORT (Alternate cut sets) CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio 

   <TRUE>                  22    l.OOOE+OOO -----------
                               -----------     3.999E-001  -----------

1.666E+OOO ----------- l.OOOE+OOO A-CTlWl-XHE-C-8 1 l.OOOE-003 3.955E-005 1.000E+OOO 1. 040E+OOO A-CTlWl-XHE-FH-9 1 4.~00E-002 1. 786E-004 1.000E+OOO l.004E+OOO A-CTlWl-XHE-FL-9 2 l.OSOE-001 l.934E-004 l.OOOE+OOO 1. 002.E+OOO A-CT1W2-XHE-X 1 l.OOOE-003 5.728E-006 l.OOOE+OOO 1.006E+OOO A-CT2Wl-XHE-C-8 2 l.OOOE-003 1.002E-003 1.00lE+OOO 2.00lE+OOO A-CT2Wl-XHE-FL-9 1 1.000E-002 3.497E-005 1.000E+OOO l.003E+OOO A-CT2W1-XHE-S1-8 4 4.lOOE-002 5.807E-005 1.000E+OOO l.OOlE+OOO A-CT2W2-XHE-FL-9 1 1.200E-003 6.112E-006 1.000E+OOO l.OOSE+OOO A-CT2W2-XHE-S1-8 12 4.200E-002 2.157E-004 1.000E+OOO 1.00SE+OOO A-CT2W2-XHE-X 7 l.OOOE-003 2.020E-004 1.000E+OOO l.202E+OOO A-CT2W3-XHE-FL-3 1 1. 200E-003 6.246E-006 1.000E+OOO 1.00SE+OOO

  • _A-ElWl-XHE-FL-19 11 4.710E-001 l.303E-003 1.00lE+OOO 1. OOlE+OOO A-ElWl-XHE-R-12 4 l.lOOE-001 l.094E-003 l.OOlE+OOO l.009E+OOO A-E1W2-XHE-FL-14 3 2.370E-001 4.692E-005 1.000E+OOO 1.000E+OOO A-E1W2-XHE-FL-19 18 2.370E-001 2.867E-003 l.OOJE+OOO l.009E+OOO A-E1W2-XHE-R-12 8 5.400E-002 2.938E-003 1.00JE+OOO l.051E+OOO A-ElWJ-XHE-FL-10 6 2.370E-001 2.950E-004 1.000E+OOO 1.00lE+OOO A-ElWJ-XHE-FL-13 8 2.370E-001 6.771E-004 1.00lE+OOO 1.002E+OOO A-ElWJ-XHE-R-9 4 5.400E-002 5.SSSE-004 1.00lE+OOO 1.0lOE+OOO A-E1W4-XHE-FL-10 4 1.lOOE-001 l.993E-004 1.000E+OOO 1.002E+OOO A-E1W4-XHE-FL-13 11 1.lOOE-001 6.021E-004 1.00lE+OOO 1.00SE+OOO A-E1W4-XHE-R-9 3 l.700E-002 7.SlOE-005 1.000E+OOO 1.004E+OOO A-E2Wl-XHE-FL-10 15 4.710E-001 3.177E-003 1.00JE+OOO 1.004E+OOO A-E2Wl-XHE-FL-19 3 4.710E-001 5.570E-005 1.000E+OOO 1. OOOE+OOO A-E2Wl-XHE-R-12 2 1. lOOE-001 5.164E-005 1.000E+OOO 1.000E+OOO A-E2Wl-XHE-R-3 6 1.lOOE-001 3.084E-003 1. OOJE+OOO 1.025E+OOO A-E2W2-XHE-FL-10 31 2.370E-001 6.745E-003 1.007E+OOO 1.022E+OOO A-E2W2-XHE-FL-19 7 2.370E-001 9.667E-005 1.000E+OOO 1.000E+OOO A-E2W2-XHE-FL-5 3 2.370E-001 l.178E-004 1.oooE+oog 1.000E+OOO A-E2W2-XHE-R-12 4 5.400E-002 1. 059E-004 1.000E+OOO 1.002E+OOO A-E2W2-XHE-R-3 10 5.400E-002 8.267E-003 1.00SE+OOO 1.145E+OOO A-E2W3-XHE-FL-10 1 2.370E-001 8.331E-006 1.000E+OOO l.OOOE+OOO A-E2W3-XHE-FL-13 3 2.370E-001 3.473E-005 1.000E+OOO 1.000E+OOO A-E2W3-XHE-FL-4 6 2.370E-001 7.662E-004 1.00lE+OOO 1.002E+OOO A-E2W3,-XHE-FL-7 9 2.370E-001 1. 730E-003 l.002E+OOO 1.006E+OOO A-E2W3-XHE-R-3 4 5.400E-002 l.648E-003 1.002E+OOO 1. 029E+OOO A-E2W3-XHE-R-9 1 5.400E-002 9.668E-006 1.000E+OOO l.OOOE+OOO A-E2W4-XHE-FL-13 1 1.lOOE-001 5.948E-006 1.000E+OOO 1.000E+OOO A-E2W4-XHE-FL-4 7 1.lOOE-001 4.694E-004 1.000E+OOO 1.004E+OOO A-E2W4-XHE-FL-7 6 l. lOOE-001 4.214E-004 1.000E+OOO 1.003E+OOO A-E2W4-XHE-R-3 3 1.700E-002 2.107E-004 1.000E+OOO l.012E+OOO A-E3Wl-XHE-FL-10 15 4.710E-001 3.177E-003 1.003E+OOO 1. 004E+OOO A-E3Wl-XHE-FL-19 3 4.710E-001 5.570E-005 1.000E+OOO 1. OOOE+OOO 1994/01/27 12:45:27 page 1 P-19

Family IMPORTANCE MEASURES REPORT (Alternate cut sets)

RHRTEST Analysis : RANDOM Case ALTERNATE EndState (Sorted by Event Name)

CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Imp~rtance Ratio Ratio A-E3Wl-XHE-R-12 2 1.lOOE-001 5.164E-005 l.OOOE+OOO 1.000E+OOO A-E3Wl-XHE-R-3 6 1.lOOE-001 3.084E-003 l.003E+OOO 1.025E+OOO A-E3W2-XHE-FL-10 31 2.370E-001 6.745E-003 1.007E+OOO 1.022E+OOO A-E3W2-XHE-FL-19 7 2.370E-001 9.667E-005 1.000E+OOO 1.000E+OOO A-E3W2-XHE-FL-5 3 2.370E-001 1.178E-004 1.000E+OOO 1.000E+OOO A-E3W2-XHE-R-12 4 5.400E-002 1.059E-004 1.000E+OOO 1.002E+OOO A-E3W2-XHE-R-3 10 5.400E-002 8.267E-003 l.OOSE+OOO 1.145E+OOO A-E3W3-XHE-FL-10 1 2.370E-001 8.331E-006 1. OOOE+OOO l.OOOE+OOO A-E3W3-XHE-FL-13 3 2.370E-001 3.473E-005 l.OOOE+OOO l.OOOE+OOO A-E3W3-XHE-FL-4 6 2.370E-001 7.662E-004 1.00lE+OOO 1.002E+OOO A-E3W3-XHE-FL-7 9 2.370E-001 1. 730E-003 l.002E+OOO 1.006E+OOO A-E3W3-XHE-R-3 4 5.400E-002 l.648E-003 1. 002E+OOO 1.029E+OOO A-E3W3-XHE-R-9 1 5.400E-002 9.668E-006 l.OOOE+OOO l.OOOE+OOO A-E3W4-XHE~FL-13 1 1.lOOE-001 5.948E-006 l.OOOE+OOO l.OOOE+OOO A-E3W4-XHE-FL-4 7 1.lOOE-001 4.694E-004 l.OOOE+OOO l.004E+OOO A-E3W4-XHE-FL-7 6 1.lOOE-001 4.214E-004 1.000E+OOO l.OOJE+OOO A-E3W4-XHE-R-3 3 1. 700E-002 2.107E-004 l.OOOE+OOO 1.012E+OOO A-E6Wl-XHE-FL-9 2 6.SlOE-001 1.246E-003 1.00lE+OOO 1.00lE+OOO A-E6W2-XHE-FL-4 1 2.370E-001 4.619E-005 1.000E+OOO 1.000E+OOO. A-E6W2-XHE-FL-9 2 2.370E-001 2.464E..;.003 l.002E+OOO 1.00SE+OOO A-E6W3-XHE-FL-3 2 2.370E-001 1. 421E-004 l.OOOE+OOO 1.000E+OOO A-E6W3-XHE-FL-7 1 2.370E-001 2.584E-004 1.000E+OOO l.OOlE+OOO A-E6W4-XHE-FL-4 2 1. 590E-001 3.251E-004 l.OOOE+OOO l.002E+OOO A-E6W4-XHE-FL-7 3 1.590E-001 2.288E-004 1.000E+OOO 1.00lE+OOO A-E7Wl-XHE-FL-19 12 2.SOOE-001 7.298E-003 l.007E+OOO 1. 022E+OOO A-E7Wl-XHE-S2-17 4 4.000E-001 7.449E-004 l.OOlE+OOO 1. OOlE+OOO

  • A-E7W2-XHE--FL-14 1 3 .. SOOE-002 1.00SE-004 1.000E+OOO l.OOJE+OOO
  • A~E7W2-XHE-FL-19 23 5.400E-002 7. 776E-003 1. OOSE+OOO 1.136E+OOO A-E7W2-XHE-Sl-17 4 l.OOOE-003 l.355E-004 l.OOOE+OOO 1.135E+OOO A-E7W2-XHE-S2-17 9 2.600E-002 4.0JlE-003 l.004E+OOO 1.151E+OOO A-E7W3-XHE-FL-10 2 3.SOOE-002 3.092E-004 1.000E+OOO 1.009E+OOO A-E7W3-XHE-FL-13 2 2.000E-003 2.570E-005 1.000E+OOO 1.013E+OOO A-E7W4-XHE-FL-10 1 5.000E-003 l.455E-004 l.OOOE+OOO 1. 029E+OOO A-E8Wl-XHE-2CH-8 2 7.400E-001 9.145E-004 1.00lE+OOO 1.000E+OOO A-ESWl-XHE-CW-8 2 2.000E-001 2.472E-004 1.000E+OOO LOOlE+OOO A-E8W2-XHE-2CH-8 2 4.700E-001 3.148E-003 l.OOJE+OOO 1.004E+OOO A-E8W2-XHE-CW-8 2 5.lOOE-002 3.416E-004 l.OOOE+OOO 1.006E+OOO A-E8W3-XHE-2CH-4 2 4.700E-001 8.319E-004 l.OOlE+OOO 1.00lE+OOO A-E8W3-XHE-2CH-8 2 4.700E-001 l.830E-003 1.002E+OOO 1.002E+OOO A-E8W3-XHE-CW-4 1 5.lOOE-002 8.713E-005 1.oooE+ooo 1.002E+OOO A-E8W3-XHE-CW-8 2 5.lOOE-002 1.985E-004 LOOOE+OOO 1. 004E+OOO A-E8W4-XHE-2CH-5 2 1. 700E-001 2.237E-004 1.000E+OOO 1.00lE+OOO A-E8W4-XHE-2CH-8 3 1. 700E-001 6.433E-004 l.OOlE+OOO l.003E+OOO A-E8W4-XHE-CW-5 1 1. 900E-002 2.411E-005 1.000E+OOO 1.00lE+OOO 1994/01/27 12:45:27 page 2 P-20
  • Family Analysis Case IMPORTANCE MEASURES REPORT (Alternate cut sets)

RHRTEST RANDOM ALTERNATE Endstate (Sorted by Event Name)

CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio A-EBW4-XHE-CW-B 2 l.900E-002 6.981E-005 l.OOOE+OOO l.004E+OOO A-E9Wl-XHE-FH-10 1 2.lOOE-001 1.0lSE-005 l.OOOE+OOO l.OOOE+OOO A-E9Wl-XHE-FL-10 3 4.710E-001 6.254E-005 l.OOOE+OOO l.OOOE+OOO A-E9Wl-XHE-R-4 3 l.lOOE-001 9.581E-005 l.OOOE+OOO l.OOlE+OOO A-EAWl-XHE-FL-10 1 4.710E-001 6.270E-005 l.OOOE+OOO l.OOOE+OOO A-EAWl-XHE-FL-19 4 4.710E-001 2.759E-004 l.OOOE+OOO l.OOOE+OOO A-EAWl-XHE-R-12 4 1. lOOE-001 3.878E-004 l.OOOE+OOO l.OOJE+OOO A-EAWl-XHE-R-3 3 l.lOOE-001 4.837E-005 l.OOOE+OOO l.OOOE+OOO A-EAW2-XHE-FH-19 1 l.OOOE+OOO 6.356E-005 l.OOOE+OOO l.OOOE+OOO A-EAW2-XHE-FL-19 6 2.370E-001 3.161E-004 l.OOOE+OOO 1.00lE+OOO A-EAW2-XHE-R-12 4 5.400E-002 3.217E-004 l.OOOE+OOO 1.006E+OOO A-EAWJ-XHE-FL-10 3 2.370E-001 6.570E-005 l.OOOE+OOO l.OOOE+OOO A-EAWJ-XHE-FL-13 3 2.370E-001 l.423E-004 l.OOOE+OOO l.OOOE+OOO A-EAWJ-XHE-R-9 2 I 5.400E-002 9.975E-005 l.OOOE+OOO l.002E+OOO A-EAW4-XHE-FL-10 1 1. lOOE-001 7.184E-006 l.OOOE+OOO l.OOOE+OOO A-EAW4-XHE-FL-13 3 1.lOOE-001 J.168E-005 l.OOOE+OOO l.OOOE+OOO A-EAW4-XHE ..R-9 1 l.700E-002 7.124E-006 l.OOOE+OOO l.OOOE+OOO A-EBWl-XHE-FL-19 20 4.710E-001 5.236E-003 l.OOSE+OOO l.006E+OOO A-EBWl-XHE-R-12 7 1 l. lOOE-001 6.769E-003 l.007E+OOO l.055E+OOO
  • A-EBW2-XHE-FL-14 3 2.370E-001 l.684E-004 l.OOOE+OOO 1. OOlE+OOO A-EBW2-XHE-FL-19 33 2.370E-001 9.959E-OOJ l.OlOE+OOO 1.032E+OOO A-EBW2-XHE-R-12 14 5.400E-002 l.820E-002 l.019E+OOO 1. 319E+OOO A-EBWJ-XHE-FL-10 9 2.370E-001 1.432E-003 l.OOlE+OOO l.005E+OOO A-EBWJ-XHE-FL-13 14 2.370E-001 3.214E-003 l.OOJE+OOO l.OlOE+OOO A-EBWJ-XHE-R-9 6 5.400E-002 3.639E-003 l.004E+OOO l.064E+OOO A-EBW4-XHE-FL-10 3 l.lOOE-001 1. 396E-004 l.OOOE+OOO 1.00lE+OOO A-EBW4-XHE-FL-13 12 l.lOOE-001 6.853E-004 l.OOlE+OOO l.006E+OOO A-EBW4-XHE-R-9 4 1. 700E-002 4.738E-004 l.OOOE+OOO l.027E+OOO A-ECWl-XHE-C-18 3 l.OOOE-003 4.143E-004 l.OOOE+OOO 1.414E+OOO A-ECWl-XHE-FL-19 8 2.SOOE-001 4.693E-004 l.OOOE+OOO 1.00lE+OOO A-ECW1-XHE-S2-17 7 4.000E-001 2.607E-004 l.OOOE+OOO 1.000E+OOO A-ECW2-XHE-C-13 1 l.OOOE-003 4.307E-005 l.OOOE+OOO 1. 043E+OOO .

A-ECW2-XHE-FL-19 4 5.400E-002 1. 373E-004 1. OOOE+OOO. l.002E+OOO A-ECW2-XHE-S2-17. 4 2~600E-002 3.716E-005 l.OOOE+OOO 1.00lE+OOO A-ECW2-XHE-X *l 1.000E-003 5.72BE-005 1,. OC>OE+OOO l.057E+OOO A-ECWJ-XHE-FL-10 2 3.SOOE-002 8.lOlE-005 1.000E+OOO 1.002E+OOO A-MlJWl-XHE-FH-1 1 7.200E-001 7.0BSE-005 1. 00.0E+OOO l.OOOE+OOO A-MlJWl-XHE-R-3 1 5.900E-001 7.0BSE-005 1.000E+OOO l.OOOE+OOO A-M13W2-XHE-R-3 2 2.400E-001 2.316E-004 l.OOOE+OOO l.OOlE+OOO A-MlJWJ-XHE-R-3 3 2.400E-001 l.942E-004 l.OOOE+OOO l.OOlE+OOO A-MlWl-XHE-FH-9 1 8.JOOE-002 7.974E-005 l.OOOE+OOO l.OOlE+OOO A-MlWl-XHE-FL-9 1 2.llOE-001 7.974E-005 l.OOOE+OOO 1. OOOE+OOO A-MlW2-XHE-FH-9 3 5.600E-002 9.656E-005 l.OOOE+OOO 1.002E+OOO A-MlW2-XHE-FL-9 3 l.450E-001 9.656E-005 l.OOOE+OOO 1. OOlE+OOO 1994/01/27 12:45:27 page 3 P-21

IMPORTANCE MEASURES REPORT (Alternate cut sets) Family RHRTEST Endstate . CD Analysis .. RANDOM Case ALTERNATE (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name occ. Failure Importance Ratio Ratio A-M1W2-XHE-S1-B 2 2.000E-001 4.294E-005 1.000E+OOO ----------- 1.000E+OOO A-MlWJ-XHE-FH-3 1 2.lOOE-002 7.514E-006 1.000E+OOO 1.000E+OOO A-MlWJ-XHE-FH-7 2 5.600E-002 2.9BOE-005 1.000E+OOO 1.00lE+OOO A-MlWJ-XHE-FL-3 1 5.290E-002 7.514E-006 l.OOOE+OOO 1.000E+OOO A-MlWJ-XHE-FL-7 2 1.450E-001 2.980E-005 1.000E+OOO 1. OOOE+OOO A-M1W3-XHE-S1-7 1' 2.000E-001 2.370E-005 1.000E+OOO 1.000E+OOO A-MJWl-XHE-FH-10 2 7.200E-001 1.443E-003 1.00lE+OOO l.OOlE+OOO A-MJWl-XHE-R-12 1 5.900E-001 3.537E-005 1.000E+OOO 1.000E+OOO A-M3Wl-XHE-R-3 10 5.900E-001 1.547E-003 1.002E+OOO 1.00lE+OOO A-M3W2-XHE-FH-10 6 2.600E-001 2 .211E-004 l.OOOE+OOO 1,00lE+OOO A-M3W2-XHE-FH-5 1 2.600E-001 1. JlOE-005 1.000E+OOO 1.000E+OOO A-M3W2-XHE-FL-10 5 5.BOOE-001 2.145E-004 1.000E+OOO 1. OOOE+OOO A-M3W2-XHE-FL-5 1 5.BOOE-001 1.JlOE-005 1.000E+OOO 1.000E+OOO A-M3W2-XHE-R-12 3 2.400E-001 4.0llE-005 1. OOOE+OOO 1. OOOE+OOO A-M3W2-XHE-R-3 7 2.400E-001 2.342E-004 1.000E+OOO 1.00lE+OOO A-M3W2-XHE-S2-B 2 2.BOOE-002 1.954E-005 1.000E+OOO 1.00lE+OOO A-M3W3-XHE-FH-4 3 2.600E-001 1.919E-004 1.000E+OOO 1.00lE+OOO A-M3W3-XHE-FH-7 4 2.600E-001 4.BSlE-005 1.000E+OOO 1.000E+OOO A-M3W3-XHE-FL-4 2 5.SOOE-001 1.852E-004 1.000E+OOO l.OOOE+OOO A-M3W3-XHE-FL-7 4 5.BOOE-001 4.BSlE-005 1.000E+OOO l.OOOE+OOO A-M3W3-XHE-R-3 7 2.400E-001 2.405E-004 1.000E+OOO 1.00lE+OOO A-M3W3-XHE-S2-4 1 2.SOOE-002 1.084E-005 1.000E+OOO 1.000E+OOO A-M3W4-XHE-FH-7 1 9.lOOE-002 1.250E-005 1.000E+OOO 1.000E+OOO A-M3W4-XHE-FL-7 1 2.290E-001 1.250E-005 1.000E+OOO 1.000E+OOO A-M3W4-XHE-R-3 1 7.lOOE-002 1.250E-005 l.OOOE+OOO 1.000E+OOO A-M4W1-XHE-S1-B 1 2.000E-001 *7.419E-006 1. OOOE+OOO 1.000E+OOO A-M4W2-XHE-S1-B 2 2.000E-001 6.365E-004 l.OOlE+OOO 1.003E+OOO A-M4W3-XHE-S1-7 1 2.000E-001 3.522E-004 1. OOOE+OOO l.O-OlE+OOO A-M4W4-XHE-S1-7 1 2.000E-001 6.759E-005 1.000E+OOO 1.000E+OOO A-MBWl-XHE-FL-9 1 2.llOE-001 8.149E-005 1.000E+OOO 1.000E+OOO 

*A-MBW2-XHE-FL-9          3     l.450E-001     l.464E-004  1.000E+OOO    1. OOlE+OOO A-MBW2-XHE-S1-B          4     2.000E-001     1.052E-004   l.OOOE+OOO   l.OOOE+OOO A-MBW3-XHE-FL-3          1     5.290E-002     3.030E-005   l.OOOE+OOO   1.00lE+OOO A-MBW3-XHE-FL-7          2     1.450E-001     4.51BE-005  1.000E+OOO     l.OOOE+OOO A-MBW3-XHE-Sl-7          1     2.000E-001     3,596E-005  1.000E+OOO    1.000E+OOO A-MBW4-XHE-FL-4          1     2.920E-002     l.245E-005  1.000E+OOO    1.000E+OOO A-MBW4-XHE-FL-7          1     2.920E-002     2.904E-005   l.OOOE+OOO    l.OOlE+OOO A-MAWl-XHE-FH-9          2     8.300E-002     3,567E-005   1.000E+OOO    1.000E+OOO A-MAWl-XHE-FL-9          2     2.llOE-001     3.567E-005   l.OOOE+OOO    1.000E+OOO A-MAWl-XHE-Sl-8          2     2.000E-001     2.241E-005   l.OOOE+OOO    1.000E+OOO A-MAW2-XHE-FH-4          1     2.lOOE-002     7.283E-006   1.000E+OOO    l.OOOE+OOO A-MAW2-XHE-FH-9          8     5.600E-002     1.064E-003   1. OOlE+OOO   1.0lBE+OOO A-MAW2-XHE-FL-4          1    .S.290E-002     7.283E-006   1.oobE+OOO    1.000E+OOO A-MAW2-XHE-FL-9          9     1.450E-001     1.lOJE-003   1.00lE+OOO    1,007E+OOO 1994/01/27                         12:45:27                        page        4 P-22

Family .. IMPORTANCE MEASURES REPORT (Alternate cut sets) RHRTEST EndState . CD Analysis RANDOM Case . ALTERNATE (Sorted by Event Name) Num. , Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio A-MAW2-XHE-Sl-8 6 ----------- 2.000E-001 ----------- 3.338E-004 l.OOOE+OOO l.OOlE+OOO A-MAW2-XHE-X 1 l.OOOE-003 8.719E-006 l.OOOE+OOO l.009E+OOO A-MAW3-XHE-FH-3 2 2.lOOE-002 l.049E-004 1. OOOE+OOO l.005E+OOO A-MAW3-XHE-FH-7 7 5.600E-002 4.952E-004 l.OOOE+OOO l.OOSE+OOO A-MAW3-XHE-FL-3 2 5.290E-002 l.161E-004 l.OOOE+OOO l.002E+OOO A-MAW3-XHE-FL-7 7 l.450E-001 5.086E-004 l.OOlE+OOO l.003E+OOO A-MAW3-XHE-Sl-7 3 2.000E-001 3.391E-004 l.OOOE+OOO 1. OOlE+OOO A-MAW4-XHE-FH-4 1 l.300E-002 2.512E-005 l.OOOE+OOO l.002E+OOO A-MAW4-XHE-FH-7 2 l.JOOE-002 6.462E-005 l.OOOE+OOO l.005E+OOO A-MAW4-XHE-FL-4 1 2.920E-002 2.512E-005 l.OOOE+OOO l.OOlE+OOO A-MAW4-XHE-FL-7 2 2.920E-002 6.634E-005 l.OOOE+OOO l.002E+OOO A-MCWl-XHE-FH-9 1 8.300E-002 2.335E-005 l.OOOE+OOO l.OOOE+OOO A-MCWl-XHE-FL-9 1 2.llOE-001 2.335E-005 l.OOOE+OOO l.OOOE+OOO A-MCW2-XHE-FH-9 2 5.600E-002 2.384E-005 l.OOOE+OOO l.OOOE+OOO A-MCW2-XHE-FL-9 2 1. 450E-001 2.384E-005 l.OOOE+OOO 1. OOOE+OOO A-MCW2-XHE-Sl-8 1 2.000E-001 8.0SlE-006 l.OOOE+OOO 1.000E+OOO A-MCW3-XHE-FH-7 1 5.600E-002 6.949E-006 l.OOOE+OOO l.OOOE+OOO A-MCW3-XHE-FL-7 1 l.450E-001 6.949E-006 l.OOOE+ooo. l.OOOE+OOO A-MCW3-XHE-Sl-7 1 2.000E-001 6.949E-006 l.OOOE+OOO 1. OOOE+OOO A-MGWl-XHE-C-18 1 l.OOOE-003 2.403E-005 l.OOOE+OOO l.024E+OOO A-MGWl-XHE-FL-19 1 2.SOOE-001 2.139E-005 l.OOOE+OOO l.OOOE+OOO A-MGW1-XHE-S2-17 1 4.000E-001 6.507E-006 l.OOOE+OOO l.OOOE+OOO A-MGW2-XHE-FL-19 1 5.400E-002 6.681E-006 1. OOOE+OOO l.OOOE+OOO A-MHWl-XHE-R-12 1 5.900E-001 3.269E-005 1.000E+OOO l.OOOE+OOO A-MHW2-XHE-R-12 3 2.400E-001 3.873E-005 l.OOOE+OOO l.OOOE+OOO A-NlWl-XHE-FL-19 3 4.710E-001 8.234E-005 l.OOOE+OOO l.OOOE+OOO A-NlWl-XHE-R-12 2 l.lOOE-001 l.132E-004 1. OOOE+OOO 1. OOlE+OOO A-NlW2-XHE-FL-19 6 2.370E-001 l.162E-004 l.OOOE+OOO l.OOOE+OOO A-NlW2-XHE-R-12 4 5.400E-002 2.330E-004 l.OOOE+OOO l.004E+OOO A-NlW3-XHE-FL-10 2 2.370E-001 l.713E-005 l.OOOE+OOO 1.000E+OOO A-NlW3-XHE-FL-13 3 2.370E-001 4.454E-005 1. OOOE+OOO l.OOOE+OOO A-NlW3-XHE-R-9 2 5.400E-002 3.120E-005 l.OOOE+OOO l.OOlE+OOO A-N2Wl-XHE-F~-19 2 4.710E-001 3.607E-005 1.000E+OOO 1.000E+OOO A-N2Wl-XHE-R-12 2 l. lOOE-001 5.576E-005 l.OOOE+OOO l.OOOE+OOO A-N2W2-XHE-FL-19 5 2.370E-001 5.379E-005 1.000E+OOO 1. OOOE+OOO A-N2W2-XHE-R-12 4 5.400E-002 1.146E-004 1.000E+OOO l.002E+OOO A-N2W3-XHE-FL-13 2 2.370E-001 l.826E-005 1.000E+OOO l.OOOE+OOO A-N2W3-XHE-R-9 1 5.400E-002 l.049E-005 l.OOOE+OOO l.OOOE+OOO ACC-CKV-FT-CV147 2 l.OOOE-004 2.526E-005 l.OOOE+OOO 1. 253E+OOO ACP-BAC-MA-lHl 2 7.270E-006 1. 626E-005 l.OOOE+OOO 3.237E+OOO ACP-BAC-MA-lJl 1 7.270E-006 7.139E-006 l.OOOE+OOO l.982E+OOO ACP-BAC-MA-lJl-2 1 7.270E-006 7.139E-006 l.OOOE+OOO l.982E+OOO ACP-BAC-MA-4801J 1 7.270E-006 7.139E-006 l.OOOE+OOO l.982E+OOO ACP-BAC-ST-lHl 10 9.000E-005 3.302E-004 l.OOOE+OOO 4.668E+OOO 1994/01/27 12:45:27 page 5 P-23

Family IMPORTANCE MEASURES REPORT (Alternate cut sets)

RHRTEST Analysis: RANDOM Case ALTERNATE EndState (Sorted by Event Name)
CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio ACP-BAC-ST-lHl-1 3 9.000E-005 2.765E-005 1.000E+OOO 1.307E+OOO ACP-BAC-ST-lHl-2 1 9.000E-005 6.702E-006 1.000E+OOO 1. 074E+OOO ACP-BAC-ST-lJl 2
  • 9. OOOE-005 1.240E-004 1.000E+OOO 2.377E+OOO ACP-BAC-ST-lJl-2 2 9.000E-005 1.240E-004 1.000E+OOO 2.377E+OOO ACP-BAC-ST-4801J 3. 9.000E-005 1.301E-004 1.000E+OOO 2.445E+OOO ACP-BAC-ST-4KV1H 16 ... 9.000E-005 7.478E-004 1.00lE+OOO 9.308E+OOO ACP-BAC-ST-4KV1J 8 9.000E-005 1.867E-004 1.000E+OOO 3.074E+OOO ACP-BAC-ST-STBlJ 4 9.000E-005 3.602E-005 1.000E+OOO l.400E+OOO ACP-BAC-ST-VlIII 4 9.000E-005 3.602E-005 1.000E+OOO 1.400E+OOO ACP-BAC-ST-VBlII 4 9aOOOE-005 3.602E-005 1.000E+OOO 1.400E+OOO ACP-BCH-MA-UPSBl 11 4.003E-001 2.571E-004 1.000E+OOO l.OOOE+OOO ACP-BCH-MA-UPSB2 11 4.003E-001 2.571E-004 1.000E+OOO l.OOOE+OOO ACP-CRB-C0-14H15 *4 2.900E-005 9.092E-005 1.000E+OOO 4.135E+OOO ACP-CRB-C0-14Jl 2 2.900E-005 3.995E-005 1.000E+OOO 2.378E+OOO ACP-CRB-C0-14Jll 2 2.900E-005 3.995E-005 1.000E+OOO 2.378E+OOO ACP-CRB-C0-14J14 2 2.900E-005 3.995E-005 1.000E+OOO 2.378E+OOO ACP-CRB-C0-15H7 4 2.900E-005 9.092E-005 1.000E+OOO 4.135E+OOO ACP-CRB-C0-15J7 2 2.900E-005 3.995E-005 1.000E+OOO 2.378E+OOO ACP-INV-MA-UPSA2 5 2.000E-004 7.240E-005 1.000E+OOO l.362E+OOO ACP-INV-NO-UPSA2 92 4.000E-002 2.076E-002 1. 021E+OOO 1.498E+OOO ACP-TFM-NO-lHl 5 4.0BOE-005 1. 337E-004 1.000E+OOO 4.277E+OOO ACP-TFM-NO-lJ 2 4.0BOE-005 5.620E-005 1.000E+OOO 2.377E+OOO ACP-TFM-NO-lJl 2 4.0SOE-005 5.620E-005 1.000E+OOO 2.377E+OOO

.AFW-CCF-FS-FW3AB 2 3.SOOE-004 4.054E-005 1.000E+OOO l.116E+OOO AFW-CCF-LK-STMBD 1 l.OOOE-004 7.447E-006 1.00QE+OOO l.074E+OOO AFW-CKV-FT-CV136 1. 1.000E-004 7.447E-006 1.000E+OOO 1. 07 4.E+OOO AFW-CKV-FT-CV138 1 1.000E-004 7. 447E-006. 1.000E+OOO l.074E+OOO AFW-CKV-FT-CV172 1 1.000E-004 7.447E-006 1.000E+OOO 1.074E+OOO AFW-CKV-FT-CV27 1 l.OOOE-004 7.447E-006 1.000E+OOO l.074E+OOO AFW-CKV-FT-CV58 *1 l.OOOE-004 7.447E-006 1.000E+OOO l.074E+OOO AFW-CKV~OO-CV142 4 l.OOOE-003 l.355E-004 1.000E+OOO l.135E+OOO AFW-CKV-OO-CV157 4 l.OOOE-003 l.355E-004 1.000E+OOO 1.135E+OOO AFW-MDP-FR-3B6HR 2 1. SOOE-004 2.0BSE-005 1.000E+OOO 1.116E+OOO AFW-MDP-FS-FW3A 2 6.300E-003 l.265E-005 1.000E+OOO l.002E+OOO AFW-MDP-FS-FW3B 9 6.300E-003 9.817E-004 1.ooiE+OOO 1.155E+OOO AFW-MDP-MA-FW3B 49 5.272E-001 8.432E-002 1.092E+OOO 1.076E+OOO AFW-MOV-CC..;151 2 2.600E-004 3.012E-005 1.000E+OOO 1.116E+OOO AFW-MOV-FT-151'C 5 3.000E-003 3.075:E-004 l *.OOOE+OOO 1.102E+OOO AFW-MOV-FT-151E 5 3.000E-003 3.075E-:004 1.000E+OOO 1.102E+OOO AFW-MOV-MA-151A 6 7.260E-002 1.532E-004 1.000E+OOO 1.002E+OOO AFW-MOV-MA-151C 3 l.OOOE-003 9.417E-005 l.OOOE+OOO 1.094E+OOO AFW-MOV-MA-l51E 3 l.OOOE-003 9.417E-005 1.000E+OOO 1.094E+OOO AFW-PSF-FC-XCONN 2 1.SOOE-004 1. 738E-005 1.000E+OOO 1.116E+OOO CCW-AOV-PG-109B 1 4aOOOE-005 6.487E-006 1.000E+OOO 1.162E+OOO 1994/01/27. 12:45:27 page 6 P-24

IMPORTANCE MEASURES REPORT (Alternate cut sets) Family RHRTEST EndState  : CD Analysis RANDOM Case  : ALTERNATE (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio CCW-CKV-FT-CC563 

                     ---- 4 -----------

l.OOOE-004 4.003E-005 l.OOOE+OOO ----------- l.400E+OOO CCW-CKV-OO-CV557 12 l.OOOE-003 3.SSOE-004 l.OOOE+OOO l.355E+OOO CCW-LF-RHE2B 100 1.860E-002 l.677E-002 l.017E+OOO 1.885E+OOO CCW-MDP-FR-CCP1B 22 7.200E-004 5.772E-004 l.OOlE+OOO l.801E+OOO CCW-MDP-FS-CCP1B 37 3.000E-003 2.551E-003 l.003E+OOO l.848E+OOO CCW-MDP-MA-CCP1B 31 2.000E-003 l.675E-003 l.002E+OOO 1. 836E+OOO CCW-S0-RV118 4 9.330E-005 3.735E-005 l.OOOE+OOO l.400E+OOO ccw-so-Rv121 4 9.j3QE-005 3.735E-005 l.OOOE+OOO l.400E+OOO CCW-XMV-PG-CClOO 1 4.000E-005 6.487:E-006 l.OOOE+OOO l.162E+OOO ccw-XMV-PG-CC112 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XMV-PG-CC116 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO ccw-XMV-PG-CC220 1 4.000E-005 6.487E-006 1.000E+OOO l.162E+OOO ccw-XVM-PG-CC560 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CCW-XVM-PG-CC564 1 4.000E-005 6.487E-006 l.OOOE+OOO l.162E+OOO CIR-COND-UNAVLBL 9 l.OOOE-002 l.SSBE-003 l.002E+OOO l.154E+OOO CON-VFC-RP-COREM 22 2.000E-002 2.324E-003 l.002E+OOO l.i.14E+OOO CPC-CCF-LF-STRl 1 4.700E-005 6.722E-006 l.OOOE+OOO l.143E+OOO CPC-CCF-LF-STRAB 1 4.700E-005 6.722E-006 l.OOOE+OOO l.143E+OOO CPC-MDP-FR-SWlOA 69 3.840E-003 2.98BE-003 l.003E+OOO l.775E+OOO CPC-MDP-FS-SW20A 8 8.000E-003 1.457E-004 l.OOOE+OOO l.OlSE+OOO CPC-MDP-MA-SW10B 105 9.274E-001 3.892E-003 l.004E+OOO l.OOOE+OOO CPC-MDP-MAOSW10B 3 4.473E-001 2.637E-005 l.OOOE+OOO l.OOOE+OOO CPC-STR-PG-STR2A 5 1.BOOE-004 7.SllE-005 l.OOOE+OOO l.417E+OOO D-CTlWl-XHE 2 l.900E-002 8.024E-004 l.OOlE+OOO 1. 041E+OOO c: 

                                                                                         )

D-CT1W2-XHE 3 7.400E-003 1. 729E-003 l.002E+OOO l.232E+OOO ., D-CT1W3-XHE 4 7.400E-003 1.437E-003 1.00lE+OOO 1.193E+OOO "* D-CT1W4-XHE 4 l.600E-003 2.776E-004 l.OOOE+OOO l.173E+OOO ' D-CT2WV-XHE 1 2.JOOE-005 2.259E-005 l.OOOE+OOO l.982E+OOO D-CT2W2-XHE 2 7.700E-006 4.391E-005 1.000E+OOO 6.702E+OOO D-CT2W3-XHE 2 7.700E-006 3.SSOE-005 l.OOOE+OOO 5.610E+OOO D-ElWl-XHE 1 2.BOOE-003 2.627E-005. 1. OOOE+OOO l.009E+OOO D-ElW2-XHE 2 l.lOOE-003 5.977E-005 1.000E+OOO l.054E+OOO D-ElW3-XHE 2 l.lOOE-003 4.833E-005 1.000E+OOO l.044E+OOO D-ElW4-XHE 1 2.400E-004 5.779E-006 1.000E+OOO 1.024E+OOO D-E2Wl-XHE 1 2.SOOE-003 7.35BE-005 l.OOOE+OOO l.026E+OOO D-E2W2-XHE 2 1.lOOE-003 1. 676E-004 l.OOOE+OOO l.152E+OOO D-E2W3-XHE 2 l.lOOE-003 1.353E-004 l.OOOE+OOO l.123E+OOO D-E2W4-XHE 2 2.400E-004 2.317E-005 l.OOOE+OOO l.097E+OOO D-E3Wl-XHE 1 2.BOOE-003 7.358E-005 l.OOOE+OOO l.026E+OOO D-E3W2-XHE 2 l.lOOE-003 1. 676E-004 1.000E+OOO l.152E+OOO D-E3W3-XHE 2 l.lOOE-003 l.353E-004 l.OOOE+OOO 1.123E+OOO D-E3W4-XHE 2 2.400E-004 2.317E-005 l.OOOE+OOO 1.097E+OOO D-E6Wl-XHE 1 l.900E-002 3.405E-005 1.000E+OOO l.002E+OOO D-E6W2-XHE 2 7. 400E"."'003 7.693E-005 l.OOOE+OOO l.OlOE+OOO 1994/01/27 12:45:27 page 7 P-25

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family RHRTEST EndState . CD Analysis RANDOM Case . ALTERNA'.I'E (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio D-E6W3-XHE 2 7.400E-003 6.207E-005 1.000E+OOO l.OOBE+OOO D-E6W4-XHE 1 1.600E-003 7.361E-006 1.000E+OOO 1.00SE+OOO D-E7Wl-XHE 2 1.900E-002 5.366E-004 1.00lE+OOO 1.028E+OOO D-E7W2-XHE 3 7.400E-003 l. lSSE-003 l.OOlE+OOO l.155E+OOO D-E7W3-XHE 4 7.400E-003 9.605E-004 l.OOlE+OOO l.129E+OOO D-E7W4-XHE 3 1.600E-003 l.812E-004 1.000E+OOO l.113E+OOO D-EBWl-XHE 1 2.900E-002 3.357E-005 l.OOOE+OOO 1. OOlE+OOO D-EBW2-XHE 2 l.SOOE-002 l.OOSE-004 l.OOQE+OOO l.007E+OOO D-EBW3-XHE 2 l.SOOE-002 8.117E-005 1.000E+OOO 1. OOSE+OOO D-EBW4-XHE 1 2.lOOE-003 6.218E-006 1.000E+OOO 1. 003E+OOO D-EAWl-XHE 2 2.BOOE-003 5.526E-004 1.00lE+OOO l.197E+OOO D-EAW2-XHE 3 1.lOOE-003 1. 203E-003 l.OOlE+OOO 2.092E+OOO D-EAW3-XHE 4 l.lOOE-003 9.970E-004 1.00lE+OOO l.905E+OOO D-EAW4-XHE 3 2.400E-004 l.905E-004 1.000E+OOO l.794E+OOO D-EBWl-XHE 2 2.BOOE-003 1. 722E-004 l.OOOE+OOO l.061E+OOO D-EBW2-XHE 3 l.lOOE-003 3.754E-004 l.OOOE+OOO l.341E+OOO D-EBW3-XHE 3 l.lOOE-003 3.084E-004 l.OOOE+OOO l.280E+OOO D-EBW4-XHE 3 2.400E-004 5.949E-005 l.OOOE+OOO l.248E+OOO D-ECWl-XHE 1 8.000E-005 3.164E-005 l.OOOE+OOO 1. 396E+OOO D-ECW2-XHE 2 2.700E-005 6.194E-005 1.000E+OOO 3.294E+OOO. D-ECW3-XHE 2 2.700E-005 5.00BE-005 1.000E+OOO 2.855E+OOO D-Ml3W2-XHE 2 1.900E-002 l.833E-005 1.000E+OOO 1.00lE+OOO D-M13W3-XHE 1 1.900E-002 1.016E-005 l.OOOE+OOO l.OOlE+OOO D-M3W2-XHE 2 8.200E-004 1. SBlE-005 1.000E+OOO l.019E+OOO D-M3W3-XHE 1 8.200E-004 8.772E-006 l.OOOE+OOO l.OllE+OOO D-M4W2-XHE 2 9.700E-003 3.087E-005 l.OOOE+OOO l.003E+OOO D-M4W3-XHE 1 9.?00E-003 1. ?OBE-005 l.OOOE+OOO 1.002E+OOO D-MBWl-XHE 1 l.900E-002 7.338E-006 l.OOOE+OOO l.OOOE+OOO D-MBW2-XHE 2 9.700E-003 2.173E-005 l.OOOE+OOO l.002E+OOO D-MSW3-XHE 2 9.700E-003 1. 758E-005 l.OOOE+OOO l.002E+OOO 

,D-MAWl-XHE               1       1.600E-003    6.517E-006   l.OOOE+OOO    l.004E+OOO D-MAW2-XHE               2       5.400E-004    9.985E-005   l.OOOE+OOO    l.lBSE+OOO D-MAW3-XHE               2       5.400E-004     l.522E-004  l.OOOE+OOO    l.282E+OOO D-MAW4-XHE               1       8.000E-005    1. 235E-005  l.OOOE+OOO    l.154E+OOO D-NlWl-XHE               2       2.SOOE-003    l.722E-004   l.OOOE+OOO    l.061E+OOO D-NlW2-XHE               3       l.lOOE-003    3.754E-004   l.OOOE+OOO    1. 341E+OOO D-NlW3-XHE               3       l.lOOE-003    3.084E-004   l.OOOE+OOO    1. 280E+OOO D-NlW4-XHE               3       2.400E-004    5.949E-005   1.000E+OOO    l.248E+OOO D-N2Wl-XHE               1       2.SOOE-003    7.942E-005   l.OOOE+OOO    l.028E+OOO D-N2W2-XHE               2       1.lOOE-003    1. 813E-004  l.OOOE+OOO    l,165E+OOO D-N2W3-XHE               2       l.lOOE-003    1. 465E-004  l.OOOE+OOO    l.133E+OOO D-N2W4-XHE               2       2.400E-004    2.502E-005   l.OOOE+OOO    l.104E+OOO DCP-BAT-LP-BATlA        40       7.200E-004     l,761E-003  l.002E+OOO    3.444E+OOO DCP-BAT-LP-BAT1B        11       7.200E-004    2,571E-004   l.OOOE+OOO    l.357E+OOO 1994/01/27                          12:45:27                        page       8 P-26

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family RHRTEST EndState CD Analysis RANDOM case  : ALTERNATE (Sorted by Event Name) Nwn. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio DCP-BDC-ST-BUSlA 2 9.000E-005 2.273E-005 l.OOOE+OOO l.253E+OOO DCP-BDC-ST-BUS1B 8 9.000E-005 l.867E-004 l.OOOE+OOO 3.074E+OOO FI-S-V-1535 51 l.OOOE-001 1.895E-002 l.019E+OOO l.171E+OOO FI-S-V-1536 46 l.OOOE-001 l.770E-002 l.018E+OOO l.159E+OOO FI-S-V-1700 96 1.000E-001 4.64SE-002 l.049E+OOO l.41BE+OOO H-4KV-REC-Wl 32 l.SOOE-002 l.134E-003 l.OOlE+OOO l.062E+OOO H-4KV-REC-W2 73 l.300E-002 2.256E-003 l.002E+OOO l.171E+OOO H-4KV-REC-W3 21 9.000E-003 3.740E-004 1.000E+OOO l.041E+OOO H-4KV-REC-W4 6 8.000E-003 5.076E-005 1.000E+OOO l.006E+OOO HPI-CCF-FT-115BD 4 2.600E-004 8.583E-005 l.OOOE+OOO l.330E+OOO HPI-CKV-FT-CV25 2 l.OOOE-004 2.419E-005 l.OOOE+OOO 1. 242E+OOO HPI-CKV-FT-CV410 2 1.000E-004 2.419E-005 l.OOOE+OOO l.242E+OOO HPI-MDP-FR-1A6HR 10 3.780E..;004 2.182E-004 l.OOOE+OOO l.577E+OOO HPI-MDP-FS-CH2C 5 4.000E-003 6.02SE-005 1.000E+OOO 1.015E+OOO HPI-XVM-PG-XV24 1 4.000E-005 5.720E-006 l.OOOE+OOO l.143E+OOO HPR-MDP-FR~Al8HR 3 .1. 224E-003 l.168E-004 l.OOOE+OOO 1.095E+OOO IAS-CPS-FS-IAC-1 33 8.000E-002 6.381E-004 1.00lE+OOO l.007E+OOO ICT1W1D6 14 7.210E-007 1.927E-003 l.002E+OOO 2.624E+003 ICT1W1R6 2 4.930E-008 5.891E-005 l.OOOE+OOO l.193E+003 ICT1W2D6 2 2.690E-006 l.099E-003 l.OOlE+OOO 4.096E+002 ICT1W2R6 5 1.570E-006 6.762E-004 1.00lE+OOO 4.314E+002 ICT1W3D6 1 2.310E-006 9.378E-004 l.OOlE+OOO 4.070E+002 ICT1W3Rl0 1 4.300E-008 1.571E-005 1.000E+OOO 3.664E+002 ICT1W3R6 2 1.190E-006 4.831E-004 l.OOOE+OOO 4.067E+002 ICT1W4D6 1 4.440E-007 3.897E-005 l.OOOE+OOO B.878E+001 ICT1W4Rl0 2 2.650E-006 2.326E-004 l.OOOE+OOO 8.875E+001 ICT1W4R6 1 9.860E-008 6.058E-006 1 .* 000E+OOO 6.244E+001 ICT2W1D6 51 l.790E-005 2.603E-002 l.027E+OOO l.440E+003 ICT2W1R6 19 l.230E-006 6.194E-004 l.OOlE+OOO 5.026E+002 ICT2W2D6 24 6.670E-005 5.330E-004 l.OOlE+OOO B.991E+OOO ICT2W2R6 40 3.920E-005 1.975E-003 l.002E+OOO 5.137E+001 ICT2W3D6 1 5.740E-005 2.425E-005 l.OOOE+OOO l.422E+OOO ICT2W3R6 3 2.960E-005 3.JllE-005 l.OOOE+OOO 2.119E+OOO ICT2W4Rl0 3 6.590E-005 2.546E-005 1.000E+OOO 1.386E+OOO ICV1W1D6 1 4.980E-007 2.732E-002 1.028E+OOO 5.486E+004 ICV1WlR6 2 3.400E-008 l.865E-003 1.002E+OOO 5.432E+004 ICV1W2D6 1 1.860E-:006 1. 020E-001 1.114E+OOO 5.486E+004 ICV1W2R6 2 l.090E-006 5.980E-002 1.064E+OOO 5.226E+004 ICV1W3D6 1 1.600E-006 1.668E-002 1.017E+OOO 1. 042E+004 ICV1W3Rl0 2 2.980E-008 4.430E-004 1.000E+OOO l.393E+004 ICV1W3R6 2 8.200E-007 8.547E-003 l.009E+OOO l.025E+004 ICV1W4D6 1 3.070E-007 6.063E-004 l.OOlE+OOO 1.976E+003 ICV1W4Rl0 2 l.830E-006 3.614E-003 l.004E+OOO 1.961E+003 ICV1W4R6 2 6.SOOE-008 1. 343E-004 l.OOOE+OOO 1.961E+003 1994/01/27 12:45:27 page 9

  • P-27
                ,IMPORTANCE MEASURES REPORT (Alternate cut Sets)

Family  : RHRTEST Endstate  : CD Analysis: RANDOM Case ALTERNATE (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IE10W1D6 1 4.580E-008 2.513E-003 1.003E+OOO 5.486E+004 IE10WlR6 1 2.860E-009 1.553E-004 l.OOOE+OOO 5.431E+004 IE10W2D6 1 1.700E-007 9.326E-003 1.009E+OOO 5.486E+004 IE10W2R6 2 1.000E-007 5.486E-003 1.006E+OOO 5.226E+004 IE10W3D6 1 1.470E-007 1.532E-003 1.002E+OOO 1.042E+004 IE10W3R10 2 2.720E-009 1.492E-004 1. OOOE+OOO 4.992E+004 IE10W3R6 2 7.560E-008 7.880E-004 1. OOlE+OOO 1. 025E+004 IE10W4D6 1 2.820E-008 5.569E-005 1.000E+OOO l.976E+003 IE10W4R10 2 1.680E-007 3.318E-004 1.000E+OOO l.961E+003 IE10W4R6 2 6.30DE-009 3.456E-004 l.OOOE+OOO 4.334E+004 IE12W1D6 45 7.210E-006 1.090E-002 1.0llE+OOO 1.497E+003 IE12WlR6 13 4.930E-007 4.491E-004 l.OOOE+OOO 9.053E+002 IE12W2D6 9 2.690E-005 1. 787E-004 1. OOOE+OOO 7.644E+OOO IE*12W2R6 22 1.570E-005 8.870E-004 l.OOlE+OOO 5.747E+001 IE12W3D6 1 2.310E-005 3.422E-005 l.OOOE+OOO 2.481E+OOO IE12W3R6 3 l.190E-005 9.687E-005 l.OOOE+OOO 9.140E+OOO IE13AW1D6 12 3.370E-006 1.309E-003 1.00lE+OOO 3.885E+002 IE13AW1R6 7 2.JOOE-007 1.169E-004 l.:OOOE+OOO 5.073E+002 IE13AW2D6 14 l.260E-005 1.555E-003 l.002E+OOO 1. 243E+002 IE13AW2R6

  • 12 7.330E-006 1.032E-003 l.OOlE+OOO 1.417E+002 IE13AW3D6 4 1.0SOE-005 7.940E-004 1.00lE+OOO 7.451E+001 IE13AW3Rl0 1 2.020E-007 1.097E-005 1.000E+OOO 5.531E+001 IE13AW3R6 5 5.540E-006 4.000E-004 l.OOOE+OOO 7.319E+001 IE13AW4D6 1 2.070E-006 2.725E-005 l.OOOE+OOO l.417E+001 IE13AW4Rl0 6 1. 240E-005 2.021E-004 l.OOOE+OOO 1. 730E+001 IE13BW1D6 38 l.OSOE-006 1.060E-002 l.OllE+OOO 9.386E+003 IE13BW1R6 11 7.190E-008 6.879E-004 l.OOlE+OOO 8.943E+003 IE13BW2D6 68 3.920E-006 2.747E-002 l.028E+OOO 6.656E+003 IE13BW2R6 63 2.JOOE-006 1.SS~E-002 1. 016E+O.OO 6.417E+003 IE13BW3D6 12 3.380E-006 3.163E-003 l.003E+OOO 9.334E+002 IE13BW3Rl0 3 6.290E-008 8.288E-005 l.OOOE+OOO 1. 309E+003 IE13BW3R6 13* 1. 730E-006 1. 721E-003 l.002E+OOO 9.903E+002 IE13BW4D6 7 6.480E-007 3.354E-004 l.OOOE+OOO 5.170E+002 IE13BW4Rl0 7 3.870E-006 4.926E-004 l.OOOE+OOO l.282E+002 IE13BW4R6 4 1.440E-007 5.642E-005 1.000E+OOO 3.918E+002 IE1W1D6 15 1.710E-007 2.603E-003 1.003E+OOO 1.355E+004 IE1W1R6 8 1.170E-008 l.695E-004 l.OOOE+OOO 1.298E+004 IE1W2D6 34 6.370E-007 7.891E-003 1.00BE+OOO 1.130E+004 IE1W2R6 31 3.720E-007 4 .411E-003 l.004E+OOO l.086E+004 IE1W3D6 5 5.480E-007 6.325E-004 l.OOlE+OOO 1.148E+003 IE1W3R10 2 1. 020E-008 1. 838E-005 l.OOOE+OOO 1.790E+003 IE1W3R6 9 2.SlOE-007 3.696E-004 l.OOOE+OOO 1. 305E+003 IE1W4D6 4 1.0SOE-007 l.113E-004 l.OOOE+OOO 1.055E+003 IE1W4R10 12 6.270E-007 6.933E-004 l.OOlE+OOO l.098E+003 1994/01/27 12:45:27 page 10 P-28
  • Family IMPORTANCE MEASURES REPORT (Alternate Cut Sets)
RHRTEST Analysis: RANDOM Case ALTERNATE EndState (Sorted by Event Name)
CD Num. Probability FUssell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IE1W4R6 1 2.330E-008 9.843E-006 1.000E+OOO *4.234E+002 IE2W1D6 36 4.790E-007 6.529E-003 1.007E+OOO l.232E+004 IE2W1R6 6 3.280E-008 4.0SOE-004 1.000E+-000 l.130E+004 IE2W2D6 61 1.780E-006 l.872E-002 l.019E+OOO 9.768E+003 IE2W2R6 51 1.0SOE-006 1.059E-002 1.0llE+OOO 9.393E+003 IE2W3D6 10 1.530E-006 1.680E-003 l.002E+OOO l.093E+003 IE2W3R10 3 2.860E-008 5.776E-005 l.OOOE+OOO 2.000E+003 IE2W3R6 8 7.910E-007 9 .*372E-004 l.OOlE+OOO 1.177E+003 IE2W4D6 3 2.940E-007 2.406E-004 l.OOOE+OOO 8.167E+002 IE2W4R10 12 1. 760E-006 6.485E-004 l.OOlE+OOO 3.686E+002 IE2W4R6 2 6.560E-008 3.959E-005 1.000E+OOO 6.031E+002 IE3W1D6 36 4.790E-007 6.529E-003 l.007E+OOO 1.232E+004 IE3W1R6 6 3.280E-008 4.0SOE-004 l.OOOE+OOO l.130E+004 IE3W2D6 61 1. 780E-006 1.872E-002 l.019E+OOO 9.768E+003 IE3W2R6 51 1.0SOE-006 l.059E-002 1.0llE+OOO 9.393E+003 IE3W3D6 10 1.530E-006 l.680E-003 l.002E+OOO 1.093E+003 IE3W3Rl0 3 2.860E-008 5.776E-005 l.OOOE+OOO 2.000E+003 IE3W3R6 8 7.910E-007 9.372E-004 1.00lE+OOO 1.177E+003 IE3W4D6 3 2.940E-007 2.406E-004 l.OOOE+OOO 8.167E+002 IE3W4R10 12 1.760E-006 6.485E-004 l.OOlE+OOO 3.686E+002 IE3W4R6 2 6.560E-OOB 3.959E-005 l.OOOE+OOO 6.031E+002 IE4W1D6 1 3.680E-007 2.019E-002 l.021E+OOO 5.486E+004 IE4W1R6 2 2.530E-OOB l.388E-003 l.OOlE+OOO 5.432E+004 IE4W2D6 1 1.370E-006 7.516E-002 1.081E+OOO 5.486E+004 IE4W2R6 2 8.090E-007 4.438E-002 1.046E+OOO 5.226E+004 IE4W3D6 1 1.lBOE-006 l.230E-002 l.012E+OOO l.042E+004 IE4W3R10 2 2.210E-008 2.304E-004 l.OOOE+OOO l.025E+004 IE4W3R6 2 6.llOE-007 6.369E-003 l.006E+OOO l.025E+004 IE4W4D6 1 2.270E-007 4.483E-004 l.OOOE+OOO l.976E+003 IE4W4R10 2 1.360E-006 2.686E-003 l.003E+OOO l.961E+003 IE4W4R6 2 5.070E-008 l.OOlE-004 l.OOOE+OOO l.961E+003 IE5W1D6 1 3.680E-007 2.019E-002 l.021E+OOO 5.486E+004 IESW1R6 2 2.530E.;.008 1.388E-003 l.OOlE+OOO 5.432E+004 IE5W2D6 1 1.370E-006 7.516E-002 l.OBlE+OOO 5.486E+004 IE5W2R6 2 8.090E-007 4.438E-002 l.046E+OOO 5.226E+004 IE5W3D6 1 1.lBOE-006 1.230E-002 1.012E+OOO 1.042E+004 IESW3Rl0 2 2.210E-008 2.304E-004 l.OOOE+OOO l.025E+004 IESW3R6 2 6.llOE-007 6.369E-003 l.006E+OOO 1.025E+004 IE5W4D6 1 2.270E-007 4.483E-004 l.OOOE+OOO l.976E+003 IESW4R10 2 1.360E-006 2.686E-003 l.003E+OOO l. 961E+003 IESW4R6 2 5.070E-008 l.OOlE-004 l.OOOE+OOO 1.961E+003 IE6W1D6 4 3.267E-008 l.928E-003 l.002E+OOO 4.313E+004.

IE6WlR6 3 2.230E-009 1.841E-004 l.OOOE+OOO 5.067E+004* IE6W2D6 7 1.220E-007 6.874E-003 l.007E+OOO 4.284E+004 1994/01/27 12:45:27 page 11 P-29

Family . IMPORTANCE MEASURES REPORT (Alternate cut Sets) RHRTEST Endstate  : CD An~lysis: RANDOM Ca~e ALTERNATE (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio IE6W2R6 9 7.lOSE-008 ----------- 3.885E-003 ----------- 1.004E+OOO 4.158E+004 IE6W3D6 2 1.046E-007 3.009E-004 1.000E+OOO 2.859E+003 IE6W3Rl0 1 1.948E-009 2.280E-005 l.OOOE+OOO 1.170E+004 IE6W3R6 2 5.367E-008 1.389E-004 l.OOOE+OOO 2.575E+003 IE6W4D6 1 2.0lOE-008 1. 753E-004 1.000E+OOO 8.724E+003 IE6W4Rl0 4 1.198E-007 3.531E-004 1.000E+OOO 2.932E+003 IE6W4R6 2 4.450E-009 3.882E-005 1.000E+OOO 8.433E+003 IE7W1D6 8 4.822E-007 2.822E-002 1.029E+OOO 4.160E+004 IE7WlR6 40 3.290E-008 2.883E-003 l.003E+OOO 4.518E+004 IE7W2D6 109 1.796E-006 7.569E-002 l.082E+OOO 3.219E+004 IE7W2R6 96 l.OSOE-006 7.429E-002 1.0SOE+OOO 4.369E+004 IE7W3D6 3 1.SSOE-006 6.718E-004 l.OOlE+OOO 4.342E+002 IE7W3Rl0 *2 2.SSOE-008 6.029E-005 1.000E+OOO 2.083E+003 IE7W3R6 6 7.900E-007 6.240E-004 1.00lE+OOO 7.874E+002 IE7W4D6 2 2.960E-007 5.167E-005 1.000E+OOO 1*. 754E+002 IE7W4Rl0 12 1.768E-006 6.672E-004 l.OOlE+OOO 3.773E+002 IE7W4R6 1 6.571E-008 7.570E-006 1.000E+OOO 1.162E+002 IE8W1D6 5 2.llOE-008 l.360E-003 l.OOlE+OOO 4.605E+004 IE8WlR6 3 1.440E-009 8.901E-005 1.000E+OOO 4.540E+004 IE8W2D6 6 7.SSOE-008 4.453E-003 1.004E+OOO 4.106E+004 IE8W2R6 7 4.590E-008 2.599E-003 1.003E+OOO 4.046E+004 IE8W3D6 5 6.750E-008 2.029E-003 l.002E+OOO 2.801E+004 IE8W3RlO* l 1.250E-009 2.901E-005 ,.OOOE+OOO 2.321E+004 IE8W3R6 7 3.460E-008 1.0JSE-003 .1.00lE+OOO 2.692E+004 IE8W4D6 3 1. JOOE-008 1.405E-004 l.OOOE+OOO 1.055E+004 IE8W4Rl0 8 7.710E-008 8.513E-004 1.00lE+OOO 1.041E+004 IE8W4R6 2 2.870E-009 2.677E-005 1.000E+OOO 8.994E+003 IE9W1D6 5 1.700E-008 1.lOJE-004 1.000E+OOO 6.232E+003 IE9W2D6 1 6.320E-008 3.lSJE-005 1.000E+OOO 4.999E+002 IE9W2R6 2 3.710E-008 4.093E-005 1.000E+OOO 1.099E+003 IM13W1D6 1 3.040E-009 7.0BSE-005 1.000E+OOO 2.331E+004 IM13W2D6 2 l.130E-008 l.606E-004 1.000E+OOO l.396E+004 IM13W2R6 2 6.620E-009 8.936E-005 1.000E+OOO l.327E+004 IM13W3D6 2 9.750E-009 1.385E-004 1.000E+OOO 1.396E+004 IM13W3R6 2 5.000E-009 6.SBJE-005 *1.000E+OOO 1.288E+004 IM1W1D6 6* 8.JOOE-008 1.820E-004 l.OOOE+OOO 2.162E+003 IM1W2D6 1 3.lOOE-007 2.762E-005 1.000E+OOO 9. o*o9E+oo1 IM1W2R6 2 1. SlOE-007 6.894E-005 l.OOOE+OOO 3 .814E+002 IM1W3D6 1 2.660E-007 2.370E-005 1.000E+OOO 9.009E+001 IM1W3R6 2 l.370E-007 1. 362E-005 1.000E+OOO 1.004E+002 IM3W1D6 10 6.070E-008 1.554E-003 1.002E+OOO 2.460E+004 IM3WlR6 1 4.lSOE-009 2.872E-005 l.OOOE+OOO 6.923E+003 IM3W2D6 5 2.260E-007 6.0SJE-005 LOOOE+OOO 2.683E+002 IM3W2R6 7 1. 320E-007 2.296E-004 1.000E+OOO 1.729E+003 1994/01/27 12:45:27 page 12 P-30

  • Family Analysis Case IMPORTANCE MEASURES REPORT (Alternate cut sets)

RHRTEST RANDOM

ALTERNATE EndState (Sorted by Event Name)
CD Num. Probability FUssell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Impc;>rtance Ratio Ratio IM3W3D6 4 1.950E-007 3.742E-005 1.000E+OOO 1.927E+002 IM3W3R10 1 3.620E-009 6.469E-006 1.000E+OOO 1. 788E+003 IM3W3R6 3 1.000E-007 2.053E-004 1.000E+OOO 2.045E+003 IM3W4R10 1 2.200E-007 1. 250E-005 1.000E+OOO 5.782E+001 IM4W1D6 1 1.000E-008 5.486E-004 1.00lE+OOO 5.486E+004 IM4W1R6 2 6.830E-010 l.855E-005 1.000E+OOO 2.393E+004 IM4W2D6 7 3.730E-008 5.607E-004 1.00lE+OOO 1.413E+004 IM4W2R6 5 2.lSOE-008 1.lOJE-003 1.00lE+OOO 4.096E+004 IM4W3D6 7 3.210E-008 4.826E-004 1.000E+OOO 1.413E+004 IM4W3R10 1 5.980E-010 2.953E-005 1.000E+OOO 4.938E+004
  ,IM4W3R6                   2    1.650E-008     1.720E-004   1.000E+OOO   9.931E+003 IM4W4D6                    1    6.160E-009     6.759E-005   1.000E+OOO   1.097E+004 IM4W4R10                   2    J.680E-008     4.341E-005   1.000E+OOO   1.175E+003 IM4W4R6                    2    1.370E-009     7.516E-005   1.000E+OOO   4.334E+004 IM8W1D6                    2    7.040E-009     8.883E-005   1.000E+OOO   1.240E+004 IM8W2D6                    3    2.620E-008     7.981E-005   1.000E+OOO   2.996E+003 IMBW2R6                   5    1~540E-008     1.848E-004   1.000E+OOO   1.112E+004 IM8W3D6                    2    2.260E-008     4.798E-005   1.000E+OOO   2.109E+003 IM8W3R6                    3    1.i60E-008     4.SOBE-005   1.000E+OOO   3.820E+003 IM8W4R10                   2    2.590E-008     4.149E-005   1.000E+OOO   l.593E+003 IMAW1D6                    5    1.lOOE-006     1.594E-004   1.000E+OOO   1.458E+002 IMAW1R6                    6    7.SOOE-008     6.891E-005   1.000E+OOO   9.137E+002 IMAW2R6                   17    2.390E-006     1.170E-003   1.00lE+OOO   4.893E+002 IMAW3D6                    8    3.SlOE-006     5.384E-004   1.00lE+OOO   l.543E+002 IMAW3R6                    5    1.BlOE-006     2.506E-004   1.000E+OOO   1.393E+002 IMAW4R10                   5    4.020E-006     1.098E-004   1.000E+OOO   2.832E+001 IMCW1D6                    3    2.430E-008     4.361E-OOS   1.000E+OOO   l. 778E+003 IMCW2D6                    1    9.070E-008     8.0SlE-006   1.000E+OOO   9.009E+001 IMCW2R6                    1    5.320E-008     1.576E-005   1.000E+OOO   2.972E+002 IMCW3D6                    1    7.BOOE-008     6. 949E-0'06 1.000E+OOO   9.009E+001 IMGW1D6                   10    4.JBOE-007     6.082E-004   1.00lE+OOO   l.376E+003 IMGW1R6                    1    2.995E-008     6.507E-006   1.000E+OOO   2.182E+002 IMGW2R6                    3    9.523E-007     2.679E~OOS   1.000E+OOO   2.912E+001 IMHW1D6                   .1    5.610E-008     3.269E-OOS   1.000E+OOO   S.836E+002 IMHW2D6                    1    2.089E-007     1.690E-OOS   1.000E+OOO   8.190E+001 IMHW2R6                    2    l.220E-007     2.183E-OOS   1.000E+OOO   1.798E+002 IN1W1D6                    9    1.0SOE-006     3.833E-004   1.000E+OOO   3.651E+002 IN1W1R6                    1    7.190E-008     1.093E-005   l.OOOE+OOO   1.531E+002 IN1W2D6                   12    3.920E-006     6.628E-004   1.00lE+OOO   1.699E+002 IN1W2R6                   12    2.JOOE-006     4.363E-004   1.000E+OOO   1.904E+002 IN1W3D6                    4    3.JSOE-006     2.485E-004   1.000E+OOO   7.451E+001 IN1W3R6                    4    l. 730E-006    1.215E-004   1.000E+OOO   7.123E+001 IN1W4D6                    1    6.480E-007     8.532E-006   1. OOOE+OOO  l.417E+001 IN1W4R10                   2    3.870E-006     5.095E-005   1.000E+OOO   l.417E+001 1994/01/27                         12:45:27                        page     13 P-31

Family Analysis Case IMPORTANCE MEASURES REPORT (Alternate cut sets) RHRTEST RANDOM

ALTERNATE EndState (Sorted by Event Name)
CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio* Ratio IN2W106 6 5.170E-007 1. 759E-004 1.000E+OOO 3.404E+002 IN2W206 9 l.930E-006 3.170E-004 1.000E+OOO l.650E+002 IN2W2R6 8 1.130E-006 1. 989E-004 l.OOOE+OOO 1. 768E+002 IN2W306 3 l.660E-006 l.184E-004 l.OOOE+OOO 7.233E+001 IN2W3R6 1 8.530E-007 4.633E-005 l.OOOE+OOO 5.531E+001 IN2W4R10 2 l.900E-006 2.502E-005 l.OOOE+OOO 1.417E+001 ISR-CCF-FS-RSlAB 2 4.200E-003 2.893E-005 l.OOOE+OOO 1.007E+OOO ISR-MDP-FS-RSlA 9 3.SOOE-002 4.0lSE-004 1. OOOE+.000 l.OlOE+OOO ISR-TRA-MA 40 2.500E-001 3.llOE-003 l.003E+OOO l.009E+OOO LOOPISOLATED1R6 23 3.000E-001 1. 314E-003 l.OOlE+OOO l.003E+OOO LOOPIS0LATED2R6 84 7.000E-001 4.387E-002 1. 046E+OOO 1.019E+OOO LOSP 11 1. 670E-004 l.295E-004 1.000E+OOO 1. 775E+OOO LPI-CCF-FS-SI1AB 11 4.500E-004 7.667E-004 l.OOlE+OOO 2.703E+OOO LPI-CKV-FT-CV46B 1 l.OOOE-004 6.790E-006 l.OOOE+OOO l.068E+OOO LPI-CKV-FT-CV50 3 1.000E-004 l.445E-004 l.OOOE+OOO 2.445E+OOO LPI-CKV-OO-CV58 3 1.000E-003 2.622E-005 1.000E+OOO l.026E+OOO LPI-MDP-FR-1B6HR 1 l.SOOE-004 1.lOSE-005 l.OOOE+OOO l.061E+OOO LPI-MDP-FR-B24HR 3 7.200E-004 6.871E-005 l.OOOE+OOO l.095E+OOO LPI-MDP-FS-SI1B 65 3.000E-003 5.833E-003 1.006E+OOO 2.939E+OOO LPI-XVM-PG-XV48 2 3.650E-005 5.028E-005 l.OOOE+OOO 2.377E+OOO LPR-CCF-FT-860AB 4 2.600E-004 3.747E-004 l.OOOE+OOO 2.441E+OO LPR-CCF-FT-862AB 4 2.600E-004 3.747E-004 l.OOOE+OOO 2.441E+OOO LPR-CCF-FT-863AB 1 2.600E-004 l.596E-005 l.OOOE+OOO l.061E+OOO LPR-CCF-PG-SUMPl 21 1.000E-002 l.501E-002 l.015E+OOO 2.486E+OOO LPR-CCF-PG-SUMP2 55 1.000E-001 2.128E-003 l.002E+OOO l.019E+OOO LPR-CKV-FT-CV47 2 1.000E-004 1. 378E-004 l.OOOE+OOO 2.377E+OOO LPR-MOV-FT-1860B 12 3.000E-003 4.491E-003 l.005E+OOO 2.493E+OOO LPR-MOV-FT-1862B 20 5.200E-003 7.848E-003 l.OOSE+OOO 2.501E+OOO LPR-MOV-FT-1890B 12 3.000E-003 1.667E-004 l.OOOE+OOO 1. 055E+OOO LPR-MOV-PG-1890B 2 6.600E-004 1. 334E-005 l.OOOE+OOO 1. 020E+OOO MSS-AOV-FC-101A 5 1.SOOE-001 5.616E-005 1.000E+OOO 1.000E+OOO MSS-AOV-FC-101B 5 1.SOOE-001 5.616E-005 1.000E+OOO l.OOOE+OOO MSS-NRV-FT-101A 6 3.000E-003 3.109E-004 1.000E+OOO l.103E+OOO MSS-NRV-FT-101B 6 3.000E-003 3.109E-004 l.OOOE+OOO l.103E+OOO MSS-NRV-FT-101C 2 3.000E-003 1. 241E-005 l.OOOE+OOO l.004E+OOO MSS-NRV-MA-101A 31 5.000E-002 5.558E-003 l.006E+OOO l.106E+OOO MSS-NRV-MA-101B 31 5.000E-002 5.558E-003 l.006E+OOO l.106E+OOO MSS-NRV-MA-101C 20 5.000E-002 5.022E-004 1.00lE+OOO l.OlOE+OOO MSS-NRV-PG-101A 3 6.000E-004 5.650E-005 l.OOOE+OOO l.094E+OOO MSS-NRV-PG-101B 3 6.000E-004 5.650E-005 l.OOOE+OOO l.094E+OOO MSS-STV-MA-lOlA 1 5.000E-002 6.330E-006 l.OOOE+OOO l.OOOE+OOO MSS-STV-MA-101B 1 5.000E-002 6.330E-006 l.OOOE+OOO l.OOOE+OOO MSS-XVM-XHE-BYPS 2 1. 700E-003 1.266E-005 l.OOOE+OOO l.007E+OOO OEP-CRB-FT-15H3 17 3.000E-003 2.538E-004 1. OOOE+OOO 1.084E+OOO 1994/01/27 12:45:27 page 14 P-32
  • Family IMPORTANCE MEASURES REPORT (Alternate cut sets)
RHRTEST Analysis : RANDOM Case ALTERNATE EndState (Sorted by Event Name)
CD Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio OEP-CRB-FT-15J3 1 3.000E-003 5.894E-006 l.OOOE+OOO l.002E+OOO OEP-DGN-FS-DG01 2 2.200E-002 2.095E-005 l.OOOE+OOO 1. OOlE+OOO OEP-DGN-FS-DG03 3 2.200E-002 5.661E-005 l.OOOE+OOO l.003E+OOO OSR-MDP-FS-RS2A 1 3.000E-003 1.473E-005 l.OOOE+OOO l.005E+OOO OSR-TRA-MA 50 2.500E-001 3.526E-003 l.004E+OOO l,OllE+OOO PCS-CCF-FT-TRBYP 1 l.OOOE-004 7.447E-006 l.OOOE+OOO 1. 074E+OOO PORV-PATH-CLSD 30 5.000E-002 5.690E-004 l.OOlE+OOO 1. OllE+OOO PPS-MOV-FT-1536 28 4.000E-002 5.546E-004 l,OOlE+OOO 1. 013E+OOO PZR-SV-REMOVEDWl 136 l.OOOE-002 -5.740E-005 9.999E-001 9.943E-001 PZR-SV-REMOVEDW2 461 5.000E-002 -4.542E-003 9.955E-001 9.137E-001 PZR-SV-REMOVEDW3 123 9.000E-001 -4.781E-003 9.952E-001 9.995E-001 PZR-SV-REMOVEDW4 125 3.000E-001 l.163E-003 1. OOlE+OOO l,003E+OOO R-CV1W3-2CH 4 l.900E-001 2.550E-002 l.026E+OOO l.109E+OOO R-CV1W4-2CH 5 3.600E-002 4,355E-003 l.004E+OOO l.117E+OOO R-ElOW3-2CH 3 l,900E-001 2.320E-003 l,002E+OOO l.OlOE+OOO R-ElOW4-2CH 3 3.600E-002 3.875E-004 l.OOOE+OOO 1. OlOE+OOO R-El3AW1-D6-3 3 l,OOOE+OOO l.656E-004 1.000E+OOO l,OOOE+OOO R-El3AW1-D6-7 3 5.214E-001 2.925E-004 l.OOOE+OOO l,OOOE+OOO R-El3AW1-R6-17 1 5,214E-001 l,290E-005 l.OOOE+OOO l,OOOE+OOO R-E13BW1-D6-7 16 5,219E-001 5.452E-003 l.OOSE+OOO l,005E+OOO R-E13BW1-R6-17 5 5.219E-001 3.558E-004 l,OOOE+OOO l.OOOE+OOO R-E13BW2-D6-9 35 7.541E-001 2.056E-002 1. 021E+OOO l,007E+OOO R-El3BW2-R6-17 27 7.541E-001 1.143E-002 l,012E+OOO 1. 004E+OOO R-E1W1-D6-7 7 5.219E-001 1. 354E-003 l,OOlE+OOO 1,001E+OOO R-E1Wl-R6-17 4 5.219E-001 8.908E-005 l.OOOE+OOO 1,000E+OOO R-E1W2-D6-9 17 7,541E-001 5.960E-003 l,006E+OOO 1. 002E+OOO R-ElW2-R6-17 16 7.541E-001 3.302E-003 l,003E+OOO 1. OOlE+OOO R-ElW3-2CH 6 1. 900E-001 3.138E-004 l.OOOE+OOO 1. OOlE+OOO R-E2Wl-D6-3 14 5.235E-001 3,330E-003 l,003E+OOO l,003E+OOO R-E2W1-D6-7 3 5.214E-001 6.166E-005 l,OOOE+OOO l,OOOE+OOO R-E2Wl-R6-8 3 5.235E-001 2.132E-004 l.OOOE+OOO l.OOOE+OOO R-E2W2-D6-4 27* 7.563E-001 1. 390E-002 1. 014E+OOO l,004E+OOO R-E2W2-D6-9 4 7.533E-001 2,033E-004 l.OOOE+OOO 1.000E+OOO R-E2W2-R6-17 4 7.534E-001 l.139E-004 l.OOOE+OOO l,OOOE+OOO R-E2W2-R6-8 18 7.564E-001 7.754E-003 l,008E+OOO l,002E+OOO R-E2W3-2CH 7 1.900E-001 6.871E-004 1.00lE+OOO l,003E+OOO R-E2W4-2CH 1 3.600E-002 2.677E-005 1.000E+OOO l.OOlE+OOO R-E3Wl-D6-3 14 5.235E-001 3.330E-003 l,003E+OOO l,003E+OOO R-E3Wl-D6-7 3 5,214E-001 6.166E-005 1.000E+OOO l.OOOE+OOO R-E3Wl-R6-8 3 5.235E-001 2,132E-004 l.OOOE+OOO l.OOOE+OOO R-E3W2-D6-4 27 7.563E-001 1. 390E-002 l,014E+OOO l,004E+OOO R-E3W2-D6-9 4 7.533E-001 2.033E-004 l,OOOE+OOO l.OOOE+OOO R-E3W2-R6-17 4 7.534E-001 l.139E-004 l.OOOE+OOO l.OOOE+OOO R-E3W2-R6-8 18 7.564E-001 7.754E-003 l.OOSE+OOO l.002E+OOO 1994/01/27 12:45:27 page 15 P-33

IMPORTANCE MEASURES REPORT (Alternate cut Sets) Family  : RHRTEST EndState  : CD Analysis: RANDOM. case ALTERNATE (Sorted by Event Name) Num. Probability Fussell- Risk Risk of of Vesely Reduction Increase Event Name 0cc. Failure Importance Ratio Ratio R-E3W3-2CH 7 1.900E-001 6.871E-004 l.OOlE+OOO l.003E+OOO R-E3W4-2CH 1 3.600E-002 2.677E-005 l.OOOE+OOO l.OOlE+OOO R-E4W3-2CH 5 1. 900E-001 1.890E-002 l.019E+OOO 1. 081E+OOO R-E4W4-2CH 5 3.600E-002 3.234E-003 l.003E+OOO 1.087E+OOO R-E5W3-2CH 5 1. 900E-001 1.890E-002 l.019E+OOO 1. 081E+OOO R-E5W4-2CH 5 3.600E-002 3.234E-003 l.003E+OOO 1.087E+OOO R-E6W1-D6-2 1 3.059E-001 5.483E-004 1.00lE+OOO 1.00lE+OOO R-E6Wl-R6-7 1 7.691E-001 9.315E-005 1.000E+OOO 1.000E+OOO R-E6W2-D6-3 1 6.767E-001 4.529E-003 1.00SE+OOO 1.002E+OOO R-E6W2-R6-7 1 6.767E-001 2.506E-003 1.003E+OOO 1. OOlE+OOO R-E6W3-2CH 2 1.900E-001 3.777E-004 1.000E+OOO *1. 002E+OOO R-E6W4-2CH 1 3.600E-002 2.633E-005 l.OOOE+OOO 1.00lE+OOO R-E7W1-D6-7 1 5.922E-001 1.567E-002 l.016E+OOO 1.0llE+OOO R-E7Wl-R6-17 14 5.922E-001 1.647E-003 l.002E+OOO l.OOlE+OOO R-E7W2-D6-9 40 7.558E-001 5.590E-002 1.059E+OOO 1.018E+OOO R-E7W2-R6-17 37 7.559E-001 5.431E-002 l.057E+OOO 1.018E+OOO R-E7W3-2CH 4 1.900E-001 3.242E-004 1.000E+OOO 1.00lE+OOO R-E8Wl-D6-2 1 1.981E-001 2.293E-004 1.000E+OOO 1.00lE+OOO R-E8Wl-R6-7 1 1.981E-001 1.549E-005 l.OOOE+OOO 1.000E+OOO R-E8W2-D6-3 1 4.860E-001 2.093E-003 1.002E+OOO 1.002E+OOO R-E8W2-R6-7 1 4.860E-001 1.163E-003 1.00lE+OOO l.OOlE+OOO R-E9W1-D6-3 2 4.294E-001 4.776E-005 l.OOOE+OOO l.OOOE+OOO R-EAW2-2CH 6 1.900E-001 2.985E-004 l.OOOE+OOO 1. OOlE+OOO R-EBW3-2CH 15 1.900E-001 8.417E-004 l.OOlE+OOO l.004E+OOO R-EBW4-2CH 3 3.600E-002 4.458E-005 1.000E+OOO 1.00lE+OOO R-M3W2-D6-9 1 8.414E-001 1.716E-005 1.000E+OOO 1.000E+OOO R-M3W2-R6-17 2 8.713E-001 2.295E-005 l.OOOE+OOO l.OOOE+OOO R-M4W3-1869B 1 1.000E-001 8.147E-005 1.000E+OOO 1.00lE+OOO R-M4W4-l869B 2 2.lSOE-002 4.341E-005 l.OOOE+OOO 1.002E+OOO R-M8W2-D6-3 1 8. 414E-O-Ol 2.419E-005 1.000E+OOO 1.000E+OOO R-MHW2-D6-9 1 8.965E-001 1.690E-005 1.000E+OOO 1.000E+OOO R-MHW2-R6-17 2 8.966E-001 2.183E-005 1.000E+OOO 1.000E+OOO R-N1W1-D6-7 3 5.219E-001 9.124E-005 1.000E+OOO 1.000E+OOO R-N1W2-D6-9 5 7.541E-001 2.500E-004 l.OOOE+OOO 1.000E+OOO R-N1W2-R6-17 3 7.541E-001 1.323E-004 l.OOOE+OOO 1.000E+OOO R-N2W1-D6-7 2 5.219E-001 3.997E-005 l.OOOE+OOO l.OOOE+OOO R-N2W2-D6-9 3 7.541E-001 1.169E-004 l.OOOE+OOO 1.000E+OOO R-N2W2-R6-17 3 7.541E-001 6.SOlE-005 l.OOOE+OOO 1.000E+OOO RHR-ASF-PG-1605 13 3.000E-004 2.077E-004 l.OOOE+OOO l.692E+OOO RHR-CCF-FS-MDPAB 20 4.SOOE-004 3.533E-004 1.000E+OOO 1.785E+OOO RHR-CKV-FT-CV5 4 1.000E-004 4.003E-005 1.000E+OOO 1.400E+OOO RHR-CKV-00-CVli 15 l.OOOE-003 4.042E-004 l.OOOE+OOO 1. 404E+OOO RHR-MDP-FR-B24HR 22 7.200E-004 5.772E-004 l.OOlE+OOO 1.S01E+OOO RHR-MDP-FS-RHR1B 37 3.000E-003 2.551E-003 l.003E+OOO 1.848E+OOO 1994/01/27 12:45:27 page 16 P-34

  • Family IMPORTANCE MEASURES REPORT (Alternate cut Sets)
                   . RHRTEST Analysis : RANDOM case        ALTERNATE EndState (Sorted by Event Name)
                                                           . CD Num. Probability     Fussell-        Risk          Risk of          of          Vesely       Reduction     Increase Event Name       0cc.      Failure      Importance       Ratio         Ratio RHR-SRV-C0-1721         4 9.360E-005 3.747E-005 1.000E+OOO
1. 400E+OOO RHR-XVM-PG-XV2 18 4.400E-004 3.346E-004 1.000E+OOO 1. 760E+OOO RHR-XVM-PG-XV6 18 4.400E-004 3.346E-004 1.000E+OOO 1.760E+OOO RWT-TNK-LF-RWST 1 2.700E-006 6.833E-006 l.OOOE+OOO 3.531E+OOO SAS-CCF-FR-SACl 1 4.SOOE-004 6.227E-006 1. OOOE+OOO 1.013E+OOO SAS-CPS-FR-1SAC1 16 4.SOOE-003 3.159E-004 1.000E+OOO 1.066E+OOO SAS-CPS-FR-2SAC1 16 4.SOOE-003 3.159E-004 1.000E+OOO 1.066E+OOO SGA-DRAINED-R 31 2.300E-002 2.774E-003 1.003E+OOO 1.118E+OOO SGB-DRAINED-R 31 2.300E-002 2.774E-003 1.003E+OOO 1.118E+OOO SGC-DRAINED-R 12 2.JOOE-002 2.220E-004 1.000E+OOO 1.009E+OOO SGS-DRAINED-CSD 3 1.000E-003 9.417E-005 1.000E+OOO 1.094E+OOO SGS-DRAINED-R 9 8.JOOE-003 4.969E-004 1.000E+OOO 1.059E+OOO SSHR-AOV-XHE-105 10 1.JOOE-002 2.031E-003 1.002E+OOO 1.154E+OOO SWS-CCF-FT-3ABCD 1 6.JOOE-004 1. 237E-005 1.000E+OOO 1. 020E+OOO SWS-MOV-OP-RSS 3 1.440E-003 4.701E-005 1.000E+OOO 1. 033E+OOO 1994/01/27 12:45:27 page 17 P-35

Appendix Q Rules for Recovery Actions and successful System Correction

RHRTEST, E1W1D6, 7= ES /XXX

  • IF NOT XXX THEN R-E1Wl-D6-7.
 "EOS RHRTEST, E1W1R6, 17=

DES /XXX IF NOT XXX THEN R-E1Wl-R6-17. 

 "EOS RHRTEST, E1W2D6, 09=

DES /XXX IF NOT XXX THEN R-E1W2-D6-9. 

 "EOS RHRTEST, ElW2R6, 17=

DES /XXX . IF NOT XXX THEN R-E1W2-R6-17. 

 "EOS RHRTEST, E1W3D6, 8=

DES LPR-MOV-FT-1890B IF LPR-MOV-FT-1890B THEN R-E1W3-1890B. DES A-E1W3-XHE-R-9NOT A-E1W3-XHE-FL-13

  • NOT R-E1W3-1890B IF A-E1W3-XHE-R-9
  • NOT A-ElW3-XHE-FL-13
  • NOT R-ElW3-1890B THEN R-E1W3-2CH.

DES./A-E1W3-XHE-R-9

  • NOT D-ElW3-XHE
  • NOT R-E1W3-1890B IF NOT A-E1W3-XHE-R-9
  • NOT D-E1W3-XHE
  • NOT R-ElW3-1890B THEN R-ElW3-2CH.
 "EOS RHRTEST, E1W3R6, 10=

DES A-E1W3-XHE-R-9NOT A-E1W3-XHE-FL-10 IF A-E1W3-XHE-R-9

  • NOT A-ElW3-XHE-FL-10 THEN R-E1W3-2CH.

DES /A-E1W3-XHE-R-9

  • NOT D-ElW3-XHE IF NOT A-E1W3-XHE-R-9
  • NOT D-E1W3-XHE THEN R-E1W3-2CH.
 "EOS RHRTEST, ElW4RlO, 12=

DES LPR-MOV-FT-1890B IF LPR-MOV-FT-1890B THEN R-E1W4-1890B. 

 "EOS RHRTEST, E8W1D6, 2=

DES /XXX IF NOT XXX THEN R-E8Wl-D6-2. 

 "EOS RHRTEST, E8W1R6, 7=

DES /XXX . IF NOT XXX THEN R-E8Wl-R6-7. 

 "EOS RHRTEST, E8W2D6, 3=

DES /XXX IF NOT XXX THEN R-E8W2-D6-3. 

 "EOS RHRTEST, E8W2R6, 7=

DES /XXX IF NOT XXX THEN R-E8W2-R6-7 . 

 .... EOS RHRTEST, E4W3D6,* 3=

DES /XXX IF NOT XXX THEN R-E4W3-2CH . 

 .... EOS RHRTEST, M3W2D6, 09=

DES /XXX , IF NOT XXX THEN R-M3W2-D6-9 . 

  .... EOS RHRTEST, M3W2R6, 17=

DES /XXX IF NOT XXX THEN R-M3W2-R6-17 . 

   .... EOS RHRTEST, E2WlD6, 3=

DES /XXX IF NOT XXX THEN R-E2Wl-D6-3 . 

   .... EOS RHRTEST, E2WlD6, 7=

DES /XXX IF NOT XXX THEN R-E2Wl-D6-7 . 

   .... EOS RHRTEST, E2WlR6, 08=

DES /XXX IF NOT XXX THEN R-E2Wl-R6-8 . 

    .... EOS RHRTEST, E2W2D6, 04=

DES /XXX IF NOT XXX THEN R-E2W2-D6-4 . 

    .... EOS RHRTEST, E2W2D6, 09=

DES /XXX IF NOT XXX THEN R-E2W2-D6-9 . 

     .... EOS RHRTEST, E2W2R6, 08=

DES /XXX IF NOT XXX THEN R-E2W2-R6-8. 

     ""EOS RHRTEST, E2W2R6, 17=

DES /XXX IF NOT XXX THEN R-E2W2-R6-17. 

      "EOS RHRTEST, E2W3D6, 4=

DES A-E2W3-XHE-R-3NOT A-E2W3-XHE-FL-7 IF A-E2W3-XHE-R-3

  • NOT A-E2W3-XHE-FL-7 THEN R-E2W3-2CH.

DES /A-E2W3-XHE-R-3

  • NOT D-E2W3-XHE IF NOT A-E2W3-XHE-R-3
  • NOT D-E2W3-XHE Q-2

THEN R-E2W3-2CH .

  • ... EOS 0

RHRTEST, E2W3R6, 04= DES A-E2W3-XHE-R-3NOT A-E2W3-XHE-FL-4 IF A-E2W3-XHE~R-3

  • NOT A-E2W3-XHE-FL-4 THEN R-E2W3-2CH ..

DES /A-E2W3-XHE-R-3

  • NOT D-E2W3-XHE IF NOT A-E2W3-XHE-R-3
  • NOT D-E2W3-XHE THEN R-E2W3-2CH .
   ... EOS RHRTEST, E2W4R10, 06=

DES A-E2W4-XHE-R-3NOT A-E2W4-XHE-FL-7 IF A-E2W4-XHE-R-3

  • NOT A-E2W4-XHE-FL-7 THEN R-E2W4-2CH.

DES /A-E2W4-XHE-R-3

  • NOT D-E2W4-XHE IF NOT A-E2W4-XHE-R-3
  • NOT D-E2W4-XHE THEN R-E2W4-2CH .
   ... EOS RHRTEST, ESW3D6, 3=

DES /XXX IF NOT XXX THEN R-ESW3-2CH . 

   ... EOS RHRTEST, E3W1D6, 3=

DES /XXX IF NOT XXX THEN R-E3Wl-D6-3 . 

   ... EOS RHRTEST, E3W1D6, 7=

DES /XXX IF NOT XXX THEN R-E3W1-D6-7 . 

   ... EOS RHRTEST, E3W1R6, 08=

DES /XXX IF NOT XXX THEN R-E3Wl-R6-8 . 

   ... EOS RHRTEST, E3W2D6, 04=

DES /XXX IF NOT XXX THEN R-E3W2-D6-4 . 

   ... EOS RHRTEST, E3W2D6, 09=

DES /XXX IF NOT XXX THEN R-E3W2-D6-9 . 

   ... EOS RHRTEST, E3W2R6, 08=

DES /XXX IF NOT XXX THEN R-E3W2-R6-8 . 

   ... EOS RHRTEST, E3W2R6, 17=

DES /XXX IF NOT XXX THEN R-E3W2-R6-17 . 

   ... EOS RHRTEST, E3W3D6, 4=

DES A-E3W3-XHE-R-3NOT A-E3W3-XHE-FL-7 Q-3

IF A-E3W3-XHE-R-3

  • NOT A-E3W3-XHE-FL-7 THEN R-E3W3-2CH.

DES /A-E3W3-XHE-R-3

  • NOT D-E3W3-XHE IF NOT A-E3W3-XHE-R-3
  • NOT D-E3W3-XHE THEN R-E3W3-2CH ,*

"EOS RHRTEST, E3W3R6, 04= DES A-E3W3-XHE-R-3NOT A~E3W3-XHE-FL-4 IF A-E3W3-XHE-R-3

  • NOT A-E3W3-XHE-FL-4 THEN R-E3W3-2CH.

DES /A-E3W3-XHE-R-3

  • NOT D-E3W3-XHE IF NOT A~E3W3-XHE-R-3
  • NOT D-E3W3-XHE THEN R-E3W3-2CH.

""EOS RHRTEST, E3W4R10, 06= DES A-E3W4-XHE-R-3NOT A-E3W4-XHE-FL-7 IF A-E3W4-XHE-R:~

  • NOT A-E3W4-XHE-FL-7 THEN R-E3W4-2CH . .

DES /A-E3W4-XHE-R-3

  • NOT D-E3W4-XHE IF NOT A-E3W4-XHE-R-3
  • NOT D-E3W4-XHE THEN R-E3W4-2CH.

""EOS RHRTEST, E10W3D6, 3= DES /XXX IF NOT XXX THEN R-ElOW3-2CH. ""EOS RHRTEST, E13AW1D6, 3= DES /XXX IF NOT XXX THEN R-E13AW1-D6-3. ""EOS RHRTEST, E13AW1D6, 7= DES /XXX IF NOT XXX THEN R-E13AW1-D6-7. ""EOS RHRTEST, E13AW1R6, 17= DES /XXX IF NOT XXX THEN R-E13AW1-R6-17. ""EOS RHRTEST, E13AW2D6, 09= DES /XXX IF NOT XXX THEN R-EAW2-2CH. ""EOS RHRTEST, E13AW2R6, 17= DES /XXX IF NOT XXX THEN R-EAW2-2CH. DES /XXX IF NOT XXX THEN R-E13AW2-R6-17. ""EOS RHRTEST, CV1W3D6, 3= DES /XXX IF NOT XXX THEN R-CV1W3-2CH. ""EOS Q-4

~ T E S T , CV1W3R10, 3= ~~S /XXX IF NOT XXX THEN R-CV1W3-2CH. 

   "EOS RHRTEST, E13BW1D6, 7=

DES /XXX IF NOT XXX THEN R-E13BW1-D6-7. 

   "EOS RHRTEST, E13BW1R6, 17=

DES /XXX IF NOT XXX THEN R-E13BW1-R6-17. 

   "EOS RHRTEST, E13BW2D6, .09=

DES /XXX IF NOT XXX THEN R-E13BW2-D6-9. 

   "EOS RHRTEST, E13BW2R6, 17=

DES /XXX IF NOT XXX THEN R-E13BW2-R6-17. 

   "EOS RHRTEST, E13BW3D6, 8=

DES A-EBW3-XHE-R-9NOT A-EBW3-XHE-FL-13 IF A-EBW3-XHE-R-9

  • NOT A-EBW3-XHE-FL-13 THEN R-EBW3-2CH.

DES /A-EBW3-XHE-R-9

  • NOT D-EBW3-XHE IF NOT A-EBW3-XHE-R-9
  • NOT D-EBW3-XHE THEN R-EBW3-2CH.
   "EOS RHRTEST, E13BW3R6, 10=

DES A-EBW3-XHE-R-9NOT A-EBW3-XHE-FL-10 IF A-EBW3-XHE-R-9

  • NOT A-EBW3-XHE-FL-10 THEN R-EBW3-2CH.

DES /A-EBW3-XHE-R-9

  • NOT D-EBW3-XHE IF NOT A-EBW3-XHE-R-9
  • NOT D-EBW3-XHE THEN R-EBW3-2CH.
   "'EOS RHRTEST, E13BW4Rl0, 10=

DES A-EBW4-XHE-R-9NOT A-EBW4-XHE-FL-10 IF A-EBW4-XHE-R-9

  • NOT A-EBW4-XHE-FL-10 THEN R-EBW4-2CH.

DES /A-EBW4-XHE-R-9

  • NOT D-EBW4-XHE IF NOT A-EBW4-XHE-R-9
  • NOT D-EBW4-XHE THEN R-EBW4-2CH.
   "'EOS RHRTEST, E13BW4R10, 12=

DES A-EBW4-XHE-R-9NOT A-EBW4-XHE-FL-13 IF A-EBW4-XHE-R-9

  • NOT A-EBW4-XHE-FL-13 THEN R-EBW4-2CH.

DES /A-EBW4-XHE-R-9

  • NOT D-EBW4-XHE IF NOT A-EBW4-XHE-R-9
  • NOT D-EBW4-XHE THEN R-EBW4-2CH .
   ... EOS RHRTEST, N1W1D6, 7=

DES /XXX IF NOT XXX Q-5

THEN R-N1Wl-D6-7 . ... EOS RHRTEST, N1WlR6, 17= DES /XXX IF NOT XXX THEN R-N1Wl-R6-17. "EOS RHRTEST, N1W2D6, 09= DES /XXX IF NOT XXX THEN R-N1W2-D6-9. "EOS RHRTEST, N1W2R6, 17= DES /XXX IF NOT XXX THEN R-N1W2-R6-17. * "EOS RHRTEST, M4W3R6, 3*= DES /XXX IF NOT XXX THEN R-M4W3-1869B. 

"EOS RHRTEST, N2WlD6, 7=

DES /XXX IF NOT XXX THEN R-N2Wl-D6-7. 

"EOS RHRTEST, N2W2D6, 09=

DES /XXX IF NOT XXX THEN R-N2W2-D6-9. 

"EOS RHRTEST, N2W2R6, 17=

DES /XXX IF NOT XXX THEN R-N2W2-R6-17. 

"EOS RHRTEST, CV1W4D6, 3=

DES /XXX IF NOT XXX THEN R-CV1W4-2CH. 

"EOS RHRTEST, E10W4D6, 3=

DES /XXX IF NOT XXX THEN R-E10W4-2CH. 

 "EOS RHRTEST, E4W4D6, 3=

DES /XXX IF

  • NOT XXX THEN R-E4W4-2CH.
 "EOS RHRTEST, ESW4Dq, 3=

DES /XXX IF NOT XXX THEN R-ESW4-2CH. 

 "EOS RHRTEST, E9WlD6, 3=

DES /XXX IF NOT XXX Q-6

THEN R-E9Wl-D6-3. 

   "EOS RHRTEST, M8W2D6, 3=

DES /XXX

  • IF NOT XXX THEN R-M8W2-D6-3.
   "EOS RHRTEST, E6W1D6, 2=

DES /XXX IF NOT XXX THEN R-E6Wl-D6-2. 

   "EOS RHRTEST, E6W1R6, 7=

DES /XXX IF NOT XXX THEN R-E6Wl-R6-7. * 

   "EOS RHRTEST, E6W2D6, 3'=

DES /XXX IF NOT XXX THEN R-E6W2-D6-3. 

   "EOS RHRTEST, E6W2R6, 7=

DES /XXX IF NOT XXX THEN R-E6W2-R6~7. 

   "EOS RHRTEST, E6W3D6, 3=

DES /D-E6W3-XHE IF NOT D-E6W3-XHE THEN R-E6W3-2CH. 

   "EOS RHRTEST, E6W3R6, 3=

DES /D-E6W3-XHE IF NOT D-E6W3-XHE THEN R-E6W3-2CH. 

   "EOS RHRTEST, E6W4R10, 5=

DES /D-E6W4-XHE IF NOT D-E6W4-XHE THEN R-E6W4-2CH. 

   "EOS RHRTEST, E7W1D6, 7=

DES /XXX IF NOT XXX THEN R-E7Wl-D6-7. 

   "EOS RHRTEST, E7W1R6, 17=

DES /XXX IF NOT XXX THEN R-E7Wl-R6-17. 

   "EOS RHRTEST, E7W2D6, 09=

DES /XXX IF NOT XXX THEN R-E7W2-D6-9 . 

   ... EOS RHRTEST, E7W2R6, 17=

DES /XXX IF NOT XXX Q-7

THEN R-E7W2-R6-17. "EOS RHRTEST, E7W3D6, 8= DES /D-E7W3-XHE IF NOT D-E7W3~XHE THEN R-E7W3-2CH. "EOS RHRTEST, E7W3R6, 10= DES /D-E7W3-XHE IF NOT D-E7W3-XHE THEN R-E7W3-2CH . ... EOS RHRTEST, MHW2D6, 09= DES /XXX IF NOT XXX THEN R-MHW2-D6-9. * ... EOS RHRTEST, MHW2R6, 17= DES /XXX IF NOT XXX THEN R-MHW2-R6-17. Q-8

Kiyoharu Abe Ephraim Asculai

  • Dept. of Reactor Safety Research Division of Nuclear Safety Nuclear Safety Research Center Wagrarnestrasse, 5 Takai Research Establishment P.O. Box 100 JAERI A-1400 Wien Tokai-mura, Naga-gun AUSTRIA Ibaraki-ken, JAPAN Vladirnar Asmolov Head, Nuclear Safety Department Sarbes Acharya I. V. Kurchatov Institute Department of Energy of Atomic Enegry NS-1/FORS Moscow, 123181 Washington, DC 20585 RUSSIA Dr. Ulvi Adalioglu J. de Assuncao Cekmece Nukleer Arastraima ve Cabinete de Proteccao e Egitim Merekezi Seguranca Nuclear P.K. 1 Ministerio da Indusstria Havaalani/ISTANBUL Ave. de Republica 45~6 TURKEY 1000 Lisbon PORTUGAL Dr. Eng. Kiyoto Aizawa Senior Engineer H.P. Balfanz, Head Reactor Eng. Dev. Department Institute of Probabilistic PNC Safety Analysis 9-13, Cherne, Akasaka TUV Nord Minato-K, Tokyo Grosse Bahnstrasse 31 AP.AN D-22525 Hamburg 54 GERMANY Harry Alter Manager Applied Tech Pat Baranowsky Nuclear Systems Tech USNRC-AEOD/TPAB NE-46 MS: T-4A9 US DOE Washington, DC 20585 Robert A. Bari, Deputy Chairman Dept of Nuclear Energy R.M. Andrews Bldg 197C Nuclear Installations Insp. Brookhaven National Laboratory St. Peters House Upton, NY 11973 Balliol Raad, Bootle Merseyside L20 31Z UNITED KINGDOM Librarian Technical Information Section Battelle Pacific Northwest Lab George .Apostolakis P. 0. Box 999 UCLA Richland, WA 99352 Boelter Hall, Room 5532 Los A;ngeles, CA 90024-1597 Dr. John Baum Dept of Nuclear Energy Director of Reactor Engineering Radiological Sciences Div Argonne National Laboratory Bldg 703 M 9700 S Cass Ave Brookhaven National Laboratory Bldg 208 Upton, NY 11973 Argonne, IL 60439
  • Dist-1

Bric Beckjord Dennis Bley USNRC-RES/DO Buttonwood Consulting MS: T-10Fl2 17291 Buttonwood St. Fountain Valley, CA 92708 Robert Bernero .USNRC-NMSS/DO Roger Blond MS: T-8A23 Boaz-Allen & Hamilton 4330 East West Highway Bethesda, MD 20814 Andrea Besi Institute for Systems Engineering and Informatics M. P. Bohn CEC Joint Research Centre Division 6449 CP N 1 Sandia National Laboratories 1-21020 Ispra (Varese) Albuquerque, NM 87185 ITALY Dr. Mario Bonaca John Bickel Manager, Reactor Engineering Idaho National Engineering Lab. Northeast Utilities EG&G MS: 3850 P.O. Box 270 P.O. Box 1625 Hartford, Conn. 06141 Idaho Falls, ID 83415 Robert B. Borsum Vicki Bier Nuclear Power Division Dept. of Industrial Engineering B & W Nuclear Tech University of Wisconsin-Madison 1700 Rockville Pike 1513 University Avenue, Room 389 Suite 525 Wisconsin, WI 53706 Rockville, MD 20852 Scott Bigelow Stephen Boult S-CUBED Electrowatt Engineering Services 2501 Yale SE, Suite*300 (UK) Ltd. Al~uquerque, NM 87106 Grandford House 16 Carfax, Horsham West. Sussex RH12 IUP Prof. Dr. Dr.-Ing. E. H. Adolf ENGLAND Birkhofer Gesellschaft fur Anlagen und Reaktorsicherheit (GRS) mbH Gary Boyd Forschungsgel4nde Safety & Reliability Optimization D-8046 Garching Services Federal Republic of Germany 9724 Kingston Pike, Suite 102 Knoxville, TN 37922 David Black American Electric Power Brookhaven National Laboratory (2) 1 Riverside Plaza Attn: Lev Neymotin Columbus, OH 43215 Arthur Tingle Building 130 Upton, NY 11973 Harold Blackman Idaho National Engineering Lab. EG&G MS: 3850 David M. Brown P.O. Box 1625 Paul C. Rizzo Associates, Inc. Idaho Falls, ID 83415-3850 300 Oxford Drive Monroeville, PA 15146-2347 Dist-?

Tom D. Brown A. L. Camp Sandia National Laboratories Division 6412

  • Dept. 6413 MS: 0748 P.O. Box 5800 Sandia National Laboratories Albuquerque, NM 87185 Albuquerque, NM 87185-0748 Robert J. Budnitz John Forbes Campbel Future Resources Associates, Inc. HM Superintending Inspector 2039 Shattuck Avenue, Suite 402 Health & Safety Executive Berkeley, CA 94704 St. Peter's House Balliol Road Bootle L20 31Z Gary Burdick UNITED KINGDOM USNRC-RES/SAIB MS: T-10Fl3 Leonel Canelas New University of Lisbon Arthur Buslik Quinta de Torre USNRC-RES/PRAB 2825 Monte de Caparica MS: T-9F31 PORTUGAL Edward Butcher Harold Caraway USNRC-NRR/SPSB General Electric Co., M/C 754 MS: 0-10E4 175 Curtner Ave.

San Jose, CA 95129 Technical Library B&W Nuclear Service *co D. D. Carlson P. 0. Box 10935 Division 6411 Lynchburg, VA 24506 Sandia National Laboratories Albuquerque, NM 87185 Stefaan Caeymaex Safety & Systems Section Jose E. De Carlos 

 ?if11clear Generation Dept.              CSN Internatic::"'al Coordinator TRACTEBEL                                Consejo de Seguridad Nuclear Avenue Ariane 7                          Calle Justo Dorado 11 B-1200 Bruxelles                         28040 Madrid BELGIUM                                  SPAIN Leonard Callan, Administrator           Annick Camino U.S. Nuclear Regulatory Commission       International Atomic Energy Agency Harris Tower and Pavilion                Wagramerstrasse 5, P.O. Box 100 611 Ryan Plaza Drive, Suite 400         A-1400 Vienna Arlington, TX 76011-8064                 AUSTRIA J. Calvo                                 S. Chakraborty Division of PSA & Human Factors          Swiss Federal Nuclear Safety Consejo de Seguridad Nuclear               Inspectorate Calle Justo Dorado, 11                   Hauptabteilung fur die Sicherheit 28040 Madrid                               der Kernanlagen SPAIN                                    CH-5232 Villigen-HSK SWITZERLAND Erulappa Chelliah USNRC-RES/PRAB MS: T-9F31
  • Dist-3

Mike Cheok S. Daggupaty NUS Environment Canada 910 Clopper Road 4905 Dufferin Street Gaithersburg, MD 20878 Downsview Ontario, M3H ST4 CANADA Nilesh Chokshi USNRC-RES/SSEB MS: T-lOLl Louise Dahlerup Inspectorate of Nuclear Inst. Danish Civil Defense & T. L. Chu Emergency Planning Agency Brookhaven National Laboratory 16, Datavej Department of Nuclear Energy DK-3460 Birkerod Bldg. 130 DENMARK Upton, NY 11973 John Darby Peter Cooper SEA, Inc. SRD/AEA Technology 6100 Uptown Blvd. NE Wigshaw Lane Albuquerque, NM 87110 Culcheth Cheshire WA3 4NE England Gerald Davidson Fauske and Associates, Inc. 16 W 070 West 83rd Street Susan E. Cooper Burr Ridge, IL 60521 Science .Applications Int'l. Corp. 11251 Roger Bacon Drive Reston, VA 22090 Peter Davis PRD Consulting P.O. Box 2046 Michael Corradini Sheridan, WY 82801 University of Wisconsin 1500 Johnson Drive Madison, WI 53706 P. De Gelder Secretary, BELGIAN NUCLEAR SOCIETY (BNS) E.R. Corran AV Nuclear ANSTO Reasearch Establishment Avenue du Roi 157 Lucas Heights Reserch Labs. B-1060 Brussels Private Mail Bag 1 BELGIUM Manai, NSW 2234 AUSTRALIA Lennart Devell Studsvik Nuclear Massimo Cozzone Studsvik Energiteknik AB A.N.P.A. S-611 82 Nykoping Via v. Brancati, 48 SWEDEN I-00144 Rome ITALY J. Devooght Service de la Metrologie Nucl George Crane University Libre de Bruxelles 1570 E. Hobble Creek Dr. Faculte des Sciees .Appliqu. Springville, Utah 84663 50 Avenue F-D Roosevelt Bruxelles 5 BELGIUM Mark Cunningham USNRC-RES/PRAB MS: T-9F31 Dist-4

G. Diederick John Flack Commonwealth Edison Co. USNRC-RES/SAIB

  • LaSalle County Station MS: T-10F13 RRl, Box 220
  • 2601 North 21st Rd.

Marsielles, IL 61341 Karl Fleming Pickard, Lowe & Garrick 2260 University Drive Chuck Dobbe Newport Beach, CA 92660 Idaho National Engineering Lab. EG&G MS: 3840 P.O. Box 1625 Terry Foppe Idaho Falls, ID 83415 Safety Analysis Engineering Rocky Flats Plant Energy Systems Group Mary Drouin Rockwell International Corp USNRC-RES\SAIB P.O. Box 464 MS: T-10Fl3 Golden, CO 80401 Duke Power Co. (2) RH. Gauger Attn: Duncan Brewer Manager-Reliability Engr Steve Deskevich A/E Div 422 South Church Street Holmes & Narver Inc. Charlotte, NC 28242 R Roanne Circle Irvine, CA 92714 Bill Eakin Northeast Utilities Robert Gobel Box 270 Clark University Hartford, CT 06141 Center for Technology, Environment and Development 950 Main St. Stewart D. Ebneter Worcester, MA 01610-1477 USNRC 101 Marietta St., Suite 2900 Atlanta, GA 30323-0199 Paul Govaerts Studiecentrum voor Kernenergie (SCK/CEN) Adel A. El-Bassioni Boeretang, 200 

 '(TSNRC- NRR/PRAB                       B-2400 Mel MS: 0-10E4                              BELGIUM ENEA/DISP (2)                           Mr. Gubler Attn: Alvaro Valeri                     International Atomic Energy Agency Alfredo Bottino                NENS/SAD B0842             .

Via Vitaliano Brancati, 48 Wagramerstrasse 5, P.O. Box 100 00144 Roma EUR A-1140 Vienna ITALY AUSTRIA Walter P. Engel Paul M. Haas, President PRAG MGR Analysis & Reg Matter Concord Associates, Inc. NE-60 725 Pellissippi Parkway CRYCITY Suite 101, Box 6 US DOE Knoxville, TN 37933 Washington, DC 20585

  • Dist-5

F. T. Harper Steven Hodge Division 6413 Oak Ridge National Laboratories MS: 0748 P. 0. Box Y Sandia National Laboratories Oak Ridge, TN 37831 Albuquerque, NM 87185-0748 Gary Holahan Dr. U. Hauptmanns USNRC-AEOD/OSP Gesellschaft Fur Anlagen und MS: T-4A9 Reaktorsicherheit (GRS) mgH Schwertnergasse 1 D-5000 KOln 1 N.J. Hollo.,*ay GERMANY A72.1 Atomic Weapons Establishment Ademaston

  • Sharif Heger Reading RG7 4PR UNM Chemical and Nuclear UNITED KINGDOM Engineering Department Farris Engineering, Room 209 Albuquerque, NM 87131 Griff Holmes Westinghouse Electric Co.

Energy Center East Jon C. Helton Bldg. 371 Dept. of Mathematics P.O. Box 355 Arizona State University Pittsburgh, PA 15230 Tempa, AZ 85287 William Hopkins Dr. P. M. Herttrich Bechtel Power Corporation Gesellschaft fur Anlagen und 15740 Shady Grove Road Reaktorsicherheit (GRS) mbH Gaithersburg, MD 20877 Schwertnergasse 1 5000 Koln 1 . GERMANY Dean Houston USNRC-ACRS MS: P-315 Dr. D.J. Higson Radiological Safety Bureau Australian Nuclear Science & Der-Yu Hsia Technology Organisation Institute of Nuclear Energy Research P.O. Box 153 Lung-Tan 325 Roseberry, NSW 2018 TAIWAN AUSTRALIA Alejandro Huerta-Bahena Dr. Mitsumasa Hirano National Conunission on Nuclear Deputy General Manager Safety and Safeguards (CNSNS) Institute of Nuclear Safe'ty Insurgentes Sur N. 1776 NUPEC

  • C. P. 04230 Mexico, D. F.

3-6-2, Toranomon, Minato-ku MEXICO Tokyo 108 JAPAN Peter Humphreys US Atomic Energy Authority Dr. S. Hirschberg Wigshaw Lane, Culcheth Paul Scherrer Institute Warrington, Cheshire Vurenlingen and Villigen UNITED KINGDOM, WA3 4NE CH-5232 Villigen PSI SWITZERLAND Dist-6 

    . Huntington
  • Dr. H. Kalfsbeek onunonwealth Edison Co. DG/XII/D/1
  • LaSalle County Station Conunission of the European RRl, Box 220 Conununities 2601 North 21st Rd. Rue de la Loi, 200 Marsielles, IL 61341 B-1049 Brussels BELGIUM J.S. Hyslop USNRC-RES/PRAB Yoshie Kano MS: T-9F31 General Mngr. & Sr. Engineer Systems Analysis Section 0-arai Engineer. Centr, PNC Idaho National Engineering Lab. (2) Higashi-Ibaraki-gun Attn: Doug Brownson Ibaraki-Ken, 133-13 Darrel Knudson JAPAN EG&G MS: 3840 P.O. Box 1625 Idaho Falls, ID 83415 William Kastenberg UCLA Boelter Hall, Room 5532 Idaho National Engineering Lab. (2) Los Angeles, CA 90024 Attn: Art Rood Mike Abbott EG&G MS: 2110 Barry Kaufer P.O. Box 1625 OECD/NEA Idaho Falls, ID 83415 "Le Seine St. Germain" 12 Boulevard des Iles 92130 Issy-les-Moulineaux Hanspeter Isaak FRANCE Abteilung Strahlenschutz auptabteilung fur die Sicherheit der Kernanlagen (HSK) Paul Kayser CH-5303 Wurenlingen Division de la Radioprotection SWITZERLAND Avenue des Archiducs, 1 L-1135 Luxembourg-Belair LUXEMBOURG Brian Ives UNC Nuclear Industries P. 0. Box 490 Ken Keith Richland, WA 99352 TVA W 20 D 201 400 West Surmnit Hill Kamiar Jamili Knoxville, TN 37092 DP-62/FTN Department of Energy Washington, D.C. 20585 G. Neale Kelly Commission of the European Conununities Robert Jones Joint Research Centre USNRC-NRR/DSSA Rue de la Loi 200 MS: 0-8El B-1049 Brussels BELGIUM Edward Jordan USNRC-AEOD/DO John Kelly MS: T-4D18 Sandia National Laboratories P. 0. Box 5800 MS 0742 Albuquerque, NM 87185
  • Dist-7

Knolls Atomic Power Laboratory (2) Dr. J.M. Lanore Attn: Ken McDonough CEA/IPSN/DAS Dominic Sciaudone Centre d'Etudes Nucleaires de Box 1072 Fontenay-aux-Roses Schenectady, NY 12301 B.P. n° 6 92265 Fontenay-aux-Roses CEDEX FRANCE Dr. K. Koberlein Gesellschaft fur Reaktorsicherheit mbH Jose A. Lantaron Forschungsgelande Consejo de Seguridad Nuclear D-S046 Garching s~b. Analisis y Evaluaciones GERMANY Calle Justo Dorado, 11 28040 Madrid SPAIN Alan Kolaczkowski Science Applications International Corporation Josette Larchier-Boulanger 2109 Air Park Rd. s. E. Electricte de France Albuquerque, NM 87106 Direction des Etudes Et Recherches 30, Rue de Conde 75006 Paris Jim Kolanowski FRANCE Conuno~wealth Edison Co. 35 1st National West Chicago, IL 60690 H. Larsen Head of Department Riso National Laboratory John G. Kallas P.O. Box 49 Institute of Nuclear Technology and DK-4000 Roskilde Radiation Protection DENMARK N.R.C.P.S. "Demokritos" P.O. Box 60228 GR-153 10 Aghia Paraskevi Lawrence Livermore Nat'l Lab. (4) Attiki Attn: George Greenly GREECE Marvin Dickerson Rolf Lange Sandra Brereton S. Kondo Livermore, CA 94550 Department of Nuclear Engineering Facility of Engineering University of Tokyo Shengdar Lee 3-1, Hongo 7, Bunkyo-ku Yankee Atomic Electric Company Tokyo 580 Main St. JAPAN Boston, MA 17407 D. Lamy B.T.F. Liwaang CEN/SCK Dept. of Plant Safety Assessment Dept. Scientific Irradiation Swedish Nuclear Power Inspec. Experiment & Study BR2 P.O. Box 27106 Boeretang, 200 S-10252 Stockholm B-2400 Mel SWEDEN BELGIUM Peter Lohnberg Expresswork International, Inc. 1740 Technology Drive San Jose, CA 95110 Dist-8

Steven M. Long Hideo Matsuzuru USNRC-NRR/SPSB Tokai Research Establishment

  • MS: 0-10E4 Tokai-mur Maka-gun Ibaraki-ken, 319-11 D. Eugenio Gil Lopez JAPAN Consejo de Seguridad Nuclear Calle Justo Dorado, 11 28040 Madrid Jim Mayberry SPAIN Ebasco Services 60 Chubb Ave.

Lyndhurst, NJ 07071 Los Alamos National Laboratory (2) Attn: Kent Sasser N-6, K-557 Andrew S. McClymont Los Alamos, NM 87545 IT-Delian Corporation 1340 Saratoga-Sunnyvale Rd. Suite 206 Christiana H. Lui San Jose, CA 95129 USNRC-RES/PRAB MS: T-9F31 Michael McKay Los Alamos National Laboratory John Luke A-1, MS F600 Services Florida Power & Light P.O. Box 1663 P.O. Box 14000 Los Alamos, NM87545 Juno Beach, FL 33408}}

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