ML20195H075
| ML20195H075 | |
| Person / Time | |
|---|---|
| Site: | Three Mile Island  |
| Issue date: | 06/08/1999 |
| From: | GENERAL PUBLIC UTILITIES CORP. |
| To: | |
| References | |
| NUDOCS 9906160264 | |
| Download: ML20195H075 (350) | |
Text
{{#Wiki_filter:1999 BIENNIAL EXERCISE TABLE OF CONTENTS 1 l TOPIC PAGE Table of Contents i Acronyms / Abbreviations 1.1 to 1.2 ERF Directions . 4 2.1 to 2.2 l i Observer Assignments 3.1 to 3.4 ) Objectives 4.1 to 4.7 Scope 5.1 to 5.2 initial Conditions 6.1 , Exercise Guide 8.1 to 8.6 Observer Instructions 9.1 to 9.32 Messages 10.1 to 10.19 Observer Checklists 11.1 to 11.8 Plant Data AppendixA In-plant Rad Con Data Appendix B Radiochemistry Appendix C Dose Projection Data Appendix D RMS Data Appendix E Field Team Data Appendix F Rumor Control Appendix G 9906160264 990608 t PDR ADOCK 050002 9 . 93[D\Y __ i
DRILL 9904 1999 BIENNIAL EXERCISE TH S PAGE NTENTIONALLY BLANK I
DRILL 9904 1999 BIENNIAL EXERCISE ACRONYMS / ABBREVIATIONS ADV Atmospheric Dump Valve ATP Abnormal Transient Procedure BRP Pennsylvania Bureau of Radiation Protection BWST Borated Water Storage Tank CRO Control Room Operator CW Circulating Water DC Drill Controller DER Pennsylvania Department of Environmental Resources DHR Decay Heat Removal DPM Disintegrations Per Minute EAA Emergency Assembly Area EAAC Emergency Assembly Area Coordinator EAC Environmental Assessment Coordinator EACC Environmental Assessment Command Center EAL Emergency Action Level EAS Emergency Alert System ECC Emergency Control Center ED Emergency Director EFW Emergency Feedwater EMA Emergency Management Agency EOC Emergency Operations Center EOF Emergency Operations Facility EPIP Emergency Plan implementing Procedure EPZ Emergency Planning Zone ERF Emergency Response Facility ES Engineered Safeguards ESAS Engineered Safeguards Activation System ESD Emergency Support Director ESO Emergency Support Organizatior, FBTL Fire Brigade Team Leader FRC Federal Response Center FRERP Federal Radiological Emergency Response Plan FSAR Final Safety Analysis Report GeLi Germanium Lithium (isotopic gamma detection crystal) GM Geiger Mueller (radiation detection tube) HPI High Pressure injection W:\9904ACRONLST l,) l.
DRILL 9904 1999 BIENNIAL EXERCISE LAW in Accordance With ICS Integrated Control System IP in Plant Rover IREO initial Response Emergency Organization IRAP Interagency Radiological Assistance Plan ITS Important to Safety JIC Joint Information Center Kl Potassium lodide LOCA Loss of Coolant Accident LPZ Low Population Zone MAP-5 Post-Accident High Range lodine Sampler MFW Main Feedwater MIDAS Meteorological Information and Dose Acquisition System MSR Main Steam Relief MSV Main Steam Valve MUP Make Up Pump Nal Sodium lodide Gamma Isotopic Detection Crystal NWS U. S. National Weather Service O/P Office of the President OOS Out of Service OSC- - Operations Support Center OSH Off Scale High OTSG Once Through Steam Generator PAG' Protective Action Guides PAR Protective Action Recommendation PAS Post-Accident Sample PD Plant Data Pl Public Information RAA Remote Assembly Area RAC Radiological Assessment Coordinator R&EC Radiological and Environmental Controls RB Reactor Building RCP Reactor Coolant Pump RCS Reactor Coolant System RERP Radiological Emergency Response Plan RM-A Radiation Monitor- Atmospheric RM-L Radiation Monitor - Liquid RM-G Radiation Monitor- General Area l RMS Radiation Monitoring System SCBA Self Contained Breathing Apparatus SCM Subcooling Margin SRO Senior Reactor Operator TBV Turbine Bypass Valve TS Technical Specification TSC Technical Support Center WG Waste Gas X/Q Meteorological Dispersion Factor (Chi /Q) W:\9904ACRONLST 1.2 L
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DRILL 9904 I 1999 BIENNIAL EXERCISE DIRECTIONS TO OFF-SITE EMERGENCY RESPONSE FACILITIES l I
.' Emergency Operations Facility (EOF), Joint Information Center (JIC) and Environmental Assessment Command Center (EACC) )
NOTE: These directions are intended to be used in conjunction with the EOF / JIC l
' ~'
Map on page 2.1 and 2.3 l
-From the North Gate, turn left onto Route 441 North. -Proceed 2.1 miles to the first traffic light in Middletown. -Go straight through this trafEe light and the next traffic light. -Continue to the next stop sign. i -Proceed straight through the stop sign and then bear right to cross the railroad overpass -Turn left at the traffic lightjust past tle ratiroad overpass onto Route 230 West. ! -Proceed West on Route 230 through the next traffic light (at Jamesway Plaza) and turn right onto the entrance ramp for Route 283. -Proceed to the 283 West Harrisburg sign. Bear left and continue to the 283 merge area.. -Merge onto Route 283 and continue to the next exit (Interstate 283 North). -Tum right and merge onto Interstate 283 North and continue to the interchange for8' 3 North, 81 North and 322 West. -Proceed straight onto 83 North and continue to the Colonial Park Exit Refer to map on 2.3 .c l
Near-Site Joint Information Center and Simulator
-From the North Gate, turn right and proceed South on Route 441 for 0.7 miles to the entrance to the TMI Visitor Centerparicinglot. -The Near-Site Joint Information Center and the Simulator are in the building behind the Visitor Center.
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DRILL 9904 l 1999 BIENNIAL EXERCISE OBSERVER ASSIGNMENT SHEET AREA OF RESPONSIBILITY OBSERVER CONTACT PHONE APPENDICES l CROUP l- ECC/ Tech Support /Conununications
- 40. ECC Controller N. Brown 2073
- 41. Plant Data Controller W. Fraser 2059 A,B,E
- 42. ECC Observer T. Crouse 2059
- 43. Operations Evaluator R. Parnell 2070
- 44. Communications D. Barry 2071 4 ': s TSC Controller R. Green 8460 A P-
- 46. TSC Observer C. Hartman 8460 A
- 47. EOF Technical Support J. Piazza 8966 A N/A. Instructor Console Operator C. Husted 2059 NO SCENARIO GROUP 2- EOF / Pub Info / Security-Accountability / Muster / Evacuation
- 50. EOF Controller / J. Grisewood 657-1967 Drill Coordinator
- 51. EOF Observer D. Hosking 8966
- 52. Grp. Ldr. R&C (EOF) J. Schmidt 8966
- 53. Public Information C. Rippon 540-4900 G
- 54. Security / Accountability T. Dove 8038
- 55. Emer. Assembly / Evacuation D. Blauch N/A
- 56. EOF Technical Support J. Piazza 8966 A
- 57. NSCC Observer E. Fuhrer N/A
- 58. NSCC Observer E. Hammond N/A 3.1
DRILL 9904 1999 BIENNIAL EXERCISE OBSERVER ASSIGNMENT SHEET AREA OF RESPONSIBILITY OBSERVER CONTACT PHONE APPENDICES CROUP 3- Dose Assessment / Chemistry
- 60. Dose Assessment Controller J. Whitehead 2016
- 61. RAC Observer D. Merchant 2063 B,E
- 62. EACC Observer T. Bradley 8966
- 63. Field Team (On Site) S. Acker 979-5218
- 64. Field Team (On Site) E. Gliot 979-5219
- 65. Field Team (EOF) D. Dussinger 979-5234
- 66. Field Team (EOF) J. Selman 979-5257
- 67. Chemistry J. Reed 8164/8737 B,C, Page A3-1 NA. State Field Team P. Velez 979-5227 (F) BRP data NA. State Field Team R. Holmes (F) BRP data GROUP 4- In-Plant Activities
- 70. OSC Controller A. Knoche 8560 B,E
- 71. OSC Observer C. Incorvati 8718 B,E i
- 72. In Plt Rover Controller D. Hass N/A B,E
- 73. In Plt Roy A P. Chalecki N/A B,E
- 74. In Plt Roy B J. Tesmer N/A B,E
- 75. In Plt Roy C F. Reeser N/A B,E
- 76. In Plt Rov D N. Monson N/A B,E
- 77. In Plt Roy E H. Balian N/A B,E
- 78. In Plt Roy F S. Plymale N/A B,E
- 79. In Plt Roy G M. Newcomer N/A B,E
- 81. In Plt Roy H S. Baker N/A B,E l
- 82. In Plt Rov I (Rad Con) D. Moyer N/A B Long,E
- 83. In Plt Roy J (Rad Con) D. Weimer N/A B Long,E EVACUEES:
l P. Bickford E. Winger D. Marshbank 3.2
DRILL 9904 1999 BIENNIAL EXERCISE OBSERVER ASSIGNMENT SHEET AREA OF RESPONSIBILITY OBSERVER CONTACT PHONE APPENDICES (EROUP 5- NRC and NSCC
- 90. NRC LEAD Evaluator D. Silk N/A A,B-Long,C,D,E, F,G
- 91. NRC Observer (ECC) N. Perry N/A A,B,E
- 92. NRC Observer (TSC) W. Mairer N/A A
- 93. NRC Observer (OSC) C. Smith N/A B,C
- 94. NRC Observer (EOF) W. Schmidt N/A
- 95. NRC Observer (Dose) N. McNamara N/A E DIF/electiorsis 1
i l 3.3 l I l
DRILL 9904 1999 BIENNIAL EXERCISE ROLES OF DRILL PERSONNEL: A. DRILL COORDINATOR: The Drill Coordinator has the overall responsibility for the implementation of the Exercise. The Drill Coordinator must authorize ANY changes made to the scenario. The authorization should follow discussions with the affected Controllers. B. DRILL CONTROLLER: ~ - Drill controllers are designated for key areas of scenario control, implementation and also have the responsibility of observing the activities of the drill participants in their area. N Controllers are the QNI._Y individuals who may make changes to the scenario (i.e., data, coquence, etc.) during the Exercise. The changes may be implemented only after receiving tuthorization from the Drill Coordinator. C. OBSERVERS: Observers have the responsibility of monitoring the activities of the drill participants and providing required information (e.g., scenario data, messages, etc.). 3.4
l BIENNLAL EXERCISE I DRILL 9904 OBJECTIVES ! Three Mile Island Nuclear Station 1999 Biennial Exercise A. OPERATIONAL ASSESSMENT The following will be demonstrated:
- 1. The ability of the emergency response personnel to recognize that Emergency Action Level (EAL) criteria has been reached or exceeded and then properly classify the emergency with Emergency Plan implementation within ~ 15 minutes of receiving the indications that an EAL has been exceeded.
(A01)
- 2. The ability of the emergency response personnel to assess the plant conditions, effectively utilize engineering support and implement procedures in order to place the plant in a safe condition.
(A02)'
- 3. The ability of the plant personnel to mitigate the in-plant and off-site consequences of a radiological release through operational manipulations.
(A03)
- 4. A systematic approach by the Emergency Pesponse Organization to properly assess accident conditions.
(A04)
- 5. The adequacy and the coordination between the TMI Emergency Operating Procedures (EOP) and the Emergency Plan Implementing Procedures (EPIP).
(A05)
- 6. Proper assessment of primary to secondary (OTSG leakage) within the limitations and errors of the calculation methodology employed.
(A07) , i l I l 4.1
c BIENNIAL EXERCISE DRILL 9904 B.' RADIOLOGICAL CONTROLS AND ENVIRONMENTAL ASSESSMENT The following will be demonstrated: f1. Proper assessment of plant parameters to formulate accurate off-site radiological dose projections.
-(B01)
- 2. - Support for the radiological protection assessment process while maintaining ,.
~
personnel radiation exposure As Low As Reasonably Achievable (ALARA).
.(B02)
- 3. The proper use of the appropriate sample results (e.g., grab samples, etc.) for dose assessment and radiological controls activities.
(B03) t
- 4. Development of the initial dose projection within 30 minutes of the need to initiate the assessment process and subsequently within ~ 15 minutes, as needed.
(804)
- 5. The ability to properly assess off-site impact by evaluating monitoring data, off-site l radiological dose projections and plant conditions.
. (B05)
G. The performance of monitoring activities (e.g., radiological and environmental) in accordance with the appropriate procedures. (B06)
- 7. Sufficient radiological protection for emergency personnel to allow them to carry out assigned roles and responsibilities in all facilities.
(B07)
- 8. The collection and analyzing of appropriate samples (e.g., grab samples, etc.).
(808)
. RM-A-5, MAP-5 samples and analysis e Local air samples and analysis
- 9. The capability to dispatch a field monitoring team from the facility within 30 minutes of the declaration of an event with a radiological release in progress.
(B09) 10.The ability to arrive at appropriate Protective Action Recommendations (PAR) within
~15 minutes of the General Emergency Declaration by evaluating monitoring data, g off-site radiological dose projections and plant conditions.
1 (B10) 4.2
y BIENNIAL EXERCISE DRILL 9904 B. RADIOLOGICAL ~ CONTROLS AND ENVIRONMENTAL ASSESSMENT (Continued)
- 11. Effective coordination of the radiological and environmental assessment processes with the Bureau of Radiation Protection.
(812)-
- 12. Evaluation of the need to expand the Protective Action Recommendation's (PAR's)
'outside the 5 mile radius by assessment of field monitoring data and dose projection data.
(B13) C. EMERGENCY O' RGANIZATION
- 1. ' The command and control of the facility leaders in the Emergency Response Facilities (ERF) necessary to assure an orderly and effective response to the emergency situation.
(C01)
- 2. The availability of sufficient emergency personnel to properly mitigate the consequences of an emergency and to provide for emergency support in an around-the-clock basis.
(CO2)
- 3. The proper response of emergency personnel in activation of the Emergency Response Facilities (ERF) and implementation of assigned roles and responsibilities for both the 1 hour responders and the a hour responders.
(CO3)
. l NOTE: Response time starts with the activation of the EP pagers. I
- 4. The proper transfer of responsibility between the on-shift personnel and incoming emergency personnel.
(C04)
- 5. The timely briefing and dispatching of emergency teams from the OSC.
(C05)
- 6. Proper activation and operation of the Emergency Response Facilities for at least 30 minutes using the minimum Initial Response Emergency Organization (IREO) and Emergency Support Organization (ESO) identified in the Emergency Plan.
(C07) 4.3
m BIENNIAL EXERCISE DRILL 9904 - D. EMERGENCY RESPONSE FACILITES The following will be demonstrated:
- 1. The existence of sufficient and adequate emergency equipment to effectively perform all necessary emergency actions.
(D01)
- 2. The dedication of sufficient space in all Emergency Response Facilities (ERF) to allow for proper emergency response.
(D02):
- 3. Effective use of the Emergency Plan implementing Procedures.
(D03)
- 4. A viable means of access control, for the various Emergency Response Facilities (ERF), that restricts entry to authorized personnel only.
(D04) E. COMMUNICATIONS The following will be demonstrated:
- 1. Tne adequacy of the communications systems to transmit data among the Emergency Response Facilities (ERF).
(E01)
- 2. Effective utilization of the eme.gency communications systems.
(E02)
- 3. . Effective communication with on-site and off-site emergency teams.
(E03)
- 4. Proper record keeping techniques, which allow the incident to be tracked as it is in progress and recreated following the event.
(E04)
- 5. The adequacy of data display at each facility to support the mission of the facility.
(E05) 6.' The ability of the emergency response staff to validate information by diverse means and the evaluation of any inconsistencies. (E06)
- 7. The ability to communicate effectively (e.g., three way communications).
(E07) 4.4
E BIENNIAL EXERCISE DRILL 9904 E. COMMUNICATIONS (Continued)
- 8. Notification of off-site agencies within the 15 minute (State and risk counties) and 1 hour (NRC) time limits using a reliable communications system.
(E08)
- 9. The use of alarms and the public address system (plant Page) to adequately alert station personnel of an emergency.
(E09) 10.The adequacy of the call out process such that emergency lesponse personnel are notified within ~ 20 minutes of an event declaration. (E10)
- 11. Communication with the Bureau of Radiation Protection (BRP).
(E11)- 12.The ability to effectively provide information to non-utility representatives (e.g., State, NRC, etc.) at the Emergency Operations Facility (EOF). (E12) 13.The performance of station announcements within 15 minutes of event declaration. (E14) F. PERSONNEL PROTECTION The following will be demonstrated: 1 Adherence to rules / procedures (e.g., Personnel protection, Safety, Security, etc.). (F01)
- 2. The ability to control access to changing radiological conditions in-plant and around the site.
(F02) 1
- 3. The ability to complete initial accountability within 30 minutes and final accountability within 60 minutes of the Site Area Emergency station announcement.
(F03)
- 4. The ability to muster nonessential personnel on-site and/or evacuate these personnel in an orderly fashion.
(F04)
- 5. The capability to radiologically monitor TMI personnel off-site.
(F05) 4.5
P BIENNIAL EXERCISE DRILL 9904 G. PUBLIC INFORMATION The following will be demonstrated:
- 1. The ability to develop and disseminate accurate news releases within 1 hour from the time that a major plant event has occurred.
(G01)
- 2. Activation of a Joint Information Center.
(G02)
- 3. The ability to effectively conduct news briefings, typically at least 1 per hour or as required, and to effectively interface with the news media, elected officials and concerned citizens.
(G03)
- 4. Effective rumor control techniques.
(G04) H. CRITIQUE The following will be demonstrated:
- 1. The ability to properly conduct a critique of the drill / exercise with the participants in order to identify major strengths and weaknesses.
(H01)
- 2. The ability to perform appropriate root cause analyses and complete the proper corrective actions to address identified problems.
(H02) NOTE: The Root Cause analysis and the identification of the necessary Corrective Actions is a process that could take several weeks to complete. Furthermore, the corrective actions could take an extended period of time to complete depending on the nature of the corrective action. Therefore, it is not expected that Objective H.2 will be completed by the post drill / exercise critique held a few days after the drill / exercise. Rather, completion of this objective will be examined as part of the periodic review of the TMI Emergency Preparedness Dill / Exercise Program. 4.6
BIENNIAL EXERCISE DRILL 9904 NOTE: This list of items denotes the level of participation that may result ! such action is taken by the participants in response to scenario situations. For example, if ' search and rescue' is deemed appropriate by the participants, they will be required to actually perform this action rather than simulating it. EVENT ACTUAL SIMULATION
- 1. Declaration of Emergency X
- 2. Notification of Off-Site Agencies X ,
- 3. Emergency Announcements X
- 4. Activation of Initial Response Emergency X Organization
- 5. Activation of Emergency Support Organization X G. Protected Area Accountability X
- 7. Sample and Analysis X
- 8. Evacuation of Site Personnel X* !
- 9. Monitoring at Assembly Area X !
- 10. Power Plant Operation X" ;
- 11. Dispatching of Response Teams X l (e.g., Radiation Monitoring, Fire Brigade, Repair, etc.)
- 12. Public Information X (e.g., Rumor Control, News Releases, Joint Information Center Activation, etc.)
TABLE NOTES: A maximum of 4 personnel will be evacuated to demonstrate the effectiveness of the evacuation process. Control switches may be operated in the Plant Reference Simulator. All controls in the plant will not be operated. (ACTUAL PLANT CONFIGURATION WILL NOT BE l ALTERED.) I i 4.7
1 DRILL 9904 1999 BIENNIAL EXERCISE TH S PAGE NTENTIONALLY BLANK L.
f DRILL 9904'. 1999 BIENNIAL EXERCISE SCOPE This exercise will be run from the plant reference simulator (PRS). The automated dose - projection process receives the simulator data in real time to develop projections about every 5 minutes. : The automated dose projection normally uses actual real time meteorological -
'information in the process; but for this drill, data from a previously selected date will be used to enable "back-up information", if required.
The initial conditions for the exercise are listed separately and should be reviewed to determine the equipment that is out of service. The conditions are very to close to actual plant conditions, when the core burnup was at 670 EFPD and had some leaking fuel pins, total reactor coolant system (RCG) activity, = 10 Ci/cc. The exercise starts with an electrical fault on the main turbine generator. The generator fault initiate's the main turbine trip. The reactor protection system (RPS) does not initiate and complete an automatic reactor trip. Operator intervention from the control room is successful in achieving a reactor trip. The condition warrants declaration of an ALERT in accordance with EAL A4.2. Additionally the plant staff will stabilize the plant at hot shutdown conditions to evaluate the failure of the RPS to automatically initiate a reactor trip. During the evaluation of the RPS failure, a loose parts alarm is received. Investigation reveals that there is excessive noise at the top of the reactor vessel. Shortly after the loose parts alarm is received several radiation monitoring system (RMS) channels start increasing. The magnitude of increase is compatible with about 5 % failure of the fuel clad (= 3000 pCi/cc) and after identification will satisfy the criterion for an ALERT based on loss of the fuel clad barrier. An additional declaration is not required because the previous ALERT condition is still . in effect. Soon after the cladding failure is recognized the operators will begin a controlled cooldown. For exercise purposes the cooldown rate will be controlled at 50 F/hr. The safety control rods will not be cocked because of the previous automatic failure. Also, the borated water storage tank (BWST) is used for inventory control during the plant cooldown. During the cooldown, the remaining isolation valve (WDL-V-534) for the reactor building sump fails open. This failure results in loss of the reactor building (Containment) fission product barrier. With the loss of two (2) barriers a SITE AREA EMERGENCY declaration is warranted, in accordance with EAL S2.1. The SITE AREA EMERGENCY declaration initiates the mustering and accountability processes, including evacuation of non-essential personnel after mustering is completed. The evacuation process will be demonstrated with a few non-essential personnel. 5.1
I i DRILL 9904 1999 BIENNIAL EXERCISE Later the Control Room receives a circulating water pump house high sump level alarm,- followed by low fiume level alarm and loss of circulating water pumps. The loss of the circulating water pumps results in the steaming control being transferred to the atmospheric dump valves. This condition does not satisfy any fission product barrier criteria because a steam generator (primary to secondary) tube leak does not exist. The cooldown continues and maintenance personnel successfully close one reactor
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building sump isolation valve (WDL-V-534). While this condition will allow the level of emergency to be de-escalated, it is expected that the level will be maintained because of uncertainties and the fact that the emergency organization is in position. Before reaching cold shutdown, the "A" once through steam generator (OTSG) develops a significant tube leak (= 200 gpm) and the_ atmospheric dump valve (MS-V-4A) fails open preventing isolation of the OTSG. The current plant conditions indicate that the reactor coolant system fission product barrier is POTENTIALLY LOST, the fuel clad is LOST and the reactor building (containment) is ' LOST. These conditions warrant declaration of a GENERAL EMERGENCY, in accordance with EAL G2.1. Additionally, a default Protective Action Recommendation (PAR), evacuate the five (5) mile radius around the plant and shelter the five (5) to ten (10) mile radius around the plant, should be issued within fifteen (15) minutes of the event declaration. Following discussion on demonstration of objectives between the Emergency Director, Emergency Support Director and the State Representative at the Emergency Operations Facility (EOF) the 1999 Biennial Exercise is terminated. 5.2 -
DRILL DRILL DRILL DRILL DRILL TMI PLANT STATUS DRILL 9904 Date 06/08/99 Time 05:30 PRIMARY PLANT SECONDARY PLANT Mode: Power Operation Generation: 872 MW Act-Pred: -4.2 Power: 100 % 2568 MWth Condsr Vac: 27.5 Hg CW Temp: 65.2 F Burnup: 670 EFPD Boron: 6 ppmB OTSG A/B Press: 899 / 894 PSIG Pressure: 2155 PSIG Tave: 579 F OTSG A/B Level: 62 % / 58 % RC Pumps: 4 RC Flow: 144 Mlb/hr FW A/B Flows: 5.37 / 5.40 Mlb/hr MS Drains Feeding Forward: 6 RCS LEAK RATE: RADIGCHEMISTRY Leakage + Losses: 0.0555 GPM Total Leakage: 0.0458 GPM RC Total Activity: 10.11 pCi/ml Unidentified: 0.0458 GPM RCS Li: .35 ppm RCS pH (Hot): 7.10 ; Method A P-S Leakage: 0.020 GPH Dose Equiv Iodine: 4.40 E-02 pCi/ml Method B P-S Leakage: 0.019 GPH Condenser Offgas: 9.0 E 03 CPM and 28 SCFM j l l Continuous Days on Line: 601l Chemistry & Thermohydraulic Abnormalities: None. Significant Events: - Spurious RCS Loose Parts Alarms (PRF6-2). (Coming from Channels 1&2) Major Equipment out of Service / Problem Areas: - EF-P-1 is OOS with a 72 TSTC started 06/07/99 at 1400 hours. 4 Refer to On-Line Maintenance Risk #8. l - WDL-V-535 is failed open. WR # 99 DRILL 1 submitted. l - RM-L-1 is OOS due to a failed flow controller. WR # 99 DRILL 2 submitted. Major Planned Activities for the next 24 hours: - Finish repair and test EF-P-1 - Close %DL-V-535 PDMS: None. Weekly Items: - None. Comments: - None. Shift Engineer: DRILL Plant Operations Director: DRILL DRILL DRILL DRILL DRILL DRILL 6.1
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Biennial Exercise June 8,1999 POINTS of REVIEW and OBSERVER INSTRUCTIONS The following pages provide instructions for the observers and controllers and provide the criteria on which the drill participants are to be evaluated. The determination of whether or not each drill objective is met will be based on the Points of Review provided for each functional area. The controllers and observers must be thoroughly familiar with the Points of Review for their area. The Points of Review are provided in detail in a text format. A checklist to record if each point of review was satisfactory or unsatisfactory follows the text for recording your observations. All points, whether marked yes (satisfactory) or no (unsatisfactory) must be accompanied with supporting information to show why you believe the point of review to be met or not. Additional comment sheets are included and should be used to clearly indicate your grading decision. Items marked "NA" (not applicable) must be justified to show why the point was not graded. Upon termination of the drill, the observer shall hold a critique with the drill participants. Each point of review should be discussed. First the participants should be asked to critique their own actions. Then, the observer should state if each point of review was met or not met, and justification should be provided to back up the decision. At this time, drill participants are afforded an opportunity to correct observer misconceptions if warranted. Covering the points of review one at a time is the suggested critique method, but any format that you are comfortable with and that serves the purpose may be used. Ensure drill participants understand that the information provided in this session may require additional follow up in some cases to allow for a complete and accurate appraisal of the staff's performance. The Points of Review evaluation method is intended to remove much of the subjectivity formerly experienced in exercise evaluations. Please forward suggestions that will improve the process to a member of the Emergency Preparedness Department staff. l 1 POR-1 8.1 l I l L _ _ _ _ _ _ _
i DRILL 9904 I 1999 BIENNIAL EXERCISE TH S PAGE NTENT ONALLY BLANK 4
Biennial Exercise June 8,1999 ECC CONTROLLER INSTRUCTIONS
- 1. Contact the Shift Supervisor / Shift Foreman at extension 8070 or 8071 and request permission to begin the drill. Document this contact in accordance with procedure TEP-SUR-1310.13.
- 2. Ensure the Shift Supervisor logs onto the network on the simulator computer prior to the start of the exercise. This would mirror the action taken during normal operations and will allow the Emergency Report Forms to be generated without a drill-induced delay.
- 3. When all personnel have been briefed (i.e., watch tum over) and the Plant Reference Simulator is lined up for the drill, read Message EC-1 over the L plant page system and radio Channel 5.
- 4. Several events will occur during the course of the drill that could require off-
- site assistance. The off-site notification process (refer to EPIP-TMl .03) shall l
be made and completed in its entirety. Other calls to entities such as INPO, other utilities, vendors and the like are also to be made. Allow the drill participants to produce the applicable telephone numbers and complete the contact. Ensure the drill participant clearly communicates to the called party that this is only a drill. Confirm that the needed assistance or material is available from that agency, but stop the process at the point where follow up or response activities would be required from the called party and/or costs would be incurred to continue the process. Again, be very sure the drill participant clearly communicates to the called party that this is only a drill.
- 5. If needed after an Alert is declared at approximately T = 15 (1545 hours), and before a Site Area Emergency is declared, read contingency Message EC-2 to the Emergency Director if he decides to de-escalate from the Alert level.
This contingency message directing that he not reduce the classification level is necessary to ensure compliance with drill flow and time lines ; established with the state and federal evaluators. i
- 6. At T = 35 (1605 hours), read contingency Message EC-3 to the Emergency j Director if he has not declared an ALERT or if the declaration is not imminent. This contingency message directing him to declare an Alert is a drill control feature that allows the drill to follow the time line established with j the state and federal evaluators.
- 7. At T = 165 (1815 hours), read contingency Message EC-4 to the Emergency Director if he has not declared a SITE AREA EMERGENCY or if the declaration is not imminent. This contingency message directing him to declare a Site Area Emergency is a drill control feature that allows the drill to follow the time line established with state and federal evaluators.
, Observer instructions ECC Controller-1 9.2
) Biennial Exercise June 8,1999 ECC CONTROLLER INSTRUCTIONS (Continued)
- 8. When the Emergency Director or Emergency Director Assistant directs a staff member to announce the evacuation, provide the modified EPIP-TMI .02, Exhibit 11, from the Message section after the Emergency Director or Emergency Director Assistant completes their own Exhibit 11. The modified form will inject drill control data to enable Dauphin County to satisfy a traffic control assistance objective.
- 9. If the evacuation has not been ordered by T = 220 (1910 hours) provide contingency Message EC-5 to the Emergency Director and/or Emergency Director Assistant to be read to Dauphin County and PEMA. This message will inject drill control data to enable Dauphin County to satisfy a traffic control assistance drill objective.
10.lf the automated Emergency Report Form system is not available on the computer when the General Emergency is declared, provide the modified hard copy of the Emergency Report Form to the Emergency Director. Use of this form will ensure only pre-designated personnel, rather than non-essential personnel evacuate the site. I 11. At T = 270 (2000 hours), read contingency Message EC-6 to the Emergency Director if he has not declared a GENERAL EMERGENCY or if the declaration is not imminent. This contingency message directing him to declare a General Emergency is a drill control feature that allows the drill to follow the time line established with state and federal evaluators.
- 12. At T = 360 (2130 hours) or when the drill objectives have been demonstrated, and with Emergency Director and Emergency Support Director concurrence, end the drill by reading Message EC-7 over the plant page system and radio Channel 5. Then read Message EC-7 to the EOF and Joint Information Center using commercial or emergency telephone circuits. ;
- 13. Contact the Shift Supervisor / Shift Foreman at extension 8070 or 8071 and inform him of the completion of the exercise.
- 14. At the conclusion of the drill, ensure all equipment is retumed to the proper t storage location and the Simulator is returned to pre-exercise conditions.
Observer instructions ECC Controller 2 9.3 l l t ..
n T Biennial Exercise June 8,1999 COMMUNICATIONS OBSERVER INSTRUCTIONS I 1'. ' Arrive at the Sim'ulator Shift Supervisor's Office at T = -30 to set up the facility for the exercise. Ensure the wall clock in the Simulator Shift , Supervisor's Office is synchronized with the clocks in the Simulator. When contacted by the individual merging plant communications systems, perform Section 1.0 of procedure TEP-SUR-1310.13, Exhibit 4, " Simulator Communications Equipment Set-Up for Drills / Exercises and Return to Normal".
- 2. Several events will occur during the course of the exercise that could require
]
off-site assistance. The off-site notification process (refer to EPIP-TMI .03) j shall be made and completed in its entirety. Other calls to entities such as ' INPO, other utilities, vendors and the like are also to be made. Ensure the J drill participant clearly communicates to the called party that this is a drill. / Confirm if the needed assistance or material is avsaable from that agency,
' but stop the process at the point where follow up or response activities would be required from the called party and/or costs would be incurred to continue the process. Again, be very sure the drill participant clearly communicates to the called party that this is only a drill.
- 3. All off-site notifications are to be performed as specified in the applicable Emergency Plan implementing Procedures. Ensure drill demands placed upon state and county emergency management agencies are held to a minimum. For example, if the Communicator fails to cancel the ring tone on the Notification Line, intervene and cancel the ring tone yourself. Any intervention necessary to lessen drill impact on state / county dispatch centers shall be noted in your Observer Comments.
- 4. Should the USNRC elect not to participate in this drill relative to the use of the Emergency Response Data System (ERDS), the ECC Controller will turn off the ERDS modem. The Shift Technical Advisor and Communicators should perform all relevant steps in procedure EPIP-TMl .03 " Emergency Notifications and Call Outs", Exhibit 6 to activate the Emergency Response Data System (ERDS) regardless of the NRC's decision. Explain to the STA/ Communicator that the NRC is not participating via ERDS and give the ;
drill participant credit if the steps are properly performed. Do r!o.1 allow the i Communicator to actually report the system out of service if ERDS is not i operating only due to non-participation by the NRC. Simulate the system is , in service and operating. If the modem is tumed off, the CRT indications will ! differ from those specified in the procedure as follows.
. Modem Status: Fail
- Link Status: Fail e ERDS Status inactive Observer instructions Communications Observer-1 9A
Biennial Exercise June 8,1999 COMMUNICATIONS OBSERVER INSTRUCTIONS (Continued) Based on a request by the Nuclear Regulatory Commission, the Emergency Response Data System is expected to be activated for this exercise.
- 5. Emergency Notification System
- a. Once the NRC contact has been made, the On Shift ECC Communications Coordinator will be required to remain on the line as would be the case during a real emergency. The ENS Line Communicator may only terminate contact with the NRC upon direction from that agency.
- b. Monitor the interaction of the On Shift ECC Communications Coordinator with the NRC contact.
- c. Monitor the turn over to the initial Response Emergency Organization ENS Line Communicator.
- d. Monitor interaction of the IREO ENS Line Communicator with the NRC contact. The ENS Line Communicator may only terminate contact with the NRC upon direction from that agency.
- 6. If problems are encountered with any communications equipment, ensure you record all relevant information so that repairs may be arranged following the drill. Do not allow the ECC Communications Coordinator to actually call off-site companies for communications repairs during the drill. Bell of Pennsylvania, AT&T, Communications Systems Specialists, etc. will be contacted through normal channels after the drill.
- 7. Confirm all close-out notifications are completed in accordance with procedures EPIP-TMI .03 (and EPIP-TMI .27 if applicable). Verify completion with the ECC Communications Coordinator or Communicators, as well as the EOF Communications Coordinator or Communicators (if applicable).
- 8. Verify with the ECC and EOF Communicators that all close-out notifications are completed before performing this step. When contacted by the individual isolating communications systems in the plant, perform Section 2 of procedure TEP-SUR-1310.13, Exhibit 4, " Simulator Communications Equipment Set-Up for Drills / Exercises and Return to Normal" l
l l Observer instructions Communications Observer-2 9.5 l l L .
1 i Biennial Exercise I June 8,1999 OPERATIONS EVALUATOR INSTRUCTIONS
- 1. Arrive at the simulator in sufficient time to allow for simulator start up and set up.
- 2. Start the operations crew tumover/ briefing at 1500 hours so they are prepared to assume the watch and commence the drill at 1530 hours.
- 3. Monitor staff response to changing plant conditions and operational manipulations from a plant operations stand-point.
- 4. At or about T = 15 (1545 hours), read contingency Message OE-1 to the control room staff if they attempt to start a plant cool down. The message will direct them not to initiate a cool down until the cause of the trip is determined. This will more accurately mirror the response if the trip was real, and it will delay the cool down so that plant conditions are maintained for scenario requirements later in the drill.
- 5. At or about T = 90 (1700 hours), read contingency Message OE-2 to the ECC staff if they intend to secure the "A" Reactor Coolant Pump and leave the "B" Reactor Coolant Pump running in the "A" Loop. With the drill-induced loss of RC-RV-2 and RC-V-44, use of RC-P-1 A will ensure spray flow is available.
This change in pump combination is allowed by procedure.
- 6. At or about T = 90 (1700 hours), read contingency Message OE-3 to the ECC staff if a cool down rate other than 50 F/ hour is selected. This cool down rate is necessary to control plant conditions so that drill criteria and timing established with state and federal evaluators may be met.
- 7. If MU-V-3 is not already shut at T = 95 (1705 hours), read contingency Message OE-4 to the ECC staff. This drill control feature will prevent in plant radiological readings (demin filters) from varying significantly from the established drill data.
- 8. At or about T = 120 (1730 hours), read contingency Message OE-5 to the ECC staff if a plant cool down has not been started. Directing a cool down rate of 50 F/ hour to be started and maintained will ensure plant drill parameters are maintained within the scenario guidelines established with state and federal evaluators.
- 9. At the completion of the drill, ensure all equipment is returned to the proper storage location and the simulator is returned to pre-drill conditions.
Observer instructions operations Evaluator-1 9.6 j
I l DRILL 9904 ' l 1999 BIENNIAL EXERCISE TH S 4 PAGE INTENTIONALLY BLANK
m Biennial Exercise June 8,1999 RAC CONTROLLER INSTRL'CTIONS
- 1. Arrive at the simulator at T '= -30 (1500 hours) to confirm the RAC area is set up and functional for the drill participant arrival. Confirm the equipment is available and properly located but do not energize or boot up equipment or perform actions that the drill participants would be required to perform in a real situation. I
- 2. When the drill participants boot up the RAC computer, ensure the " Drill" icon is selected. Selecting this icon will ensure the proper drill data is displayed.
- 3. Monitor the performance of the Radiological Assessment Coordinator, ,
Radiological Engineering Support Staff, and the RAC Support Staff and their i response to the emergency.
- 4. Review the performance criteria shown in the Points of Review section with the facility staff when the drill is terminated.
- 5. At the completion of the drill, ensure all equipment is returned to the proper storage location and the Simulator RAC area is returned to pre-drill conditions.
i I Observer Instructions RAC Controller-1 9.7
)
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' 1999 BIENNIAL EXERCISE THiS PAGE INTENTIONALLY ,
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1 l Biennial Exercise June 8,1999 , FIELD TEAM OBSERVER INSTRUCTIONS a I
- 1. Field Monitoring Team Observers dispatched from the site should report to the Processing Center, and those operating from the EOF should report to the EOF at T = 0 (1500 hours) to position for team dispatch.
- 2. The following guidelines should be followed for initializing and using the field team data computers.
af Set up the computer at any convenient time prior to team dispatch as follows: 1)- Remove the computer from its carrying bag.
- 2) Release the display latches and raise the computer display panel.
- 3) Energize the computer by momentarily sliding the power switch located above the "F11" key to the left.
- 4) When the Windows 95 " Enter Network Password" screen appears:
(a) Move your finger across the rectangular touch pad located below the keyboard to move the pointer to " cancel," then, (b) Click the button on the lower left side of the touch pad.
- 5) When the Windows 95 desktop appears, point and click on the storm cloud / lightning bolt icon at the top of the screen.
- b. To obtain field team data:
1)' Type the time of the most recent quarter hour (see the example for proper time formats) and press " Enter." Example: If the time is 5:37 p.m., the most recent quarter hour would be 5:30 p.m. Therefore, you would type "530p" or "1730" and press " Enter."
- 2) When the "MORE REPORTS SELECTION" menu appears:
(a) Point and click on one of the three selections in the left-hand column.
. For closed window readings and closed window plume scanning, click on "FM GAMMA RATE CONTOURS."
. For open window readings, open window plume scanning and/or frisker readings click on "FM GAMMA +
BETA DOSE CONTOURS."
. For air samples click on "FM THYROID RATE I CONTOURS.
(b) Then point and click on "CONFlRM." (c) Helpful information is posted on the computer to the left of ] the screen to guide you. 1 l Observer Instructions Field Team observer-1 9.8 ,
Biennial Exercise June 8,1999 FIELD TEAM OBSERVER INSTRUCTIONS (Continued)
- 3) The
- MAP SCALE SELECTION" can be changed by:
(a) Pointing and clicking on the highlighted map scale block and then, (b) Entering a new map scale using the " calculator" on the upper right. (c) After changing the scale, click on "EN." (d) Then click " CONFIRM" to view the map.
- 4) You can zoom in on your area by using the " SELECT AREA" option. To do so:
-(a) Click on " SELECT AREA" and then, (b) Click on 2 imaginary diagonal corners of the area you desire to view.
- 5) The readings at your current location, or at a location where you expect to be shortly, can be obtained by:
(a) Clicking " POINT OF INTEREST" and then, (b) Clicking on the location on the map for which you want readings. A pop-up window will display the readings at the selected location. The readings are in order top-to-bottom the same as the left-to-right readings in the table to the right of the map. Example: The second reading from the top in the pop-up window on the "FM THYROID RANGE CONTOURS" map is the cartridge net count rate [ CARTRIDGE (CPM)]. In this case, don't forget to add the background count rate (typically 50 CPM).
- 6) - Click " CURSOR HERE TO EXIT" to quit " POINT OF INTEREST."
- 7) . Click " RESTORE" to zoom out.
- 8) Click " CONTINUE" and "MORE REPORTS" to select a different map. -
- 9) Double click " EXIT" to retum to the DOS prompt. A new time can be entered from this prompt.
- c. To conserve battery power during periods of non-use (e.g., while traveling to/from monitoring locations):
- 1) Press the purple " Suspend" button located above the "F8" key. The computer should beep twice to confirm that it is in the " Suspend" mode.
- 2) To return to the normal mode, press the suspend button again.
Wait approximately 30 seconds for the computer to " wake up." Observer instructions Field Team Observer-2 9.9
Biennial Exercise June 8,1999 FIELD TEAM OBSERVER INSTRUCTIONS (Continued)
- d. To use the D.C. power supply: )
- 1) Plug the power supply into the vehicle cigarette lighter socket. Use !
the multiple socket adapter if the field team is using the cigarette lighter socket for other purposes (e.g., radio power and/or rooftop strobe).
- 2) Plug the computer power cord into the power supply and into the I back of the computer.
- e. To shut off the computer:
- 1) Type " exit" at the " ENTER TIME OF PREVIOUS QUARTER HOUR" prompt and press " Enter."
- 2) Point and click on the " Start" button in the lower left side of the Windows 95 desktop.
- 3) Point and click on the " Shut Down" button in the pop-up menu. l
- 4) Press " Enter."
- 3. If respirator use is directed, the team is to produce all necessary devices / equipment and demonstrate use, but wearing of the respirators is to be simulated. Remain sensitive to the appearance your team will provide to civilians. Wearing respirators may alarm members of the public who are unaware of the execution of a drill.
- 4. For driver safety, do not allow field teams to drive while wearing respiratory protection devices. Also, do not allow teams to stop vehicles in potentially hazardous locations / positions. Driver safety must be evaluated in a,ddition to technical skills.
Observer Instructions Field Team Observer-3 9.10
( CRILL 9904 1999 BIENNIAL EXERCISE TH S PAGE 1 NTENT ONALLY BLANK .
r 1 Biennial Exercise June 8,1999 OSC CONTROLLER INSTRUCTIONS
- 1. At T = -30 (1500 hours), arrive at the OSC and review the drill ground rules and initial conditions with the Group Rad Con Supervisor and personnel who are to be drill participants.
- 2. Contact the ECC Communications Observer in the Simulator and coordinate the merge of plant and simulator communications systems. The process is to be performed in accordance with procedure TEP-SUR-1310.13, Exhibit 3.
- 3. At the completion of the drill, perform an interactive debriefing with the OSC staff. Review the individual points of review and identify strengths and weaknesses in the drill participant responses.
- 4. Collect all applicable drill paperwork such as completed proceduros, training attendance forms, calculations, notes logs, and the like. Ensure all equipment is retumed to the proper storage location and the OSC is returned to pre-drill conditions to the extent possible.
- 5. Confirm all close-out notifications are completed before performing this step.
Contact the ECC Communications Observer in the Simulator and coordinate j the separation of plant and simulator communications systems. The process is to be performed in accordance with procedure TEP-SUR-1310.13, Exhibit 3. l Observer instructions OSC Controller-1 9.11 i ___U
DRILL 9904 1999 BIENNIAL EXERCISE THIS . PAGE INTENTIONALLY BLANK
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS PERSONNEL and PLANT PROTECTION
- 1. Do not allow drill participants to enter actual contamination, airbome, or high radiation areas. Entry into a radiation area is acceptable provided the ALARA concept is observed and the entry into the area will enhance drill continuity and realism. Ensure all drill participants are signed on to the drill Radiation Work Permit (RWP) before entering any actual RWP areas. Ensure observers and participants do not violate site radiological practices.
- 2. Do not allow drill participants to actually manipulate, disassemble, open, take readings on, or size tools on plant equipment.
- 3. Ensure caution is exercised by observers and drill participants in the vicinity of energized, rotating, moving, or hot equipment. Obey all safety rules.
- 4. Applicable drawings and tech manual pages in the possession of observers are for observer use only. Drill participants must obtain their own prints, drawings, and tech manuals unless otherwise noted in these instructions.
DRILL CONTROL
- 1. Drill Control Mode - Some components cannot be retumed to service without adversely affecting the drill scenario time line. Once the applicable in-Plant Activities Team Points of Review have been satisfied for a specific task or '
- component that the Observer knows will not be allowed to be retumed to service or will require a delayed retum to service, the Emergency Repair Team will be directed to enter a Drill Control Mode. The Emergency Repair Team is to comply with the Observer's direction to perform the following steps as applicable.
- a. Do not report the success of their mission, or the inability to retum a component / system to service until allowed by the drill observer,
- b. The team should withdraw from any areas of high ambient noise, extreme heat or cold, or actual radiation areas to an inconspicuous location.
- c. The team should remove protective clothing and respiratory protection.
- d. The team should provide status reports to the OSC, ECC, or any other person or facility as if the task were still in progress. . e. If respiratory protection was required for the task, all status reports shall be provided by spealdhg through the device's face piece. This will provide the indication that the team is actually engaged in the activity at the work location. If SCBA's are in use, the team shall retum to the dispatch or entry point, wearing the full protective clothing assigned, after approximately forty-five minutes to simulate when the bottled air would be depleted. The one hour cylinders of air can be expected to provide about forty-five minutes of air.
Observer instructions in Plant-1 9.12 1
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued)
- f. Any additional assistance sent to the work site such as additional foremen or engineers shall join the Emergency Repair Team in the Drill Control Mode. No one assigned to the task shall be available for any other assignment unless priorities are rearranged by the OSC.
- 2. Reactor Buildina Entries - An entry into the reactor building will be highly unlikely due to the conditions in the building and the unpredictable and unstable plant conditions. If an entry is ordered, record reactor building entry comments with the points of review associated with the specific task (i.e.,
component) and proceed as follows. Follow the team to the entry control point. The team shall don all protective clothing specified by the Radiation Work Permit and/or briefing. Respiratory protection and air monitoring / radiological monitoring devices shall be worn in accordance with the RWP or briefing. When the team is suitably attired and ready to make the entry into the Reactor Building, stop them at the step off pad. Do not allow an actual entry to be made in accordance with Note 1 at the beginning of the in Plant Rover Instructions. Allow the entry team to remove their respiratory protection and protective clothing to reduce stress on the drill participants and to facilitate clearer communication with the Observer. Have them explain, in detail, the initial steps in the entry process. As they describe the initial attempt to enter the building, provide radiological conditions as presented in the in Plant Rad Con section of your scenario book. Have them describe, in detail, any actions they would take. If proper protective clothing removal practices are not followed by the team, contaminate the appropriate members using contamination levels shown in the in Plant Rad Con section of your scenario book.
- 3. Observer Commitment -The number of evolutions in progress may exceed the number of observers available to monitor those evolutions. In such cases, when a task unrelated to the success of the drill is assigned, allow the personnel to be assembled and complete their briefing by the OSC staff.
When an Auxiliary Operator or Emergency Repair Team is dispatched to perform the task, a drill controller or observer will intercept them. The team leader must explain the task and the steps necessary to complete the assignment. When the activity / operation is explained to the observer's satisfaction to confirm the individual's understanding, the team / individual is to report to the job site if reasonable, or a remote location designated by the Observer such as the In Plant Cafeteria. There they will wait the length of time that would be necessary to actually perform the task. Observer instructions in Plant-2 9.13
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued) If called by the OSC by radio or plant page, the individual / team shall provide a status consistent with the progress that would have been made during the
- elapsed time. While the team is in this mode, they will be unavailable for additional tasks unless the OSC reassigns priorities and directs the team or individual to abandon the initial evolution and begin a second task.
This simulation of tasks may be used only when all observers are already committed to a team / task, and only if the assignment has no real bearing on the recovery from the emergency. For example, a valve line up performed as part of post trip procedures that will not affect the course of the drill may be approached in this nianner if sufficient observers are not available. PLANT CONDITIONS / INITIAL CONDITIONS
. Emergency Feed Water Pump EF-P-1 is out of service for oil replacement and for valve work on MS-V-22A, MS-V-22B, EF-V-15A, EF-V-13, and steam traps MS-ST-10A/10B/10C and MS-ST-11. A 72 hour Tech Spec Time Clock was started at 1500 hours on June 7,1999. If directed to return the unit to service during the drill, the estimated repair time is 12 hours. . Reactor Building Sump Drain isolation Valve WDL-V-535 is failed open. A work request has been initiated. Refer to the Component Failure item covering WDL-V-534 in the following in Plant Rover instructions for troubleshooting guidance on WDL-V-535. If directed to return the unit to service during the drill, the estimated repair time is 8 hours. . Radiation monitor RM-L-1 is out of service due to a failed flow controller. . Periodic loose parts alarms have been received. . All other major plant equipment and components are in service or available.
MESSAGES
- 1. At T = 10 (1540 hours), provide message IP-1 to an available Auxiliary
, Operator to have the message relayed to the control room. The report of the main steam relief valves reseating is a standard requirement for the Out-Buildings Auxiliary Operator following a plant trip. If an Auxiliary Operator is not immediately available, an In Plant Rover may call the simulator control room directly with the message.
- 2. . Other messages to be delivered by in Plant Rovers are identified in the specific component failure information.
Observer Instructions in Plant-3 9.14
1 Biennial Exercise June 8,1999 I IN PLANT ROVER INSTRUCTIONS (Continued)' l COMPONENT FAILURES Component failures and indications associated with the failures for each component are found on the following pages. Provide the appropriate indications to the plant staff after they have arrived at the appropriate location and have taken or simulated all steps necessary to obtain the information.
- 1. Main Generator Breaker Trip '
At T = 5 (1535 hours), the main generator circuit breaker trips open due to a transient on the grid. This condition is identified by an 86G Generator Ground Protection Fault / Trip indication. The failure may be reported when identified by the staff.
- 2. Reactor Trip Failure When the reactor fails to trip automatically at T = 5 upon the main generator circuit breaker trip, it must be scrammed manually. Manual and DSS trip actions are successful. An Instrument Technician may be directed to troubleshoot the -
malfunction. Determination of the exact failure mechanism will have no bearing on the drill time line or staff response to drill conditions. If a technician is dispatched to investigate the Integrated Control system or Reactor Protection System, accompany them to the job site. Do not allow drill participants to actually open doors on, or perform any manipulations to the ICS or RPS cabinets. These vital protection and control systems must not be affected in any way by drill activities ~. Have the technician explain his activities using prints only. If a module or circuit malfunction is identified that could cause the automatic reactor trip failure, allow that failure to be reported after the time to identify the failure has elapsed.
- 3. Loose Parts AlarmsNibration Alarms At T = 45 (1615 hours), a loose parts alarms will be received on Panel Right Front, window 6-2. Noise on channels 1,2, 3 and 4 in the control room and on the panel will be identified, but no other abnormal indications will be present. A CRO, SRO, or if manned, a TSC Engineer should respond to the Loose Parts Panel in the Control Tower to confirm and further clarify the alarm. Because the CRO's will be off site in the Simulator, a Plant Shift Foreman or TSC Engineer is expected to investigate. An observer from the Tech Support Center will provide panel indications to the drill participants. The loose parts alarm is intended to justify core damage occurring at T = 60 (1630 hours). _
Observer instructions In Plant-4 9.15
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued)
- 4. Reactor Coolant Sample Containment isolation Valve CA-V-2 At T = 45 (1615 hours) valve CA-V-2 will fail to open upon receiving any signal, or will fail closed if open. When it is realized that CA-V-2 is stuck shut, a repair team may be dispatched to open CA-V-2 if manpower is available. If electrical troubleshooting is performed in Cabinet XCC, at FD 63 and 64, the fuses will be found to be blown. An attempt to open the valve following replacement of the fuses will result in the fuses blowing again. Additional troubleshooting will reveal no type of electrical malfunction. Troubleshooting at the valve will reveal that it cannot be opened manually. Further investigation shows the operator to be fault free which leaves the valve itself to be the problem. The valve will be found to have severe intemal mechanical binding, preventing its opening and will not be allowed to return to service during the exercise. With this valve stuck shut, a reactor coolant sample will not be possible.
After satisfying th? Points of Review for this task, the members of the Emergency l Repair Team will enter the drill control mode unless recalled to the OSC.
- 5. Pilot Operated Electromatic Relief Valve RC-RV-2 If open, the Pilot Operated Electromatic Relief Valve will fail shut at T = 45 (1615 l I
hours). Any attempts to open the valve by operator action after T = 45 will be unsuccessful, but the valve will still relieve pressure automatically. This will , prevent the use of the PORV cooling option for the plant. 1 When an Emergency Repair Team is assembled to investigate the reason for the valve failure, accompany them during the briefing, preparatory, and troubleshooting phases of the task. All tools, test equipment, parts, and documentation (including prints, drawings, procedures, and technical manuals) 1 needed to actually troubleshoot RC-RV-2 and its control / power circuitry must be produced by the Emergency Repair Team at the job site. Do not allow the team to actually open, troubleshoot, take readings on, or work on DC Distribution Panel 1C or its associated equipment. Using the prints and drawings provided by the Emergency Repair Team, have them explain in detail how they would attempt to determine the failure mechanism. The discussions for electrical troubleshooting should take place at DC Distribution Panel 1C, located on the 322 foot elevation of the Control Building. The explanation should include any readings taken, the points at which these readings would be taken, and demonstration of the applicable test equipment set up properly and on the correct scales, with test leads used as applicable. observer instructions in Plant-5 9.16
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued) Electrical troubleshooting will fail to identify the failure mechanism. Only through a reactor building entry and valve disassembly (which will not occur) would the Emergency Repair Team be able to determine that a pilot valve control failure to be the cause of the problem. Attempts to operate the valve will be unsuccessful and the specific problem will not be found during the drill time frame.
- 6. Pressurizer isolation Vent Valve RC-V 44 RC-V-44 will fail closed if open at T = 45 (1615 hours) and any attempts to open it after T = 45 will be unsuccessful. If an Emergency Repair Team is assembled to investigate the reason for the valve failure, accompany them during the briefing, preparatory, and troubleshooting phases of the task. All tools, test equipment, parts, and documentation (including prints, drawings, procedures, and technical manuals) needed to actually troubleshoot RC-V-44 and its control / power circuitry must be produced by the Emergency Repair Team at the job site. Do _n_ot allow the team to actually open, troubleshoot, take readings on, or work on DC Distribution Panel 1F or its associated equipment.
Using the prints and drawings provided by the Emergency Repair Team, have them explain in detail how they would attempt to determine the failure mechanism. The discussions for electrical troubleshooting should take place at DC Distribution Panel 1F, located on the 338 foot elevation of the Control Building. The explanation should include any readings taken, the pohts at which these readings would be taken, and demonstration of the applicable test equipment set up properly and on the correct scales, with test leads used as applicable. Electrical troubleshooting will identify an open circuit to the solenoid valve. Only through a reactor building entry and valve disassembly would the Emergency Repair Team be able to confirm a solenoid failure to be the cause of the problem. All attempts to operate the valve will be unsuccessful and RC-V-44 will remain out of service for the remainder of the exercise.
- 7. Fuel Cladding Failure l At T = 60 (1630 hours) fuel cladding failure will occur. The increased activity in the Reactor Coolant System water will complicate any situation involving leakage. Later in the exercise, the significance of the release will be compounded by this failure.
( I f Observer Instructions l In Plant-6 9.17 1
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued)
- 8. Reactor Building Sump Drain isolation Valve WDL-V-534 At T = 135 (1745 hours), WDL-V-534 will fail open. With WDL-V-535 already open in accordance with the initial conditions, a release pathway from the reactor building to the auxiliary building will be created. The Emergency Director will likely place a high priority on getting WDL-V-534 or WDL-V-535 closed.
When an Emergency Repair Team is assembled to investigate the reason for the valve failure (s), accompany them during the briefing, preparatory, and troubleshooting phases of the task. AI! tools, test equipment, parts, and documentation (including prints, drawings, procedures, and technical manua:s) needed to actually troubleshoot WDL-V-534 (WDL-V-535) and the control / power circuitry must be produced by the Emergency Repair Team at the job site. Do _n.gt allow the team to actually open, troubleshoot, take readings on, or work on the electrical or control panels. Using prints and drawings provided by the Emergency Repair Team, have them explain in detail how they would attempt to determine the failure mechanism. The discussions for electrical troubleshooting should take place at Panel XCC for WDL-V-534 and XCL for WDL-V-535DC, located on the 338 foot elevation of the Control Building. The explanation should include any readings taken, the points at which these readings would be taken, and demonstration of the applicable test equipment set up properly and on the correct scales, with test leads used as applicable. Remote control circuit fuses FD27 and FD 28 for WDL-V-534 are contained in XCC Cabinet. Remote control circuit fuses FD201 and FD202 for WDL-V-535 are located in Cabinet XCL. Neither cabinet will reveal any obvious malfunctions. If the Emergency Repair Team performs any of the following local troubleshooting techniques to WDL-V-534 and the time is T = 220 (1910 hours) or later, WDL-V-534 will close. If the time is earlier than T = 220, proceed as follows. Troubleshooting at the valves (281 foot elevation of the Auxiliary Building near WDL-P-5A and B) will reveal the following. There is no obvious 1 malfunction when the valves are viewed. Removing air from the operators (air to I open) will not result in valve closure. Assisting spring pressurize with air pressure will not close either valve. If an actuator is removed, the stem will appear to open further and will not be able to be retumed to the original position before the operator was removed. 1 Observer instructions in Plant-7 i 9.18 I I 2
E~ Biennial Exercise , June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued) At T = 220 (1910 hours), WDL-V-534 will close as a result of the actions performed on it. The simulator console operator (extension 2059) will close the simulator valve position indication at T = 220. Inform the Emergency Repair Team of their success if working at the valve at T = 220 so they may report the status to the OSC by reading Message IP-3 to them.
- 9. Circulating Water Pump CW-P-1F At T = 195 (1845 hours) a Circ Water Pump House sump high level alarm will be received. A failure of the discharge piping of CW-P-1F will occur and water floods the structure. As the level continues to rise, the water causes the Circulating Water Pump motors to ground and trip. The failure sequence is as follows: CW-P-1C at T = 197 (1847 hours)
CW-P-1D at T = 198 (1848 hours) - CW-P-1B at T = 199 (1849 hours) CW-P-1E at T = 205 (1855 hours) CW-P-1 A at T = 210 (1900 hours) CW-P-1F at T = 210 (1900 hours) An Auxiliary Operator should be dispatched to investigate the sump level alarm. If not, an Auxiliary Operator or other staff member should be dispatched to investigate the failure of the Circulating Water Pumps. When someone arrives after the flooding begins, provide the individual with Message IP-2 informing the individual that catastrophic flooding has occurred in the Cire Water Pump House. If the message is provided to someone between T = 195 (1845 hours) and T = 215 (1905 hours), inform them that water is flooding out of the discharge of CW-P-1F between the pump and the discharge valve. If the person arrives after T = 215 (1905 hours), all that is visible is muddy water covering all of the pumps. Because of the magnitude of the problem and recovery efforts necessary, all equipment lost to the flooding in the Circ Water Pump House will remain out of service for the duration of the drill. ! After satisfying the Points of Review for this task, the members of the Emergency Repair Team will enter the drill control mode unless recalled to the OSC. l L 10. Main Condenser Vacuum l At T = 213 (1903 hours), a low condenser vacuum alarm will be received followed by loss of main condenser vacuum. The cause of the loss of vacuum is the failure of all Circulating Water Pumps. Vacuum restoration will not be possible for the duration of the exercise. Observer instructions in Plant-8 9.19
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued)
- 11. Steam Generator OTSG "A" At T = 230 (1920 hours), tube leakage will begin in the "A" OTSG as a result of the transients related to the plant trip. Radiation readings on the steam lines may
, be ordered in an attempt to identify or confirm the leaking steam generator.
Be sensitive to the effect of the heat on drill participants and observers as the Intermediate Building may have extreme ambient heat levels. Modify drill activities as necessary to prevent any actual heat related problems with the staff.
- 12. Atmospheric isolation Valve MS-V-15A
' At T = 230 (1920 hours), MS-V-15A will fail in the open position. The failure will not be apparent to the drill participants until an attempt is made to close the valve. If the plant staff attempts to close the valve in an attempt to isolate the release pathway, the valve will be discovered to be jammed in the open position.
Attempts to close the valve will be unsuccessful. If the staff simulates an act that would apply excessive force to the valve, the stem will shear at the packing, leaving no stem materia! available to secure with any griping or holding tool.
- 13. Steam Dump Isolation Valve MS-V-2A At T = 230 (1920 hours), MS-V-2A will fail in the open position. The failure will not be apparent to the drill participants until an attempt is made to close the valve. Closing this valve would terminate the radioactive release and staff attention would be expected to be directed to shutting this valve.
When an Emergency Repair Team is assembled to investigate the reason for the valve failure, accompany them during the briefing, preparatory, and l troubleshooting phases of the task. All tools, test equipment, parts, and ! documentation (including prints, drawings, procedures, and technical manuals) rieeded to actually troubleshoot MS-V-2A and its control / power circuitry must be produced by the Emergency Repair Team at the job site. Do ngt allow the team to actually open, troubleshoot, take readings on, or work on the equipment. Using prints and drawings provided by the Emergency Repair Team, have them explain in detail how they would attempt to determine the failure mechanism. The discussions for electrical troubleshooting should take place at the valve, located on the 281 foot elevation of the Intermediate Building. The explanation should include any readings taken, the points at which these readings would be l taken, and demonstration of the applicable test equipment set up properly and l ' on the correct scales, with test leads used as applicable. Observer Instructions in Plant-9 920
Biennial Exercise June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued) Troubleshooting will identify the failure mechanism to be an inoperable Limitorque operator, including the failure of the clutch to engage. The valve will be inoperable in any mode and will remain out of service for the remainder of the exercise. After satisfying the Points of Review for this task, the members of the Emergency Repair Team will enter the drill control mode unless recalled to the OSC.
- 14. Atmospheric Relief Valve MS-V-4A
' At T = 230 (1920 hours), MS-V-4A will fail in the 30% open position. As this valve will be able to secure the radioactive release pathway, staff attention is expected to be focused on closing this valve and terminating the release, i The failure mechanism involves both the control circuit and the valve. The l
Turbine Bypass / Atmospheric Dump Valve Hand Auto Station fails at the 30% l open position. Additionally, valve stem packing tightness will initially prevent manual operation of the valve. Monitor the points of review items associated with this task. The valve will be allowed to close at or beyond T = 330 (2100 hours), but not before so that drill objectives may be met and the timeline established
.with state and federal evaluators may be followed.
The time needed to identify the problems, the time required to assemble, brief, and dispatch an emergency repair team, and the time necessary for the team to assemble tools and equipment and to arrive at the scene will consume some time between the discovery of the failure and the time the scenario can tolerate the component's retum to service. Any action performed at the valve will be successful in closing MS-V-4A any time after T = 330. Until that time, the Emergency Repair Team is to explain, in' detail, the operations attempts, the troubleshooting, and the potential repairs to the valve. If the team's approach to shutting MS-V-4A would cause the valve to close, the Emergency Repair Team may not report success but should enter the Drill Control Mode until T = 330. Then, at T = 330 (2100 hours), read Message IP-4 to the Emergency Repair Team and have them report that they have successfully closed MS-V-4A. At this point, the release will be terminated.
- 15. Personnel Contamination Refer to the Personnel Contamination information provided in the following section.
observer Instructions In Plant-10 9.21
Biennial Exercise June 8,1999 PERSONNEL CONTAMINATION
- 1. Individuals displaying poor radiological contamination control practices will be found to be contaminated at their next frisking station if, in the opinion of the Observer, contamination could have resulted from that individual's actions. Contamination data from the appropriate location as shown in the in l
Plant Rad Con section of the scenario shall be used to assign contamination levels. All such cases of contamination from poor radiological contamination control practices shall be documented. l
- 2. No personnel contamination incidents are designed into this exercise.
Contamination will only occur as a result of improper participant actions.
- 3. Contaminated individuals shall be decontaminated in accordance with approved procedures. All parts of the decontamination process are to be performed with the exception of the removal of clothing for modesty purposes, and the wetting of the individual which could cause damage to clothing.
- 4. Staff evacuation will be performed with pre-designated evacuees only. The Emergency Director wi!! specify which Remote Assembly Area will be used.
When arriving at that facility, none of the evacuees will be found to be contaminated. The Emergency Assembly and Site Evacuation Observer will monitor the frisking process. Observer Instructions l Contamination-1 1 9.22
1999 BIENNIAL ER S THIS PAGE INTENTIONALLY BLANK
Biennial Exercise June 8,1999 CHEMISTRY OBSERVER INSTRUCTIONS
- 1. Arrive at the OSC at T = 0 (1530 hours) to monitor the activation of the OSC and staffing of the Chemistry Coordinator position.
- 2. Monitor and evaluate the activities of the Chemistry Coordinator and staffin accordance with the Points of Review.
- 3. At T = 45 (1615 hours), Reactor Coolant Sample Containment Isolation Valve CA-V-2 will fail in the shut position. This will prevent the drawing of a Reactor Coolant Sample after T = 45.
- 4. At the completion of the drill, participate in an interactive debriefing with the drill participants. The points of review shab be evaluated and areas of strength and weakness should be identified.
- 5. Ensure all equipment is returned to the proper storage location and the chemistry area is returned to pre-drill conditions to the extent possible.
Observer Instructions Chemistry-1 ka
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Biennial Exercise June 8,1999 SECURTY OBSERVER INSTRUCTIONS
- 1. Evaluate drill participant response in accordance with the appropriate Points of Review.
- 2. Access and exit restrictions will not be in effect at the North or South Gate for this drill. Personnel completing their normal work day and those who are not directly involved in the drill will be allowed to leave the island.
- 3. No iridividuals have been staged to act as a missing person for this drill. Full accountability should be achieved.
- 4. The accountability process wi!I be demonstrated by all individuals not specifically exempted from the drill. Site Security personnel shall demonstrate all facets of the accountability process to the Observer. This demonstration will allow the observer to evaluate the participant's ability to use the equipment and the operability of the equipment. All reports associated with the accountability process are to be completed.
- 5. When the accountability process is complete, contact the Emergency Assembly Area Coordinator at 948-5500 (Warehouse 1) or 948-5042 (Warehouse 3). The Emergency Assembly Area Coordinator will not release individuals mustering at the Emergency Assembly Area until receiving this report so that miscellaneous personnel movement will not confuse the 1 accountability process.
- 6. The mustering process will be performed by all personnel on site with the exception of those individuals specifically exempted from the drill. All parts of the mustering process,'all required documentation, and all appropriate contacts and reports will be performed by the Emergency Assembly Area Coordinator. )
- 7. Muster sheets should be collected by a Site Protection Officer or designated i individual in accordance with the Emergency Assembly and Site Evacuation procedure (EPIP-TMI .36). Turn these sheets in with your observer check lists following the drill.
- 8. If needed by personnel involved in the evacuation process, the wind is from the West to North-West at 5 to 10 miles per hour.
- 9. An evacuation will be demonstrated by pre-designated individuals. All contacts, directives, and reports associated with the evacuation process are to be performed as if the evacuation was a full scale evolution and not confined to just the pre-designated evacuees.
10.Upon completion of the drill, ensure the Processing Center and Site Protection functional areas are returned to pre-drill conditions. Observer Instructions Security-1 e.24 I
DRILL 9904 1999 BIENNIAL EXERCISE THIS PAGE , INTENTIONALLY BLANK
1 Biennial Exercise June 8,1999 TSC OBSERVER INSTRUCTIONS
- 1. Arrive at the Technical Support Center at T = -30 (1500 hours) to set up the data link to the Simul tor.
- 2. Evaluate drill participant response using the Points of Review for the Technical Support Center. Items not relevant to drill conditions and activities should be identified as not applicable with an appropriate explanation.
- 3. At T = 45 (1615 hours), loose parts alarm PRF 6-2 will be received in the control room. Using the information supplied, provide data to the operations personnel or TSC engineer responding to the panel to determine the specific ;
areas affected. l
- 4. Multiple plant component failures will occur during the drill. Monitor the support provided to in-plant activities as well as technical support provided to the decision makers. .
- 5. At the completion of the drill, facilitate an interactive debriefing with the drill )'
participants. The points of review shall be evaluated and areas of strength and weakness should be identified.
- 6. At the completion of the drill, ensure all equipment is returned to the proper storage location and the TSC is returned to pre-drill conditions, j
i l Observer Instructions Tech Support Center-1 9.25
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Biennial Exercise June 8,1999 PUBLIC INFORMATION OBSERVER INSTRUCTIONS
- 1. When personnel respond to the Joint Information Center (JIC), provide any media monitoring material to the JIC staff for simulated media broadcast monitoring.
- 2. Use the Points of Review to evaluate drill participant response during the exercise.
- 3. At the completion of the drill, facilitate an interactive debriefing with the drill participants. The points of review shall be evaluated and areas of strength and weakness should be identified.
- 4. Ensure the Joint Information Center is returned to pre-drill conditions.
l t i i Observer instructions Public Information-1 9.26
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1
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Biennial Exercise June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER INSTRUCTIONS
- 1. Proceed to Warehouse 1 at T = 0 (1530 hours) to observe the activation of s the Emergency Assembly Area in accordance with procedure EPIP-TMI .36.
If the Emergency Director selects Warehouse 3 as the muster location based , on plume direction, go to Warehouse 3. '
- 2. All personnel who are not specifically exempted from the drill will participate in the muster process. Do not allow personnel working in the protected area to leave the Emergency Assembly Area after mustering until the Security Observer informs the Emergency Assembly Area Coordinator that the ,
accountability process is completed in the Protected Area. This will prevent the movement of non-drill personnel from confusing the accountability process.
- 3. Before releasing personnel back to their normal duties after mustering, inform the personnel of the following:
. . They must comply with all drill conditions if retuming into the protected area. For example, drill contamination areas are to be treated as actual contamination areas. They are not to enter unless cleared through the Operations Support Center and they don all required protective clothing.
. Only individuals wearing yellow " Exempt" armbands may violate drill conditions / areas.
. Only three individuals, already designated in advance, will be used to demonstrate the evacuation process.
. Once non-essential personnel have mustered and have been released back to their normal duties, they are to ignore all subsequent drill announcements related to evacuation.
- 4. The Emergency Assembly Area Coordinator is to perform all actions, complete all documentation, make all contacts, and forward all reports associated with the muster and evacuation processes with the exception of item 5 below.
- 5. All parts of the process to notify personnel working at the Red Hill dam to evacuate in accordance with the Emergency Assembly and Site Evacuation procedure (EPIP-TMI .36), Exhibit 1, Step 3.1.4 shall be performed with the exception of actual contact with the construction personnel. Travel to the dam and all other parts of the process are to be performed but the actual notification shall not take place to prevent disruption of the fish ladder construction project
- 6. If needed by personnel involved in the evacuation process, the wind is from the West to North-West at 5 to 10 miles per hour.
Observer instructions Assembly / Evacuation-1 9.27
r Biennial Exercise I June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER INSTRUCTIONS (Continued)
- 7. The Emergency Assembly Area Coordinator is to provide the muster sheets to the Site Security representative or designee picking up the completed muster sheets in accordance with EPIP-TMI .36.
- 8. Pre-designated evacuees will demonstrate the evacuation process and exercise the Remote Assembly Area monitoring process. When the -
Emergency Director orders an evacuation, transport the evacuees to the designated Remote Assembly Area or have them travel to the designated location in their own vehicles. Transportation will be available in the company car obtained in step one, but having their personally owned vehicle available at the remote assembly area will expedite their return to home following completion of the evacuation and monitoring objectives.
- 9. The evacuees should be monitored at the Remote Assembly Area in accordance with procedure EPIP-TMI .36 (and EPIP-TMI .27 at the EOF). If none of the pre-designated evacuees have monitoring or decontamination training, Rad Con support should be obtained if the Training Center is selected as the Remote. Assembly Area. If the Emergency Operations Facility is selected, personnel with Rad Con expertise may be present to assist with monitoring. Observe the monitoring process as it is performed and inform the individual performing the survey that no contamination is found as each part of the process is actually performed.
10.When the monitoring evolution is complete, the evacuees may terminate further drill activity.
- 11. At the completion of the drill, debrief the Emergency Assembly Area Coordinator. The points of review shall be evaluated and areas of strength and weakness should be identified.
l l Observerinstructions Assembly / Evacuation-1 928 l
e Biennial Exercise June 8,1999
- EOF CONTROLLER INSTRUCTIONS I
- 1. ' Arrive at the Emergency Operations Facility (EOF) any time around T = 0 (1530 hours) to observe the activation of the facility.
- 2. Use the appropriate Points of Review to evaluate drill participant response to exercise activities;
- 3. Several events will occur during the course of the exercise that could require i off-site assistance or contact with off site agencies. The off-site notification ,
process will be made and completed in its entirety. Calls to entities such as INPO, other utilities, vendors and the like are also to be made. Allow the drill ,
. participants to produce the applicable telephone numbers and complete the contact. Ensure the drill participant clearly communicates to the called party that this is a drill. Confirm if the needed assistance or material is available f from that agency, but stop the process at the point where follow up or j response activities would be required from the called party and/or costs would be incurred to continue the process. Repeating, be very sure the drill l participant clearly communicates to the called party that this is only a drill.
- 4. The responsibility for the completing the off site notification process is no longer automatically transferred from the Emergency Control Center to the Emergency Operations Facility when the EOF is manned. The transfer of the process still remains as an option for the Emergency Director and the ECC Communicators, but it is expected that the Emergency Control Center and '
' Emergency Director will retain the responsibilities for off site notifications for all levels of emergency declaration and all escalations. If notification responsibilities are transferred to the EOF, monitor the process. Ensure drill i demands placed upon state and county emergency management agencies are held to a minimum. For example, if the Communicator fails to cancel the ring tone on the Notification Line, intervene and cancel the ring tone yourself.
Any intervention necessary to lessen drill impact on state / county dispatch I centers shall be noted in your Observer Comments.
- 5. At the completion of the drill, facilitate an interactive debriefing with the drill participants. The points of review shall be evaluated and areas of strength and weakness should be identified.
- 6. Ensure all equipment is returned to the proper storage location and the Emergency Operations Facility is returned to pre-drill conditions.
i Observer Instructions EOF-1 9.29
1 l DRILL 9904 1999 BIENNIAL EXERCISE TH S PAGE NTENT ONALLY BLANK 1 l L__ __ ..
1 i Biennial Exercise June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER INSTRUCTIONS
- 1. Arrive at the Emergency Operations Facility at T = 0 (1530 hours) to observe the activation of the Group Leader-Radiological and Environmental Controls position.
- 2. Monitor the performance of the Group Leader-R&EC and staff and the response to the emergency. Evaluate drill participant response using the appropriate Points of Review.
- 3. At the completion of the drill, facilitate an interactive debriefing with the drill participants. The points of review shall be evaluated and areas of strength and weakness should be identified.
- 4. At the completion of the drill, ensure all equipment is retumed to the proper storage location and the Group Leader-R&EC functional area is retumed to pre-drill conditions to the extent possible.
Observer instructions R&EC-1 9.30
DRILL 9904 1999 BIENNIAL EXERCISE I TH S PAGE , INTENT ONALLY I BLANK s
Biennial Exercise June 8,1999 ENVIRONMENTAL ASSESSMENT COMMAND CENTER OBSERVER INSTRUCTIONS
- 1. Arrive at the EOF at T = 0 (1530 hours) to observe the facility activation.
- 2. Provide the hard copy of the weather forecast data to the drill participants.
Ensure the participants understand that canned meteorology is being used for this drill to allow for better drill control. The data being used is based on actual information collected on January 7,1999. Two special instructions are associated with and included in this data.
. Thirty degrees were added to any temperature data.
. Forecasts for snow, sleet, or freezing rain were modified to be a
- forecast for rain.
- 3. Monitor the performance of the Environmental Assessment Coordinator and staff and their response to the emergency.
- 4. At the completion of the drill, facilitate an interactive debriefing with the drill participants. The points of review shall be evaluated and areas of strength and weakness should be identified.
- 5. At the completion of the drill, ensure all equipment is returned to the proper storage location and the EACC area is retumed to pre-drill conditions.
observer instructions EACC-1 9.31
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Biennial Exercise June 8,1999 EOF TECHNICAL SUPPORT OBSERVER INSTRUCTIONS
- 1. Arrive at the Emergency Operations Facility at T = -30 (1500 hours) to set up the data link to the Simulator.
- 2. Evaluate the performance of the drill participants in accordance with the appropriate Points of Review.
- 3. Review the performance criteria shown in the Points of Review section below with the facility staff when the drill is terminated.
- 4. At the completion of the drill, ensure all equipment is returned to the proper storage location and the EOF is returned to pre-drill conditions.
I l 1 Observer instructions EOF Tech Support-1 9.32 I
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r 1 Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW
- 1. Emergency Director Points of Review !
The Emergency Director responsibilities are many and varied, and require many judgment based decisions. The following Points of Review shall be used to assist in an objective evaluation of his performance. The requirements of the Emergency Direction procedure (EPIP-TMI .02) and Event Classification and Basis procedure (EPIP-TMI .01) shall be referenced as a basis for satisfactory criteria. items performed by more than one Emergency Director shall be evaluated for each individual.
- a. Demonstrate effective staffing of the Emergency Director position. The initial Response Emergency Organization individual must understand plant status as known and operations in progress before assuming ;..s position. The Emergency Director must identify himself as such. (objectives c02, c03, c04)
- b. Demonstrate effective and coordinated command and control. (objective C01)
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public?
- 4. Does the individual maintain 'the big picture" and refrain from being drawn into plant operation and details better left to others?
- 5. Are all significant orders, guidance, and instruction going into and out of the ECC through the facility leader? Is it clear who is in charge?
- 6. Is the staff appropriately briefed so that they understand the situation? Is
{ the information clear and accurate? Are the briefings at frequent intervals? Are priorities established? -
- c. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (objectives E01, E02, E03)
- d. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas ;
solicited from staff members? (Objective E07) !
- e. Demonstrate the ability to respond appropriately to inconsistent information. l Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
POINTS of REVIEW ECC Controller-1 POR-1
1 Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued)
- f. Demonstrate the ability to identify and classify an emergency condition within fifteen minutes when such conditions exist. (Objective A01)
- g. Demonstrete the ability to provide an accurate and signed Emergency Report Form to the Communicator (s) within five minutes of the declaration of the event for notifications and station announcements. (Objective E08, E14) j
- h. Demonstrate effective procedure utilization. Are the procedures referenced? l Do the EPIP's provide sufficient direction and guidance? Are check lists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives A05, D03, E04)
- i. Demonstrate the ability to provide and/or solicit an effective turn over. Items such as plant status, priorities established, mitigating actions taken and in progress, actions remaining, and off site contacts should be included.
(Objectives C04, E07) J. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency vfhout the requirement for additional eq'uipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, EOS)
- k. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. Are the priorities established the most effective for mitigating the consequences of the incident? If plant conditions permit, is the need for additional personnel and/or additional support facilities identified early enough that the resources are activated and functional befcre or as needed (i.e., is the need to play
" catch up" eliminated as much ras possible)? Is technical support requested as appropriate? Is the technica,t support adequate? (Objectives A02, CO2)
- 1. Demonstrate the ability to properly provide a Protective Action Recommendation if the EOF is not functional and if applicable. Is the PAR proper for conditions? Is the PAR provided to the state within fifteen minutes j of the General Emergency declaration? Is the PAR provided to the senior official at the state EOC? (Objectives B10, B13, B14, E12)
- m. Demonstrate that the facility is adequate to achieve the mission, is sufficient {
space dedicated to all functions for proper emergency response? (NOTE: Do ) not include non-participants / observers when making this determination.) is ventilation adequate? (Objective D02) 1 POINTS of REVIEW ECC Controller-2 PoR-2
a-Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued) EMERGENCY DIRECTOR POINTS of REVIEW OBSERVER NAME:
. POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification.
Use additional comment sheets as necessary.
- a. Staffing the Emergency Director position Yes / No / NA
- b. Command and Control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA 1
l I
- c. Communications equipment l Yes / No / NA
- d. Communications skills l Yes / No / NA POINTS of REVIEW ECC Controller 3 PoR 3
Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued) EMERGENCY DIRECTOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. . SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- e. Response to inconsistent information Yes / No / NA
- f. Identification and classification of event N/A
- 1. Unusual Event Yes / No / NA
- 2. Alert Yes / No / NA
- 3. Site Area Emergency Yes / No / NA
- 4. General Emergency Yes / No / NA
- 0. Timely completion of Emergency Report Form N/A
- 1. Unusual Event Yes / No / NA
- 2. Alert Yes / No / NA
- 3. Site Area Emergency Yes / No / NA
- 4. General Emergency Yes / No / NA
- h. Procedures and log keeping Yes / No / NA
- 1. EPIP-TMI .02 Yes / No / NA
- 2. EPIP-TMI .01 Yes / No / NA POINTS of REVIEW ECC Controller-4 POR.4
Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued) EMERGENCY DIRECTOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- i. Turn over Yes / No / NA J
- j. Equipment l Yes / No / NA
- k. Resources l Yes / No / NA
- 1. Protective Action Recommendation l Yes / No / NA I
- m. Facility l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW ECC Controller-5 POR-5
Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued)
- 2. Emergency Control Center Staff As a tool to assist in the objective evaluation of the Emergency Control Center personnel response, the following Points of Review are to be used. The general points are listed below and evaluation criteria for each key support position is provided. ,
- a. Demonstrate adequate staffing. Are all positions staffed? Is the facility able to function for at least 30 minutes with the Emergency Plan Table 6 minimum staffing? Are adequate relief personnel identified? (Objectives CO2, C07)
- b. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- c. Demonstrate effective communications skills. Are three way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07)
- d. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- e. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- f. Demonstrate the ability to provide and/or solicit an effective turn over. Items such as plant status, priorities established, mitigating actions taken and in progress, actions remaining, and off site contacts should be included.
(Objectives C04, E07)
- g. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (Objectives A02, CO2) :
- h. Demonstrate the ability to provide adequate support to the Emergency Director and his mission. (Objective C02)
- 1. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, E05)
POINTS of REVIEW ECC Controller-6 POR-6
Biennial Exercise 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued) EMERGENCY CONTROL CENTER STAFF POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY . All points marked "N/A" require justification. ; Use additional comment sheets as necessary.
- a. Staffing Yes / No / NA i I
- b. Communications equipment l Yes / No / NA
- c. Communications skills l Yes / No / NA
- d. Response to inconsistent information l Yes / No / NA
- e. Use of procedures and log keeping l Yes / No / NA
- f. Turn over l Yes / No / NA POINTS of REVIEW ECC Controller-7 POR-7
Birnnial Ex:rciso 9904 June 8,1999 ECC CONTROLLER POINTS of REVIEW (Continued) EMERGENCY CONTROL CENTER STAFF POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- g. Resources Yes / No / NA
- h. Mission support l Yes / No / NA
- i. Equipment l Yes / No / NA a
COMMENTS (Reference point of review number.) Use additional sheets as necessary l POINTS of REVIEW ECC Controller-8 POR-8
Biennial Exercise 9904 June 8,1999 COMMUNICATIONS OBSERVER POINTS of REVIEW
- 1. ECC Communicator Points of Review The following Points of Review shall be used to assist in an objective evaluation of the ECC Communicators' performance. Items performed by more than one Communicator shall be evaluated for each individual. The requirements of the Emergency Notifications and Call Outs procedure (EPIP-TMI .03) shall be referenced as a basis for satisfactory criteria.
- a. Demonstrate effective staffing of the required emergency positions. Are all positions staffed in a timely manner? For On-Shift Communicators, the time to terminate any task in progress and leave it in a safe condition before reporting directly to the ECC is considered timely. Initial Response Emergency Organization Communicators must report within one hour from the time paged to satisfy the response criterion is the facility able to function for at least 30 minutes with the Emergency Plan minimum staffing? Are adequate relief personnel identified? (Objectives c02, c03, c07)
- b. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- c. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- d. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07)
- e. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- f. Demonstrate the ability to commence off site notifications within five minutes of event declaration. The communicator must aggressively pursue the receipt of a completed and signed Emergency Report Form from the Emergency Director and begin notifications. (Objective E08)
- g. Demonstrate the ability to make notifications to the five risk counties and the state within fifteen minutes of event declaration. (Objective E08)
- h. Demonstrate the ability to notify the U.S. Nuclear Regulatory Commission of event declarations as soon as possible but within one hour of the declaration.
(Objective E12, E13) POINTS of REVIEW Communications Observer-1 POR-9 U
l l Biennial Exercise 9904 l l June 8,1999 COMMUNICATIONS OBSERVER POINTS of REVIEW (Continued)
- 1. Demonstrate the ability to activate emergency response organization personnel through the use of group pagers in a timely manner. As pager activation is one of the initial procedure steps, this should be done within approximately five minutes or immediately following receipt of the Emergency Report Form. Confirmation of personnel response is considered timely if all Emergency Plan required positions are staffed or altemates identified and called within one hour of pager activation. Are the pagers activated within five minutes of the receipt of the Emergency Notification Form? If applicable, are the pagers reactivated within twenty minutes of the receipt of the Emergency Notification Form if the first activation was not successful? Are all required positions manned within one hour from pager activation? (objectives C03, E10)
- j. Demonstrate the ability to provide adequate station announcements. Are the announcements made within fifteen minutes of an event declaration? Is the information provided accurate? Is the information understandable? (objectives E09, E14)
- k. Demonstrate the ability to provide and/or solicit an effective tum over.
(objectives C04, E07)
- 1. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (objectives c02, D01)
- m. Demonstrate the ability to coordinate communications repairs. (objective D03, E01)
- n. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (objective D02)
- o. Demonstrate that the equipment is adequate to achieve the mSsion. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, EOS)
[ Points of Review Checklists on following pages] PolNTS of REVIEW Communications observer-2 POR-10 I
Biennial Exercise 9904 June 8,1999 COMMUNICATIONS OBSERVER POINTS of REVIEW (Continued) l ECC COMMUNICATOR POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary
- a. Staffing of emergency positions Yes / No / NA
- b. Use of procedures l Yes / No / NA
- c. Communications equipment l Yes / No / NA I
- d. Communications skills l Yes / No / NA
- e. Response to inconsistent information l Yes / No / NA
- f. Notifications commenced within ~ 5 minutes N/A
- 1. Unusual Event Yes / No / NA
- 2. Alert Yes / No / NA
- 3. Site Area Emergency Yes / No / NA
- 4. General Emergency Yes / No / NA POINTS of REVIEW Communications Observer-3 POR-11
)
I
Bi:nnial Exerciss 9904 June 8,1999 COMMUNICATIONS OBSERVER POINTS of REVIEW (Continued) ECC COMMUNICATOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW pol!1T of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary g.15 minute off site notifications
- 1. Unusual Event Yes / No / NA l 2. Alert Yes / No / NA
- 3. Site Area Emergency Yes / No / NA
- 4. General Emergency Yes / No / NA l
l l l h.1 hour NRC notification N/A __1 Unusual Event Yes / No / NA
- 2. Alert Yes / No / NA
- 3. Site Area Emergency Yes / No / NA '
- 4. General Emergency Yes / No / NA
- i. Group pager call out N/A
- 1. On Shift Emergency Organization (1) Yes / No / NA
- 2. Initial Response Emergency Organization (2) Yes / No / NA
- 3. Emergency Support Organization (3) Yes / No / NA J. Station announcements l Yes / No / NA POINTS of REVIEW Communications Observer-4 POR-12
Biennial Exercise 9904 June 8,1999 COMMUNICATIONS OBSERVER POINTS of REVIEW (Continued) ECC COMMUNICATOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary
- k. Turn over Yes / No / NA
- 1. Resources l Yes / No / NA
- m. Coordinate communications repairs l Yes / No / NA
- n. Facility l Yes / No / NA
- o. Equipment l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW Communications Observer-5 POR-13 l
F i
, l Biennial Exercise 9904 June 8,1999 OPERATIONS EVALUATOR POINTS of REVIEW
- 1. Operations Staff Points of Review Operator actions and responses to plant conditions are outside the scope of review for an emergency exercise and are addressed through normal Operator training channels for resolution of deficient areas. The Points of Review listed below cover items specifically relating to the Emergency Plan.
- a. Demonstrate that sufficient staff exists to meet Emergency Plan requirements and continue to operate and monitor the plant. The staff should be able to balance plant control with Emergency Plan requirements with the priority given to plant safety. (Objective c02)
- b. Demonstrate adequate communications equipment is availatie to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- c. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to
. information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07) d Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- e. Demonstrate sensitivity to the off site impact of plant conditions and staff actions. Does the staff consider actions which will mitigate off site impact?
(Objectives A03, B05)
- f. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Is the staff able to identify conditions requiring event declaration? Are checklists used and completed as appropriate? Do the emergency operating procedures provide sufficient direction and guidance? Are logs maintained such that the event can be reconstructed? (Objectives A01, A05, D03, E04)
- g. Demonstrate the ability of the operations staff to maintain plant safety to the extent allowed. Do the operators correctly assess plant conditions? Is their assessment systematic? Do they initiate mitigating activities? Do they place or attempt to place the plant in a safe condition? (Objectives A02, A03, A04) l
- h. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (Objective D02) l POINTS of REVIEW Operations Evaluator-1 POR-14
l Biennial Exercise 9904 - June 8,1999
)
OPERATIONS EVALUATOR POINTS of REVIEW (Continued) 1, Demonstrate that the equipment is adequate to achieve the mission. Is i sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, EOS) OPERATIONS STAFF POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Adequate staffing Yes / No / NA
- b. Communications equipment l Yes / No / NA
- c. Communications skills l Yes / No / NA
- d. Response to inconsistent information l Yes / No / NA
- e. Off site impact sensitivity l Yes / No / NA
- f. Procedures and log keeping l Yes / No / NA POINTS of REVIEW Operations Evaluator-2 POR-15
1 l Biennial Exercise 9904 June 8,1999 i, OPERATIONS EVALUATOR POINTS of REVIEW (Continued) OPERATIONS STAFF POINTS of REVIEW ) OBSERVER NAME: I POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- g. Maintain plant safety Yes / No / NA 1
- h. Facility l Yes / No / NA
- 1. Equipment l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary j
I POINTS of REVIEW l Operations Evaluator-3 POR-16
( Biennial Exercise 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW
- 1. Radiological Assessment Center Points of Review The following Points of Review shall be used to assist in an objective evaluation of the Radiological Assessment Center staff performance. The Activation of the RAC procedure (EPIP-TMI .07) and the Emergency Dose Calculation Manual (6610-PLN-4200.02) shall be referenced as a basis for satisfactory criteria.
Items performed by more than one individual shall be evaluated for each individual. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the comments section.
- a. Demonstrate effective staffing of the. required emergency positions. Are all positions staffed in a timely manner? Is the facility able to function for at least 30 minutes with the Emergency Plan minimum staffing? Are adequate relief personnel identified? (objectives co2, cos, co7)
- b. Demonstrate effective and coordinated command and control by the Radiological Assessment Coordinator. (objective co1)
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public?
- 4. Does the RAC maintain "the big picture" and refrain from being drawn into operations and details better left to others? ,
- 5. Are all significant orders, guidance, and instruction going into and out of !
the RAC through the facility leader? Is it clear who is in charge?
- 6. Is the staff appropriately briefed so that they understand the situation? Is l the information clear and accurate? Are the briefings at frequent !
intervals? Are priorities established?
- c. Demonstrate effective communications. (objectives B12 Eo3, E06, Eo7, E11, E12)
. Are three-way communications used? )
. Are orders and direction clear? !
e is the RAC receptive to information and suggestions from the staff? e Are information and ideas solicited from staff members? e Are members of the RAC staff continually updated on conditions? l
- ls the Emergency Director informed of changing conditions and l completed assessments? )
l . Is the RAC interface with the Group Leader R&EC effective? e Does the RAC staff respond appropriately to inconsistent information? e is the BRP provided with the information and support needed to fulfill its mission? l POINTS of REVIEW RAC Controller-1 t POR-17
Biennial Exercise 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW (Continued)
- d. Demonstrate that the equipment is adequate to achieve the mission.
(Objectives D01 E05)
. Does the equipment function as designed?
. Is the equipment used as intended?
. Does the equipment assist personnel with their mission?
. Is available data display adequate for the mission?
- e. Demonstrate effective procedure utilization. (Objectives B06, E02, E04)
. Are the procedures referenced?
. Is the Dose Assessment User's Manual in the EDCM used effectively?
. Do the EPIP's provide sufficient direction and guidance?
. Are checklists used and completed?
. Are logs maintained such that the event can be reconstructed?
. Are monitoring activities performed in accordance with appropriate procedures?
- f. Demonstrate the ability to gather and interpret data. (Objectives Boi,803, Bos, 808)
. Does the team effectively utilize RMS readings?
. Are the monitoring teams adequately deployed to determine off site doses?
. Is a correlation made and understood between field team readings and dose projections?
- g. Demonstrate the ability to provide timely dose projections. (Objectives B01, B03, B04, B05)
. Are iodine plate out, conservative reductions, and level of accuracy considered? .
. Does the RAC initiate manual RAC code calculations?
. Are the dose projections validated and presented to the Emergency Director in a timely manner? A timely manner is considered to be within 30 minutes for the initial dose projection and approximately 15 minutes thereafter.
. Are EAL recommendations based on dose provided to the Emergency Director?
- h. Demonstrate the ability to dispatch and coordinate field monitoring teams. Is the initial field team dispatched within thirty minutes? Are communications with on-site and off-site teams adequate? (Objectives B09, E03)
- i. Demonstrate coordinate of activities with the TSC. (Objective A02, BOS)
. Is TSC support used to determine leak rate?
. Is the TSC support adequate?
. Is TSC support used to determine failed fuel?
POINTS of REVIEW RAC Controller-2 POR-18
Bi:nnial Exercisa 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW (Continued) J Demonstrate a proactive approach to minimizing radiation dose to the extent possible. (objectives 802, B07, F02)
. Are considerations and suggestions provided to the Emergency Director to reduce on site and off site doses?
. Are in-plant and field team doses monitored and ALARA techniques employed?
. Are teams apprised of plant conditions and expected plume doses?
. Is the evacuation route for non-essential personnel specified to minimize exposure to the plume?
- k. Demonstrate the ability to request and analyze appropriate samples to assist in evaluating conditions. (objectives B03,808)
. Are appropriate samples requested?
o CAT-PASS a RCS PAS o MAP o OTSG. o Other
. Are teams sent to appropriate locations?
. Are appropriate samples and readings requested?
. Are samples promptly analyzed?
. - Is the information obtained useful and understood?
- l. Demonstrate the ability to assist the Emergency Director with a Protective ,
Action Recommendation, if appropriate. Is the PAR developed within fifteen ' minutes? (objectives B10, B13, B14)
- m. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (Objective D01, l CO2)
- n. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (objective 002) l l
b- Points of Review Checklists are found on the following pages. l POINTS of REVIEW RAC Controller-3 POR 19
Biennial Ex:rciss 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW (Continued) RADIOLOGICAL ASSESSMENT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency positions Yes / No / NA
- b. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA
- c. Communications skills l Yes / No / NA 1
- d. Equipment l Yes / No / NA
- e. Procedure utilization, log keeping l Yes / No / NA POINTS of REVIEW RAC Controller-4 POR-20
Biennial Exercise 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW (Continued) RADIOLOGICAL ASSESSMENT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY
- All points marked "N/A" require justification.
Use additional comment sheets as necessary.
- f. Data gathering, interpretation, and use Yes / No / NA
- g. Dose projections l Yes / No / NA
- h. Field monitoring teams l Yes / No / NA
- i. TSC support l Yes / No / NA J. Dose reduction activities l Yes / No / NA POINTS of REVIEW RAC Controller-5 POR-21
i Biennial Exercise 9904 June 8,1999 RAC CONTROLLER POINTS of REVIEW (Continued) RADIOLOGICAL ASSESSMENT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- k. Samples Yes / No / NA
- 1. Protective action recommendations l Yes / No / NA
- m. Resources l Yes / No / NA (
l
- n. Facility l Yes / No / NA l
COMMENTS (Reference point of review nurnber.) Use additional sheets as necessary I POINTS of REVIEW RAC Controller-6 POR-22 i 1 o
Biennial Exercise 9904 June 8,1999 FIELD TEAM OBSERVER POINTS of REVIEW
- 1. . Field Monitoring Team Points of Review The following Points of Review shall be used to assist in an objective evaluation of the Field Monitoring Teams' performance. The Onsite/Offsite
' Radiological / Environmental Monitoring procedure (EPIP-TMI .10) shall be referenced as a basis for satisfactory criteria. Items performed by more than . . one individual shall be evaluated for each individual. On-going processes are to be evaluated as an over-all assessment with positive or negative
, exceptions noted in the Comments section.
- a. Demonstrate sufficient staff exists to adequately perform the function. Are the positions filled in a timely manner? The ability to dispatch up to two teams within one half hour of the emergency declaration is considered timely. Supplemental personnel such as Environmental Affairs personnel must commence operations within 30 minutes from the time assigned to satisfy the response criterion. (Objectives B09, CO2)
- b. Demonstrate effective communications. Are three-way communications used? Are orders and direction clear? Is appropriate radio discipline practiced? Is the response to inconsistent information appropriate? Are proper units stated with readings? Are personnel familiar with the operation of the equipment? (Objectives E02, E03, E06, E07)
- c. Demonstrate that adequate equipment is available for the mission. Are
. the Emergency Kits stocked appropriately? Does the communications equipment function as designed? Is the vehicle in good working order?
Does the monitoring equipment function as designed? Are the drill participants familiar with the operation of the equipment? (Objective 001)
- d. Demonstrate effective procedure utilization. Are the procedures referenced? Are monitoring activities performed in accordance with appropriate procedures? Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Is effective log keeping practiced so that the activities can be accurately recreated? (Objectives B06, D03, E04)
- e. Demonstrate safe driving practices while obtaining data. Are speeds within the legal limit? Does the driver avoid impeding normal traffic flow?
Is the vehicle out of the travel lane when stopped? Is the amber waming beacon used? Are seat belts used? Is the driver attentive to his/her driving? (Objective F01)
- f. Demonstrate effective team dose monitoring. Are doses monitored? Is guidance provided to prevent exceeding limits? Is the ALARA concept !
used? (Objectives 802,807. E03, F02) l i POINTS of REVIEW Field Team Observer-1 POR-23
Biennial Exercise 9904 June 8,1999 FIELD TEAM OBSERVER POINTS of REVIEW (Continued)
- g. Demonstrate the ability to obtain the needed samples and data. Are the correct samples obtained? Are the sample locations as directed? Are samples labeled to in accordance with procedures? Is the staff competent in fulfilling their mission? (Objectives Bos,808)
FIELD MONITORING TEAM POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency positions Yes / No / NA
- b. Communications l Yes / No / NA
- c. Equipment l Yes / No / NA
- d. Procedure utilization, log keeping l Yes / No / NA
- e. Safe driving l Yes / No / NA POINTS of REVIEW Field Team Observer-2 POR-24
o Biennial Exercise 9904 June 8,1999 FIELD TEAM OBSERVER POINTS of REVIEW (Continued) FIELD MONITORING TEAM POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Team dose monitoring Yes / No / NA
- g. Sample and data gathering l Yes / No / NA COMMENTS (Reference point of review number) Use additional sheets if r'ecessary.
l l l l POINTS of REVIEW Field Team Observer-3 POR-25
Biennial Exercise 9904 1 June 8,1999 I OSC CONTROLLER POINTS of REVIEW
- 1. Operations Support Center Points of Review . I The following Points of Review shall be used to assist in an objective evaluation of the Operations Support Center staff's performance. The requirements of the OSC Operations procedure (EPIP-TMI .29) shall be referenced as a basis for
. satisfactory criteria. Items performed by more than one individual shall be evaluated for each person. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the comments section.-
- a. Demonstrate effective staffing of the Emergency Plan Table 6 required positions. Are the positions filled in a timely manner? For On-Shift personnel, the time to terminate any task in progress and leave it in a safe condition before reporting directly to the OSC is considered timely. Initial Response Emergency Organization personnel must report within one hour from the time paged to satisfy the response criterion. Is the facility able to function for at
)
least 30 minutes with the Emergency Plan minimum staffing? Are adequate relief personnel identified? (objedives co2, cos, co7)
- b. ' Demonstrate the ability to provide and/or solicit an effective turn over. Items discussed should include such items as plant status, priorities established, mitigating actions taken and in progress, and actions remaining. (objedives C04, E07)
- c. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objedives Do3, E04)
- d. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (objedive Do2)
- e. Demonstrate effective and coordinated command and control by the OSC Coordinator. (Objective C01)
.1. Are orders clear end concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety 1
. . of the staff and public? l
- 4. Does the individual maintain "the big picture" and refrain from being drawn into plant operation and details better left to others?
- 5. ' Are all significant orders, guidance, and instruction going into and out of the OSC through the facility leader? Is it clear who is in charge?
POINTS of REVIEW OSC Controller-1 PoR-26 l 1
l Biennial Exercise 9904 June 8,1999 OSC CONTROLLER POINTS of REVIEW (Continued)
- f. 'Is the staff appropriately briefed so that they understand the situation? Is the information clear and accurate? Are the briefings at frequent intervals? Are priorities established? (objectives E03, E07)
- g. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, E05)
- h. Demonstrate the ability to dispatch teams from the OSC in a timely manner.
Are the teams with the appropriate skills assembled in a timely manner? Are the technical and radiological briefings adequate and completed in a timely manner? Are the teams logged on the tracking board in a timely manner? Are avoidable delays in the process experienced? (Objective c05)
- i. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency. communications syatems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipmer:t function as designed? (Objectives E01, E02)
- j. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objectives E07)
- k. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- 1. ~ Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. If plant conditions permit, is the need for additional personnel and/or additional support facilities identified early enough that the resources are activated and functional before or as needed (i.e., is the need to play " catch up" eliminated as much as possible)? (objectives c02, D01)
- m. Demonstrate the ability to coordinate Potassium lodide distribution to the staff if directed. Are affected individuals identified properly? Ar's
( . communications with the Medical Representative clear and understandable?
- l. - Are the affected staff members provided clear instruction and informed of potential side effects? Is " Thyroid Blocking" procedure EPIP-TMI .44 followed?(Objective F08)
POINTS of REVIEW OSC Controller-2 POR-27 i_ - . _
Biennial Exercise 9904 June 8,1999 OSC CONTROLLER POINTS of REVIEW (Continued) OPERATIONS SUPPORT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary,
- s. Staffing of emergency positions Yes / No / NA
- b. Tum over l Yes / No / NA
- c. Procedure utilization, log keeping l Yes / No / NA
\
\
- d. Facility l Yes / No / NA
- e. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA POINTS of REVIEW OSC Controller 3 POR-28
i i l Birnniti Ex:rciss 9904 June 8,1999 OSC CONTROLLER POINTS of REVinW (Continued) OPERATIONS SUPPORT CENTER POINTS of REVIEW OBSERVER NAME: l POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Briefings Yes / No / NA
- g. Equipment l Yes / No / NA
- h. Team Dispatch l Yes / No!NA
- i. Communications equipment l Yes / No / NA
- j. Communications skills l Yes / No / NA
- k. Response to inconsistent information l Yes / No / NA POINTS of REVIEW OSC Controller-4 POR-29
Biennial Exercise 9904 June 8,1999 OSC CONTROLLER POINTS of REVIEW (Continued) OPERATIONS SUPPORT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW A!! points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- 1. Resources Yes / No / NA
- m. Potassium lodide l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW OSC Controller-5 l
POR-30 I
e i Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW IN PLANT ACTMTIES TEAM POINTS of REVIEW Actual plant configuration cannot be altered due to drill activities. The manipulation, disassembly, and repair of components are not demonstrable objectives for teams dispatched into the plant during the exercise. The following Points of Review shall be used to assist in an objective evaluation of the in-plant staff's performance. The requirements of the OSC Operations procedure (EPIP-TMI .29) shall be referenced as a basis for satisfactory criteria. Items performed by more than one individual shall be evaluated for each individual. < On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- 1. Radiolooical Controls - Teams / personnel dispatched to take surveys, obtain 1 samples, and monitor conditions shall as appropriate:
- a. Demonstrate the ability to address priorities and support activities in the q order set by the Emergency Director. (Objectives CO2, E01) '
- b. Demonstrate the ability to assign a Rad Con Tech or other knowledgeable individual to the task in a timely manner. Timely is defined as soon as possible with the manpower available without causing an assignment of higher priority to be delayed or without causing another task to left in an unsafe condition. (Objective c02)
- c. Demonstrate that the individual clearly understands the assignment and general plant conditions. The briefing shall also address any safety '
concerns associated with the task. (Objectives E07, F01)
- d. Demonstrate the ability to procure all items needed to actually perform the task. This includes but is not limited to documentation, monitoring instruments, survey maps, sample devices, protective clothing, and respiratory protection (as applicable) necessary to complete the assignment. (Objective D01)
- e. Demonstrate the ability to locate and gain access to all areas assigned.
Areas located within real radiologically controlled areas may be confirmed verbally with the individual using layout drawings or discussion. (NOTE: With the exception of radiation areas only, actual radiologically controlled areas shall not be entered for drill activities.) Locations not in radiologically restrictive areas must actually be accessed. (Objective A03)
. f. Demonstrate the ability to select, set up, and utilize any radiological monitoring equipment or sample device required for the task. The individuals must actually prepare and operate the equipment. Connecting or attaching any sample container or device to plant components shall ngt be performed. (Objectives B06. B08) 1 POINTS of REVIEW in Plant-1 POR-31
Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued) IN PLANT ACTIVITIES TEAM POINTS of REVIEW (Continued) Radioloaical Controls (Continued)
- g. Perform Radiological Postings - Posting of areas, rooms, and buildings shall actually be performed and shall be identified as being drill related.
Are the postings appropriate for conditions? Are they installed in a timely manner? Are all points of entrance posted? (Objective F02)
- h. Demonstrate decontamination of contaminated personnelif warranted.
The evolution shall require the performance of the decon process. In the interest of modesty and to prevent destruction of clothing, the actual
- removal of individuals' personal clothing and showering shall be simulated. (Objective FOS)
- i. Demonstrate the ability to obtain supplemental information, guidance, or support for a task if necessary. Any such guidance, information, or support shall actually be obtained. (Objectives co2, D01)
- j. Demonstrate the ability to provide periodic status reports to supervision so that they remain informed of conditions, progress, and problems. Is supervision kept current on known information? Is the information correct? (Objective E03)
- k. If directed, a Reactor Coolant System Post Accident Sample may actually be drawn. However, a CAT-PAS shall not actually be drawn. Is the effect of taking the sample on future operations and samples considered? Is the sample drawn in accordance with procedures? Is radiological and contamination protection adequate? Is the sample handled with appropriate care? (Objectives 806,808, B11, F02)
POINTS of REVIEW in Plant-2 PoR-32
1 Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued) IN PLANT RAD CON POINTS of REVIEW- Sheet 1 of 2 OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. ; Use additional comment sheets as necessary. I
- a. Task addressed in accordance with priorities Yes / No / NA
- b. Individual assigned in a timely manner l Yes / No / NA
- c. Adequate task briefing l Yes / No / NA
- d. Equipment procurement adequate l Yes / No / NA
- e. Ability to locate / access subject areas l Yes / No / NA
- f. Ability to utilize equipment l Yes / No / NA
- g. Adequate posting of area / room building Yes / No / NA POINTS of REVIEW in Plant 3 POR-33 l
)
3
I Bi:nnial Ex:rciso 9904 ) June 8,1999 l lN PLANT ROVER INSTRUCTIONS (Continued) IN PLANT RAD CON POINTS of REVIEW (Sheet 2 of 2) OBSERVER NAME. POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- h. Decontamination proficiency Yes / No / NA
- i. Ability to obtain supplemental information/ assistance l Yes / No / NA J. Supervision provided status reports l Yes / No / NA
- k. Post accident samples l Yes / No / NA
, COMMENTS (Reference po'nt of review number.) Use additional sheets as necessarv f l POINTS of REVIEW in Plant-4 POR-34
Biennini Exerciss 9904 June 8,1999 f IN PLANT ROVER POINTS of REVIEW (Continued)
- 2. Troubleshootina/Reoairs/Insoections - Teams / personnel dispatched to troubleshoot or repair a component or system or to make an inspection shall:
- a. Demonstrate the ability to address priorities in the order set by the l Emergency Director. (objective co2) -
- b. Demonstrate the ability to assemble an Emergency Repair Team with the appropriate number of personnel from the disciplines required for the task in a timely manner. Timely is defined as soon as possible with the manpower available without causing an assignment of higher priority to be delayed or without causing another task to left in an unsafe condition. (objectives Co2,E01)
- c. Demonstrate that an adequate technical briefing is received by the Emergency Repair Team members. An adequate technical t'riefing occurs when the personnel clearly understand their assignment and can initiate troubleshooting or repairs without the need for additional guidance. Any documentation such as drawings, prints, procedures, and technical manuals needed to brief the Emergency Repair Team must be produced during the briefing. The briefing shall also address any safety concerns associated with the assignment. (objectives E07, F01)
- d. Demonstrate that an adequate radiological briefing is received by the Emergency Repair Team members. An adequate radiological briefing occurs l when the personnel clearly understand radiological conditions and i restrictions at the job site and along the route to and from the job site. I Guidance shall include radiological hold points (if applicable), protective i clothing to be worn, and monitoring to be performed. The assignment of a Rad Con Tech to cover the specific task will satisfy the requirement to provide radiological information to the team especially when conditions are changing or expected to change. (objective F02)
- e. Demonstrate the ability to procure all items needed to actually perform the task. This includes, but is not limited to hand tools, test equipment, supplemental lighting, protective clothing, documentation (including drawings, prints, procedures, and technical manuals), keys, ladders, etc.
These items must actually be produced at the job site. Repair parts and hardware shall actually be obtained and brought to the work site. In instances where issue or movement of a component could compromise the nuclear safety or quality control status of the item (thus removing the availability of the component for actual plant repairs), the drill observer may allow issue of the part to be simulated on a case by case basis. If simulated, the part must j still be identified in the stores system and availability confirmed. Simulated relocation of the part shall require all support activities such as fork lift operation and truck transport to still take place. (objective D01) PolNTS of REVIEW in Plant-5 POR-36
Binnnial Ex:rciss 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued)
- f. Demonstrate the ability to locate all components. Items located within -
radiologically controlled areas may be confirmed verbally with the individual using layout drawings or discussion. Components not in radiologically restrictive areas must actually be accessed. (Objective A03)
- g. Demonstrate the ability to arrive at the job site and begin work in a timely manner. A timely manner must be determined on a case by case basis as each task will require different levels of preparation. The Observer shall use his/her best judgment in deciding if undue delays occurred due to the inability !
to find equipment or components, or if inadequate briefings prevented rapid access to the task. Any protective clothing required for the assignment including radiological protective clotling, electrical safety garments, respiratory protection, fall protection, etc. shall actually be donned as appropriate for the task. (objective D01)
- h. Demonstrate the ability to select, set up, and utilize any test or repair -
equipment required for the task. The individuals must actually prepare and operate the equipment, but connecting or attaching the device to plant components shall noto be performed. (Objective A03)
- 1. Demonstrate knowledge of the component / system being worked and the task at hand. This may be achieved through verbalizing actions to the drill observer. If not restricted by radiological or other actual (i.e., non-drill) plant conditions, these discussions should take p;oce at the component while referring to the actual component as a reference. Refer to " Personnel and Plant Protection" Item #2 above. The Emergency Repair Team shall explain I the troubleshooting method and attack plan. Drill participants shall verbalize l what is being checked, why it is being checked, and what must be done to check it. (Objective A03)
- j. Demonstrate the ability to obtain supplemental information, guidance, or support for the task if necessary. Any such guidance, information, or support shall actually be obtained. (Objective CO2, D01)
- k. Demonstrate the ability to provide periodic status reports to supervision so that they remain informed of conditions, progress, and problems. (Objective E03)
- 1. Once the repair team has met their team objectives for a particular component or task, the team shall enter a Drill Control Mode as described in these observer instructions so that the primary drill objectives may be met.
L l POINTS of REVIEW in Plant-6 POR-36
Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued) EMERGENCY REPAIR / OPERATIONS TEAM POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Task addressed in accordance with priorities Yes / No / NA
- b. Team assembled in a timely manner l Yes / No / NA
- c. Adequate technical briefing l Yes / No / NA
- d. Adequate radiological briefing l Yes / No / NA
- e. Tool and equipment procurement adequate l Yes / No / NA
- f. Ability to locate subject component (s) l Yes / No / NA
- g. On scene in timely manner l Yes / No / NA POINTS of REVIEW in Plant-7 POR-37
Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued) EMERGENCY REPAIR / OPERATIONS TEAM POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- h. Ability to utilize test and repair equipment Yes / No / NA
- i. Knowledge of component and ability to troubleshoot l Yes / No / NA
- j. Ability to obtain supplemental information/ assistance l Yes / No / NA
- k. Supervision provided status reports l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW in Plant-8 POR-38
Biennial Exercise 9904 June 8,1999 IN PLANT ROVER POINTS of REVIEW (Continued)
- 3. Valve Line Uos - Valve line ups, system start ups/ shut downs, and system adjustments require the assigned personnel to:
- a. Demonstrate the ability to address priorities in the order set by the Emergency Director. (Objective CO2)
- b. Demonstrate the ability to assign an Auxiliary Operator or other knowledgeable individual to the task in a timely manner. Timely is defined as soon as possible with the manpower available without causing an assignment of higher priority to be delayed or without causing another task to left in an unsafe condition. (Objectives CO2, E01)
- c. Demonstrate that the individual clearly understands the assignment. If a procedure is needed for the individual to accomplish the assignment, the procedure must actually be provided. If the task can be performed under emergency conditions without direct access to the procedure, the procedure need not be obtained. The briefing shall also address any safety concerns associated with the assignment. (Objectives E07, F01)
- d. Demonstrate that an adequate radiological briefing is received by the assigned individual if appropriate. An adequate radiological briefing occurs when the person clearly understands radiological conditions and restrictions at the job site and along the route to and from the job site. Guidance shall include radiological hold points (if applicable), protective clothing to be worn, and monitoring to be performed. The assignment of a Rad Con Tech to cover the specific task will satisfy the requirement to provide radiological information when conditions are changing or expected to change. (Objective F02)
- e. Demonstrate the ability to procure all items needed to actually perform the task. This includes but is not limited to documentation, supplemental lighting, keys, and tools (if any) necessary to complete the assignment. (Objective D01)
- f. Demonstrate the ability to locate all affected components. Items located within radiologically controlled areas may be confirmed verbally with the individual using layout drawings or discussion. Components not in radiologically restrictive areas must actually be accessed. (Objective A03)
- g. Demonstrate the knowledge required to efficiently and safely perform the evolution such as operate a valve or electrical switch-gear. (Objective A03)
- h. Demonstrate the ability to provide periodic status reports to supervision so that they remain informed of conditions, progress, and problems. (objective E03) i
- i. Demonstrate the ability to obtain supplemental direction if needed. (objective i CO2, D01)
POINTS of REVIEW In Plant-9 l POR-39
Biennial Ex:rcisa 9904 June 8,1999 IN PLANT ROVER INSTRUCTIONS (Continued) VALVE LINE UP POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Task addressed in accordance with priorities Yes / No / NA
- b. Individual assigned in a timely manner l Yes / No I NA
- c. Adequate task briefing l Yes / No / NA
- d. Adequate radiological briefing l Yes / No / NA
- e. Equipment procurement adequate l Yes / No / NA
- f. Ability to locate / access subject areas l Yes / No / NA
- g. Ability to perform operation l Yes / No / NA
- h. Supervision provided status reports l Yes / No / NA
- i. Ability to obtain supplemental information/ assistance l Yes / No / NA POINTS of REVIEW in Plant 10 POR-40
Biennial Exercise 9904 June 8,1999 CHEMISTRY OBSERVER POINTS of REVIEW 1,. Chemistry Coordinator Points of Review The following Points of Review shall be used to assist in an objective evaluation of the Chemistry Coordinator's performance. The requirements of the OSC Operations procedure (EPIP-TMI .29, Exhibit 3) shall be referenced as a basis for satisfactory criteria. Items performed by more than one individual shall be evaluated for each person. On-going processes are to be evaluated as an over-
- all assessment with positive or negative exceptions noted under comments,
- a. Demonstrate that sufficient staff exists to meet Emergency Plan requirements.- The Chemistry Coordinator position is a requirement for the On-Shift as well as the Initial Response Emergency Organization. (objective CO2) '
- b. Demonstrate the ability to provide and/or solicit an effective turn over. Is plant status discussed? Are priorities and assignments clearly identified?
(objectives C04, E07)
- c. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
' Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (objectives E01, E02)
- d. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (objective E07)
- e. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (objective E06)
- f. Demonstrate effective procedure utilization. Are the prordures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed as appropriate? Are logs maintained such that the event can j be reconstructed? (objectives D03, E04)
- g. Demonstrate the ability to coordinate sampling activities. Are samples obtained in accordance with the priorities estabhshed by the Emergency Director through the OSC Coordinator and/or Radiological Assessment Coordinator? Are the samples obtained in accordance with applicable procedures? Are technicians cautioned that elevated activity may be present in the samples? Is Rad Con coverage obtained for the appropriate samples?
is data validated? Is contamination awareness appropriate? Is contamination control adequate? (objectives B06,808) PolNTS cf REVIEW Chemistry observer-1 POR41 1
I Birnnial Ex:rciss 9904 June 8,1999 CHEMISTRY OBSERVER POINTS of REVIEW (Continued)
- h. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (Objective D02)
- 1. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, E05)
CHEMISTRY OBSERVER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staff complement Yes / No / NA
- b. Turn over l Yes / No / NA
- c. Communications equipment l Yes / No / NA
- d. Communications skills l Yes / No / NA
- e. Response to inconsistent information Yes / No / NA POINTS of REVIEW Chemistry Observer-2 POR-42
Biennial Exercise 9904 June 8,1999 CHEMISTRY OBSERVER POINTS of REVIEW (Continued) CHEMISTRY OBSERVER POINTS of REVIEW OBSERVER NAME: POINTS of REVJEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Use of procedures Yes / No / NA
- g. Sample coordination l Yes / No / NA
- h. Facility l Yes / No / NA
- 1. Equipment l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary i
POINTS of REVIEW Chemistry Observer 3 POR-43
l Biennial Exercise 9904 June 8,1999 SECURTY OBSERVER POINTS of REVIEW
- 1. Security Points of Review The following Points of Review shall be used to assist in an objective evaluation of Site Security response to the drill. The requirements of the Emergency Assembly and Site Evacuation procedure (EPIP-TMI .36) and OSC Operations procedure (EPIP-TMI .29, Exhibit 10) shall be referenced as a basis for satisfactory criteria. Items performed by more than one individual shall be evaluated for each individual. On-going processes are to be evaluated as an over-all assessment with positive and negative exceptions noted in the comments section. Due to Safeguards considerations associated with a security response, strategic and tactical considerations of the response are not objectives for this drill. Security response will be reviewed with participating personnel by Security management following the drill.
- a. Were personnel available to man the Security Representative position in the OSC, the Security Coordinator position, and to perform the accountability process and was their response timely? Timely is defined as soon as .
possible with the manpower available without causing an assignment of higher priority to be delayed or without causing another task to left in an unsafe condition. Is the facility able to function for at least 30 minutes with the Emergency Plan minimum staffing? Are adequate relief personnel identified? (objectives c02, c03, c07)
- b. Demonstrate the ability to perform the assigned mission. Does the individual understand the responsibilities of the position? Are they aware of their contacts and chain of command? Are applicable procedures used and referenced? (Objectives co1, D03)
- c. Demonstrate the availability of, and the ability to procure all items needed to actually perform the task. (objective D01)
- d. Demonstrate the ability to select, set up, and properly utilize any equipment or support devices required for the mission. The individuals must actually prepare and operate the equipment. Can the staff correctly use assigned communications equipment? Are thuy familiar with and able to operate the equipment needed to perform the accountability process? (Objectives D01, E01, E02)
- e. Demonstrata the ability to account for all personnel in the protected area within one hour of a Site Area Emergency declaration or when directed by i the Emergency Director. Is initial accountability completed within 30 minutes I and final accountability within one hour? Are missing individuals tracked through their supervisor, last knowa location, or area of assignment? Is Search and Rescue required? Are personnel familiar with, and able to l operate the systems necessary to obtain an accountability report? (objectives i F03, F06)
POINTS of REVIEW Security Observer-1 POR-44 1 I
Biennial Ex:rciss 9904 June 8,1999 SECURTY OBSERVER POINTS of REVIEW (Continued)
- f. Demonstrate the ability to assist with the mustering process, if applicable. Is ;
Security requested to assist the Emergency Assembly Area Coordinator? Is the Security Coordinator informed when the muster is complete? Are the muster sheets given to a Security representative? (Objedive F04)
- g. Demonstrate the ability to assist with a site evacuation if applicable. Is Security support requested? Is Security informed before the evacuation is started? Is the evacuation route discussed / confirmed? (Objedive Fo4)
- h. ' Demonstrate adequate access control. Are unauthorized personnel prevented from accessing appropriate areas? Are emergency response personnel provided unimpeded access? If unimpeded access is not advisable, are emergency response personnel escorted to their emergency response facilities? Is the escort timely? (Objedive Do4)
- 1. Demonstrate the ability to screen and/or process personnel for access to emergency response facilities if needed. (Objedive Doe)
J. Demonstrate coordination of prompt access for off-site support (fire, EMS, law enforcement, etc.) and effective coordination of the off site services. (Objedive C09)
- k. Demonstrate the ability to obtain -supplemental information, guidance, or support for a task if necessary. Any such guidance, information, or support shall actually be obtained from on-site sources only. (objective c02, Doi)
- 1. Demonstrate the ability to provide periodic status reports to the OSC so they remain informed of conditions, status, and problems. (Objectives E01,E07)
SECURITY & ACCOUNTABILITY POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Personnel available and timely response
- 1. OSC Security Representative Yes / No / NA
- 2. Security Coordinator Yes / No / NA
'3. Accountability personnel Yes / No / NA I
i Continued on following page. POINTS of REVIEW Security Observer-2 POR-45
Biennial Exercise 9904 June 8,1999 SECURTY OBSERVER POINTS of REVIEW (Continued) SECURITY & ACCOUNTABILITY POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- b. Mission performance
- 1. OSC Security Representative Yes / No / NA
- 2. Security Coordinator Yes / No / NA
- 3. Accountability personnel Yes / No / NA
- c. Equipment availability and procurement l Yes / No / NA
- d. Equipment use and proficiency l Yes / No / NA
- e. Accountability l Yes / No / NA i
- f. Muster support l Yes / No / NA i
- g. Evacuation support Yes / No / NA POINTS of REVIEW Security -Observer-3 POR-46
m i Bi:nnial Ex:rcise 9904 June 8,1999 ) 1 SECURTY OBSERVER POINTS of REVIEW (Continued) SECURITY & ACCOUNTABILITY POINTS (IfEEVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- h. Access control Yes / No / NA
- 1. Access processing / screening l Yes / No / NA
- j. Prompt emergency services access l Yes / No / NA
- k. Supplementalinformation, guida,nce, support l Yes / No / NA
- 1. OSC (Control Room) status repods l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary 1
POINTS of REVIEW Security Observer-4 POR-47
Biennial Exercise 9904 June 8,1999 TSC OBSERVER POINTS of REVIEW
- 1. Technical Support Center Points of Review
-The following Points of Review shall be used to assist in an objective evaluation of the Technical Support Center staff's performance. Items performed by more than one individual shall be evaluated for each person. The requirements of the Activation of the Technical Support Center procedure (EPIP-TMI .28) shall be
, referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section. l
- a. Demonstrate effective staffing of the required emergency positions. Are the -
positions filled i_n a timely manner? Is the facility able to function for at least j 30 minutes with the Emergency Plan Table 6 minimum staffing? Are adequate relief personnel identified? (Objectives c02, c03, c07)
- b. Demonstrate effective and coordinated command and control by the TSC Coordinator. (Objective co1) 1
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public?
- 4. Does the individual maintain "the big picture" and refrain from being drawn into plant operation and details better left to others?
- 5. LAre all significant orders, guidance, and instruction going into and out of the TSC through the facility leader? Is it clear who is in charge?
- 6. Is the staff appropriately briefed so that they understand the situation? Is the information clear and accurate? Are the briefings at frequent intervals? Are priorities established?
- c. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- d. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07) "
- e. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any
. inconsistencies? (Objective E06)
POINTS of REVIEW TSC-1 POR-48
'I
Diannini Ex:rcise 9904 June 8,1999 TSC OBSERVER POINTS of REVIEW (Continued)
- f. Demonstrate the ability to provide adequate technical evaluation of accident conditions. Is a systematic approach used to assess plant conditions? Is the assessment of core damage accurate? Is the team sensitive to the status of fission product barriers and dose relationship? Was data validated? Does the TSC provide adequate support for event classification? (Objectives A01, A04)
- g. Demonstrate the ability to correctly evaluate steam generator tube leakage.
Are the limitations in the TSC PC based leak rate program understood? Is method B used to determine leak rate? Is RCITS based information properly avoided for operational decisions? Is data validated? (Objective A07)
- h. Demonstrate the ability to correctly determine Reactor Coolant System leakage. Is the RCITS program properly utilized? Are calculations accurate?
Are calculations validated? (Objective A04)
- i. Demonstrate the ability to identify core damage. Is fuel failure determined in a timely manner? Is the classification of the fuel damage appropriate? Does the TSC consult with the RAC7 Is the Emergency Director informed of the core damage determination in a timely manner? Does the TSC make recommendations to mitigate the in-plant or off-site consequences of the radiological release? Does the TSC keep the EOF informed of the mitigating activities the plant is taking? (Objective A03)
J. Demonstrate the ability to provide adequate technical support to the plant. Is the team focused on mitigation and recovery strategies for disabled equipment? Does the team adequately respond to requests for technical evaluations and assistance from other facilities? Are recommendations to the Emergency Director appropriate and timely? (Objective A02)
- k. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPlP's provide sufficient direction and guidance? Are checklists used and completed? Is the TSC Calculation Guide Book used? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- 1. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01, E05)
- m. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (Objective D02)
POINTS of REVIEW l TSC Observer-2 f POR-49 m
Bi::nnial Exercise 9904 June 8,1999 TSC OBSERVER POINTS of REVIEW (Continued) TECHNICAL SUPPORT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessanf.
- a. Staffing of emergency positions Yes / No / NA
- b. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA
- c. Communications equipment l Yes / No / NA
- d. Communications skills l Yes / No / NA 1
l
- e. Response to inconsistent information l Yes / No / NA .
l l l POINTS of REVIEW TSC Observer-3 POR-50
Biznnial Exarciss 9904 June 8,1999 TSC OBSERVER POINTS of REVIEW (Continued) TECHNICAL SUPPORT CENTER POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Technical evaluation Yes / No / NA
- g. Primary to secondary leakage evaluation l Yes / No / NA
- h. Reactor Coolant System leakage evaluation l Yes / No / NA
- i. Core damage evaluation l Yes / No / NA i POINTS of REVIEW f TSC Observer-4 POR-61
Biennial Exercise 9904 June 8,1999 TSC OBSERVER POINTS of REVIEW (Continued) TECHNICAL SUPPORT CENTER POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary. J. Technical support Yes / fio / NA
- k. Procedure utilization, log keeping l Yes / No / NA
- 1. Equipment l Yes / No / NA
- m. Facility l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW TSC Observer-5 POR-52
/
Biennial Exercise 9904 June 8,1999 PUBLIC INFORMATION OBSERVER POINTS of REVIEW
- 1. ' Joint Information Center Points of Review
' The following Points of Review shall be used to assist in an objective evaluation of the Joint Information Center staff's performance. Items performed by more , than one individual shall be evaluated for each person. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. Demonstrate effective staffing of the emergency positions. Are the positions filled in a timely manner? Individuals must report within one hour from the time paged to satisfy the response criterion. Is the facility able to function for at least 30 minutes with Emergency Plan Table 7 minimum staffing? Are
- adequate relief personnel identified? (Objedives c02, c03, C07, G02)
- b. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- c. Demonstrate effective communications skills. Are three-way communications and the phonetic alphabet used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07)
.d. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- e. Demonstrate effective procedure utilization. Are the procedures / guides referenced? Do the procedures / guides provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event and staff actions can be reconstructed? (Objectives D03, E04)
- f. Demonstrate the ability to produce and disseminate press releases in a timely manner (i.e., within one hour of a major plant event). Are they provided within a reasonable time after the information is verified? Are they approved by the Emergency Director or Emergency Support Director? Are the press releases accurate? Do they avoid technical jargon? (Objective G01)
_ g. Demonstrate the ability to provide adequate media briefings. Are they performed at reasonable intervals? Is the information accurate and understandable? Is the response to inconsistent information appropriate? Are questions fielded, and follow up responses provided when a question cannot be answered by the briefer? (Objective G03)
- h. Demonstrate the ability to monitor information produced by the media. Is the equipment available to monitor the various media forms? Is incorrect information identified? Are attempts made to correct inaccurate information?
- (Objectives D01, EOS)
POINTS of REVIEW Public Info Observer-1 POR-53 I
.l
Biennial Exercise 9904 June 8,1999 PUBLIC INFORMATION OBSERVER POINTS of REVIEW (Continued)
- i. - Demonstrate the ability to notify public officials. Are the personnel available to make the notifications? Are they knowledgeable in the notification process? Are they able to respond to questions from public officials or identify the proper source for the information? (Objectives CO2, E07, E12)
J.' Demonstrate effective rumor control techniques. Is the rumor control staff adequately staffed? Do they provide accurate information to the callers? Are they able to obtain requested information if not known? (Objective G04) -
- k. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (Objectives c02.
D01)
- 1. Demonstrate that the facility is adequate to achieve the mission. Is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determination.) is ventilation adequate? (Objective D02)
- m. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? Are adequate supplies available at the facility? (Objectives D01, E05)
JOINT INFORMATION CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency positions ~ Yes / No / NA j i
t I
- b. Communications equipment l Yes / No / NA POINTS of REVIEW Public Info Observer-2 POR-54
\. .
,. .. - ___ ______ ___ ___ _ _ . -_ ___._______ N
E Bi:nnial Exercise 9904 June 8,1999 PUBLIC INFORMATION OBSERVER POINTS of REVIEW (Continued) . JOINT INFORMATION CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- c. Communications skills Yes / No / NA
- d. Response to inconsistent information l Yes / No / NA
- e. Use of procedures and guides, log keeping l Yes / No / NA i
- f. Press releases l Yes / No / NA
- g. Media briefings Yes / No / NA 1
l J l
- h. Media monitoring l Yes / No / NA
- i. Public official notification l Yes / No / NA i
POINTS of REVIEW Public Info Observer-3 POR-55
]
Birnniil Ex:rcise 9904 June 8,1999 PUBLIC INFORMATION OBSERVER POINTS of REVIEW (Continued) JOINT INFORMATION CENTER POINTS of REVIEW (Continued) OBSERVER NAME: ) POINTS of REVIEW POINT of REVIEW I All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary. .
- j. Rumor Control Yes / No / NA .
i I
- k. Resources l Yes / No / NA
- 1. Facility l Yes / No / NA
- m. Equipment l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary i
POINTS of REVIEW Public Info Observer-4 POR-56 L- . j
Biennial Exercise 9904 1- June 8,1999 EMERGENCY ASSEMCLY AND SITE EVACUATION OBSERVER POINTS of REVIEW-
- 1. Emergency Assembly Area Coordinator Points of Review -
;The requirements of the Emergency Assembly and Site Evacuation procedure (EPIP-TMI .36) shall be referenced as a basis for satisfactory criteria. Items performed by more than one individual shall be evaluated for each individual.
On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. Demonstrate the ability to staff the position of Emergency Assembly Area Coordinator in a timely manner. Does the designated individual arrive in a reasonable amount of time necessary to safely travel from his/her original location to the designated warehouse? Does the individual arrive in time to provide guidance to mustering non-essential personnel? Is the facility able to function for at least 30 minutes with Emergency Plan Table 6 minimum staffing? (Objectives co2, cos, co7)
- b. Demonstrate proficiency in the duties of the Emergency A.ssembly Area 1 Coordinator. Is the individual familiar with his/her duties? Are the functions of the EAAC initiated without undue delay? Are mustering personnel provided with clear and understandable direction? Is the evacuation controlled and ,
regulated? (Objective F04) f
- c. Demonstrate familiarity with, and proper use of the resources available to the Emergency Assembly Area Coordinator. Are muster sheets provided to non-essential personnel? Is the bullhom used for announcements if ambient noise levels require? Is Rad Con assistance requested for personnel monitoring and decontamination if applicable? (Objectives co2, Do1, D02)
,d. Demonstrate the ability to notify / confirm notification of non-essential personnel. Are individuals assigned to check buildings outside the Protected Area for personnel? Are the personnel assigned briefed adequately? Are the assigned personnel coordinated in their notification patterns? (Objectives E09, F04)
- e. Demonstrate proper notification and coordinetion with relevant emergency response staff members. Is the Rad Con Coordinator contacted for support as necessary and is sufficient direction provided to those performing monitoring /decon? Is the Emergency Director Assistant informed when muster is complete and when the evacuation is complete? Is the Security Supervisor informed of muster completion and evacuation commencement?
(Objectives E02, E07, F04)
- f. Demonstrate the receipt of required guidance from relevant emergency response staff members, is a warehouse muster point specified? Is a travel route unaffected by plume direction specified? Is a Remote Assembly Area specified? (Objectives E09, F04)
POINTS of REVIEW Emergency Assembly Observer-1 POR-67 1 ) i
Bi:nnir.1 Ex:rcisa 9904 June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER POINTS of REVIEW (Continued) EMERGENCY ASEMBLY/ SITE EVACUATION DECON POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. - Use additional comment sheets as necessary.
- a. EAAC pos' tion staffed in timeiy manner Yes / No / NA
- b. EAAC r,roficiency I Yes / No / NA
- c. Use of resources l Yes / No / NA
- d. Non-essential personnel notification l Yes / No / NA
- e. Notification / coordination with emergency organization l Yes / No / NA
- f. Information provided to the EAAC adequate l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary ,
i
=
POINTS of REVIEW Emergency Assembly Observer-2 POR-58 t
w \ l Biennial Exercise 9904 June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER POINTS of REVIEW (Continued)
- 2. Personnel Decontamination Points of Review -
The requirements of the Emergency Assembly and Site Evacuation procedure (EPIP-TMI .36) shall be referenced as a basis for satisfactory criteria. Items performed by more than one individual shall be evaluated for each individual. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. . Demonstrate the ability to assign a knowledgeable individual to personnel monitoring in a timely manner. Timely is defined as soon as possible with the manpower available without causing an assignment of higher priority to be delayed or without causing another task to left in an unsafe condition.
(Objedives CO2, FOS) b.- Demonstrate that the individual clearly understand the assignment and general radiological conditions. The briefing shall also address any safety concems associated with the task. (Objedives E07, F01, F05)
- c. Demonstrate the ability to procure all items needed to actually perform the task. This includes but is not limited to documentation, monitoring instruments, protective clothing, and decon supplies necessary to complete the assignment. (Objedives D01, F05)
- d. Demonstrate the ability to locate and gain access to all areas assigned.
(Objedive D04)
- e. Demonstrate the ability to select, set up, and utilize any radiological monitoring equipment or_ sample device required for the task. The individuals must actually prepare and operate the equipment. (Objectives D01, F05)
- f. Perform Radiological Postings - Posting of areas and rooms shall actually be performed and shall be identified as being drill related. Are the postings appropriate for conditions? Are they timely? (Objedive F02)
- g. Demonstrate decontamination of contaminated personnel. The evolution shall require the performance of the decon process. In the interest of modesty and to prevent destruction of clothing, the actual removal of individuals' personal clothing and showering shall be simulated. (Objedive F05)
- h. Demonstrate the ability to obtain supplemental information, guidance, or support for a task if necessary. Any such guidance, information, or support shall actually be obtained. (Objectives CO2, D01)
- 1. Demonstrate the ability to provide periodic status reports to supervision so they are informed of conditions, progress, and problems. (Objectives E03, E07)
J. Demonstrate effective procedure utilization. Are the procedures referenced? Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04) POINTS of REVIEW Emergency Assembly Observer-3 POR.59
Biennial Exercise 9904 June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER POINTS of REVIEW (Continued) l PERSONNEL DECON POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Individuals assigned in a timely manner Yes / No / NA
- b. Adequate task briefing l Yes / No / NA
- c. Equipment procurement adequate l Yes / No / NA
- d. Ability to locate / access subject areas l Yes / No / NA
- e. Ability to utilize equipment l Yes / No / NA
- f. Adequate posting of area / room building Yes / No / NA POINTS of REVIEW Emergency Assembly Observer-4 POR-60
Biennial Exercise 9904 June 8,1999 EMERGENCY ASSEMBLY AND SITE EVACUATION OBSERVER POINTS of REVIEW (Continued) IN PLANT RAD CON POINTS of REVIEW (Continued) OBSERVER NAME: , POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- g. Decontamination proficiency Yes / No / NA l
- h. Ability to obtain supplementat snformation/ assistance l Yes / No / NA
- i. Supervision provided status reports l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary i
i POINTS of REVIEW Emergency Assembly Observer-5 POR-61
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW
.1. Emergency Support Director Points of Review The Emergency Support Director responsibilities are many and varied and require many judgement based decisions. The_following Points of Review shall be used to assist in an objective evaluation of the Emergency Support Director's performance. The requirements of the Emergency Operations Facility procedure (EPIP-TMI .27) and Event Classification and Basis procedure (EPIP-TMI .01) shall be referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. ' Demonstrate effective and coordinated command and control by the Emergency Support Director. (objective c01)
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public? -
- 4. Does the individual maintain "the big picture" and refrain from being
. drawn into operations and details better left to others?
- 5. Are all significant orders, guidance, and instruction going into and out of the EOF through the facility leader? Is it clear who is in charge? -
- 6. Is the staff appropriately briefed so that they understand the situation? Is the information clear and accurate? Are the briefings at frequent intervals? Are priorities established?
- b. Demonstrate effective communication skills. Are three-way communications used? Are orders and direction clear? Is the ESD receptive to infonnation and suggestions from staff members? Are information and ideas solicited from staff members? Does the ESD know how to use the speaker-phone and
. public address system? Are those systems effectively used? (Objectives E02, E07)
- c. Demonstrate the ability to respond appropriately to inconsistent information.
Is inconsistent information detected by the staff? Does the Emergency Support Director validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- d. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
~ Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02) s POINTS of REVIEW EOF Controller-1 POR-62
Birnnial Ex rciss 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued)
- e. Demonstrate the ability to identify and support the classification of emergency conditions within fifteen minutes when such conditions exist.
Does the ESD provide support to the Emergency Director in event classification? Does the ESD re-assign priorities when indications suggest a General Emergency declaration might be warranted? Does the ESD expeditiously verify the indications of the General Emergency conditions? Does the ESD require the Emergency Director to escalate the classification when appropriate (i.e., if the ED did not escalate when warranted)? (Objective A01)
- f. Demonstrate the ability to provide an accurate and signed Emergency Report Form to the Communicators within five minutes of the declaration of the event if this responsibility is transferred by the Emergency Director. (Objective E08)
- g. Demonstrate the ability to properly provide a Protective Action Recommendation. Is the PAR proper for conditions? Is the PAR provided to the senior official at the state EOC within fifteen minutes of the General Emergency declaration? Is the PAR upgraded if required? Is a PAR considered for the area outside the 10 mile EPZ? (Objectives B10, B13, B14)
- h. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- 1. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objective D01)
- j. Demonstrate that the facility is adequate to achieve the mission, is sufficient space dedicated to all functions for proper emergency response? (NOTE: Do not include non-participants / observers when making this determinatien.) is ventilation adequate? (Objective D02)
- k. Demonstrate effective interaction with state and federal agencies. Does the ESD effectively interact with the State /NRC7 Does the ESD ensure the l
State /NRC are properly briefed? Does the ESD solicit questions from the State /NRC7 is the ESD responsive to those questions? Does the ESD discuss the Protective Action Recommendation in advance with the State /NRC7 Does the ESD use the State /NRC as a resource? Does the ESD explain the basis for the General Emergency declaration to the State /NRC7 (Objectives E11, E12) , POINTS of REVIEW EOF Controller-2 POR-63
L Birnnial Enrcisa 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued)
- 1. Demonstrate the ability to support the press release process. Does the Emergency Support Director properly review the press releases? Does the ESD ensure the press releases are reviewed in a timely manner? Does the ESD ensure the press releases are properly reviewed for technical accuracy?
Does the ESD make appropriate changes to the press releases? (Objective G01)
- m. Demonstrate sensitiv.ity to the welfare of the TMI staff. Does the ESD address on-site protective ar:tions as appropriate to control access in changing radiological conditions around the site? Has the ESD verified provisions are made to instruct employees where to report the next working day? Does he verify the appropriate Remote Assembly Area and JIC are being used?
(Objectives F04, F05)
- n. Demonstrate the ability to support the plant in its efforts to mitigate the in-plant and off-site consequences of a radiological release. Does the ESD discuss mitigation strategies with the staff? Are plant mitigation strategies proactively provided to the state? Does the ESD provide the plant with suggestions on what might be done to reduce the in-plant or off-site consequences of the event? (Objective A03)
- o. If applicable, demonstrate the ability to screen and/or process personnel for access to the emergency response facilities. Is fitness for duty testing utilized when appropriate? Is the need for an individual's access verified? Are appropriate clearances and qualifications confirmed? (Objective D06)
- p. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. Are the priorities established the most effective for mitigating the consequences of the incident? If plant conditions permit, is the need for additional personnel and/or additional support facilities identified early enough that the resources
. are activated and functional before or as needed (i.e., is the need to play l
" catch up" eliminated as much as possible)? (Objectives CO2,001)
- q. If applicable, demonstrate the declassification / recovery process. Is the
" Classified Emergency Termination / Recovery" procedure (EPIP-TMl-45) referenced? Are the criteria to deescalate satisfied? Is a recovery !
organization established? (Objective A06)
- r. If applicable, demonstrate back-up power availability at the facility. Does the f generator start and provide power electricity automatically upon loss of the l normal power source? Is the power provided adequate for the facility's needs? Is the staff familiar with the power system? (Objective DOS) l l POINTS of REVIEW EOF Controller-3 PoR-64
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) l EMERGENCY SUPPORT DIRECTOR POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input considered Yes / No / NA
- 4. , Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA
- b. Communications skills l Yes / No / NA
- c. Response to inconsistent information l Yes / No / NA
- d. Communications equipment l Yes / No / NA l
POINTS of REVIEW EOF Controller-4 POR-65
Biennial Exercise 9904 June 8,1999 l EOF CONTROLLER POINTS of REVIEW (Continued) EMERGENCY SUPPORT DIRECTOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- e. Identification and classification of event N/A
- 1. Site Area Emergency Yes / No / NA
- 2. General Emergency Yes / No / NA
- f. Timely completion of Emergency Report Form .
N/A
- 1. Site Area Emergency Yes / No / NA
- 2. General Emergency Yes / No / NA
- g. Protective Action Recommendation l Yes / No / NA
- h. Use of procedures (In General) Yes / No / NA
- 1. SPIP-TMI .27 Yes / No / NA
- 2. EPIP-TMI .01 Yes / No / NA l
POINTS of REVIEW EOF Controller-5 POR46 i
Birnni:1 Ex::rcise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) EMERGENCY SUPPORT DIRECTOR POINTS of REVIEW (Continued) l OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- i. Equipment Yes / No / NA ,
I l J. Facility l Yes / No / NA !
- k. State and NRC interface l Yes / No / NA I. Press releases l Yes / No / NA l
- m. Site staff welfare l Yes / No / NA l
- n. Plant support l Yes / No / NA POINTS of REVIEW EOF Controller-6 POR-67
Bi::nnial Ex:rciss 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) l i i EMERGENCY SUPPORT DIRECTOR POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY l All points marked "N/A" require justification. Use additional comment sheets as necessary. ;
- o. Personnel screening / processing Yes / No / NA .
- p. Resources l Yes / No / NA
- q. Recovery /de-escalation l Yes / No / NA
- r. EOF back up power l Yes / No / NA DOMMENTS (Reference point of review number.) Use additional sheets as necessary l
POINTS of REVIEW EOF Controller-7
. POR-68
Biennial Ex:rcisa 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued)
- 2. Emergency Operations Facility Staff Points of Review The following Points of Review shall be used to assist in an objective evaluation of the Emergency Operations Facility staffs performance. Items performed by more than one individual shall be evaluated for each person. The requirements of the Emergency Operations Facility procedure (EPIP-TMI .27) shall be
, referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. Demonstrate effective staffing of the required emergency positions. Are the positions filled in a timely manner? Is the facility able to function for at least 30 minutes with Emergency Plan Table 7 minimum staffing? Are adequate relief personnel identified? (Objectives co2, c03, c07)
- b. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems
) in place to facilitate transmittal of data among emergency response facilities? Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- c. Demonstrate effective communication skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objectives E07)
- d. Demonstrate the ability to respond appropriately to inconsistent information. 1 Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- e. Demonstrate effective interaction with state and federal agencies. Does the ESD Assistant provide a briefing to State personnel upon their arrival and introduce them to their GPU counterparts? Does the EOF staff adequately support the State and NRC's ability to fulfill their mission? Is the EOF staff responsive to questions from the State /NRC7 Does the Public Information l
l Rep provide copies of press releases to the State? Does the Emergency l Preparedness Rep advise the ESD on matters relating to the interface with l the State? (Objectives E11, E12)
- f. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- g. Demonstrate the ability to effectively utilize available resources and the ability to icentify and obtain additional support as necessary. (Objectives c02, D01)
POINTS of REVIEW EOF Controller-8 POR-69
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) -
- h. Demonstrate the ability to provide adequate support to the Emergency
- Support Director and his mission. Do the Emergency Preparedness Rep,
. Tech Support Rep, ESD Assistant, and Group Leader-R&EC provide adequate support for event classification? For PAR requirements? (objectives A01, B10) -
- 1. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? Is data adequately displayed? (objectives D01, EOS)
J. Demonstrate adequate access control exists for the facility. Are emergency response personnel able to enter the facility without undue delay? Are unauthorized non-staff members and members of the press prevented from ' entering? Is security monitoring equipment functioning as designed? (Objective D04) EMERGENCY OPERATIONS FACILIW STAFF POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW - POINT of REVIEW All points require supporting information. SATISFACTORY
' All points marked "N/A" require justification. I Use additional comment sheets as necessary.
- a. Staffing of emergency position Yes / No / NA
- b. Communications equipment l Yes / No / NA POINTS of REVIEW EOF Controller-9 I
POR-70 _a
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) EMERGENCY OPERATIONS FACILITY STAFF POINTS of REVIEW (Cont'd) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- c. Communications skills Yes / No / NA i
- d. Response to inconsistent information l Yes / No / NA
. e. State and NRC interface l Yes / No / NA
- f. Use of procedures l Yes / No / NA
- g. Resources l Yes / No / NA POINTS of REVIEW EOF Controller-10 POR-71 L
. I Biennial Exercise 9904 1 June 8,1999 i
EOF CONTROLLER POINTS of REVIEW (Continued) EMERGENCY OPERATIONS FACILITY STAFF POINTS of REVIEW (Cont'd) OBSERVER NAME: ; POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY l All points marked "N/A" require justification. Use additional comment sheets as necessary.
- h. ESD support ' Yes / No / NA I
- i. Equipment l Yes / No / NA
( l
- j. Access control l Yes / No / NA l
COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW EOF Controller-11 POR-72
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued)
' 3. EOF Communicator Points of Review The following Points of Review shall be used to assist in an objective evaluation of the EOF Communicators' performance.' Items performed by more than one Communicator shall be evaluated for each individual. The requirements of the - Emergency Operations Facility procedure (EPIP-TMI .27) shall be referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. Demonstrate effective staffing of the required emergency positions. Are the positions filled in a timely manner? Is the facility able to function for at least 30 minutes with the Emergency Plan minimum staffing? Are adequate relief personnel identified? (Objectives c02, c03, c07)
- b. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- c. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- d. Demonstrate effective communication skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas
' solicited from staff members? (Objective E07)
- e. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (Objective E06)
- f. If turned over from the ECC Communicators, demonstrate the ability to commence off site notifications within five minutes of event declaration. The communicator must aggressively pursue the receipt of a completed and signed Emergency Report Form from the Emergency Support Director and begin notifications.'(Objective E08)
- g. If turned over from the ECC Communicators, demonstrate the ability to make notifications to the five risk counties and the state within fifteen minutes of event declaration. (Objective E08)
POINTS of REVIEW EOF controller-12 POR.73 t
Biennial Exercise 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued)
' h. If turned over from the ECC Communicators, demonstrate the ability to notify the U.S. Nuclear Regulatory Commission of event declarations as soon as 7
possible but within one hour of the declaration. Calls may be simulated. (Objedive E13)
/' l. Demonstrate the ability _to utilize alternate means of communications if a
- circuit' fails. Do the communicators use an alternate means to contact the required agencies if a system failed? Are the communicators cognizant of the available alternate communications pathways? (Objedives E01, E02) J J. . Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (Objedive c02, D01)
- k. Demonstrate that the equipment is adequate to achieve the mission. Is sufficient and adequate equipment available to effectively perform all necessary emergency. actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objectives D01)
- 1. Demonstrate the ability to coordinate repairs of communications systems failures if necessary. Calls are to be sim-ulated. Emergency Preparedness will coordinated repairs following the drill. (Objectives E01, E02)
- m. Demonstrate the ability to adequately display data at the facility to support the facility's mission. Does tha Communications Coordinator adequately maintain the EOF status board? (Objective E05)
[ Points of Review Checklist on the following pages] POINTS of REVIEW EOF Controller-13 POR.74
Bi:nnial Ex:rciss 9904 June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) EOF COMMUNICATOR POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary. __
- a. Staffing of emergency positions Yes / No / NA
- b. Use of procedures l Yes / No / NA
- c. Communications equipment l Yes / No / NA
- d. Communications skills l Yes / No / NA
- e. Response to inconsistent information l Yes / No / NA POINTS of REVIEW EOF Controller-14 POR-75
E ) i Biennial Exercise 9904 June 8,1999 4 EOF CONTROLLER POINTS of REVIEW (Continued) EOF COMMUNICATOR POINTS of REVIEW (Continued). OBSERVER NAME: j POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Notifications commenced within ~ 5 minutes Yes / No / N/A 1
g.15 minute off site notifications l Yes / No / N/A
- h. NRC Notification l Yes / No / N/A 1
- i. Altemate communications l Yes / No / N/A
- j. Resources l Yes / No / NA l
POINTS of REVIEW EOF Controller-15 POR-76 i
Biennial Exarcisa 9904 l June 8,1999 EOF CONTROLLER POINTS of REVIEW (Continued) EOF COMMUNICATOR POINTS of REVIEW (Continued) j OBSERVER NAME: j POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- k. Equipment Yes / No / NA
- 1. Coordination of communications repairs l Yes / No / NA
- m. Data display l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW
- EOF Controller-16 POR-77 i
__ _______._m______.
Biennial Exercise 9904 June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL ' CONTROLS OBSERVER POINTS of REVIEW
- 1. Group Leader - Radiological and Environmental Controls Points of Review The following Points of Review shall be used to assist in an objective evaluatbn of the Group Leader-Radiological and Environmental Controls' performance.
The Emergency _ Operations Facility procedure (EPlP-TMI .27), Exhibit 4 shall be referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted L in the comments section. a: Demonstrate effective staffing of the required emergency position (s). Are the
. positions filled in a timely manner? Is the facility able to function for at least 30 minutes with Emergency Plan, Table 7 minimum staffing? Are adequate relief personnel identified? (objectives co2, co3, co7)
- b. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be j reconstructed? (objectives Do3, Eo4) I c Demonstrate effective and coordinated command and control by the Group Leader-Radiological and Environmental Controls. (co1)
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public? '
- 4. Does the Group Leader-R&EC maintain "the big picture" and refrain from being drawn into operations and details better left to others?
- 5. Are all significant orders, guidance, and instruction going into and out of the Environmental and Radiological functional area through the Group Leader? Is it clear who is in charge? .
l
- 6. Is the staff appropriately briefed so that they understand plant and environmental? Is the information clear and accurate? Are the briefings at frequent intervals? Are priorities established?
- d. Demonstrate adequate communications equipment is available to the emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities?
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (objectives E01, E02) 1 POINTS of REVIEW Group Leader rec observer-1 POR-78 i
Biennini Ex:rcisa 9904 June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER POINTS of REVIEW (Continued)
- e. Demonstrate effective communication skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07)
- f. Demonstrate the ability to respond appropriately to inconsistent information.
Does the Group Leader R&EC validate information by diverse means and evaluate any inconsistencies? Is the data interpreted correctly? Are additional samples and readings requested / directed as necessary to properly interpret conditions? Does the Group Leader properly resolve any inconsistent data between field team and dose projections? Does the Group Leader recognize when field team data and dose projections are inconsistent (field team readings less than factor of 10 less than dose projections or field team readings greater than dose projections)? (objective E06)
- g. Demonstrate the ability to properly assess monitoring data to formulate adequate off site dose assessments. Does the Group Leader ensure that the code is using the proper release pathway? Has he reviewed the flows to see if it makes sense? Has he reviewed the RMS indications to ensure they are consistent with his understanding of the plant status? If the dose projection is based on a contingency calculation, does the Group Leader R&EC point out the possible conservative nature of that projection? If terminating the release l is not as simple as tuming off a pump or closing a valve, does he point out to l the ESD that it is not known exactly when the release will stop? Does he
!- ensure that the initial PAR is for to evacuate the five mile radius and shelter the 5 to 10 mile radius even if there are exceptionally high dose projections? (Objectius B01, B10. E06)
- h. Demonstrate the ability to evaluate monitoring data, off site radiological dose projections, and plant conditions to arrive at appropriate Protective Action Recommendations within approximately 15 minutes of the General Emergency declaration. Does the Group Leader R&EC provide appropriate support to the ESD on whether it is known if the release can be stopped within two hours? If the manual or quick cales are used, are appropriate adjustments made to the output values to account for known over conservatism in the code? (Objectives Bio) continued POINTS of REVIEW Group Leader REC Observer-2 PoR-79
Birnnial Ex:rciso 9904 June 8,1999
' GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER POINTS of REVIEW (Continued) i.' Demonstrate the ability to assess field monitoring team and dose projection data to evaluate the need to expand Protective Action Recommendations
, outside of the 5 mile radius. Does the Group Leader-R&EC work closely with the EACC to obtain proper field team data and with the RAC to get their best dose projections? Does the Group Leader properly adjust the dose projections for known conservatisms to more accurately determine which areas will exceed PAG's? Does the Group Leader use field team data to validate the dose projections' assumed isotopic mix? Are MAP-5 samples requested to help verify the release mix? Does the Group Leader adjust for dilution effects and release duration? Are the EDCM and ODCM adequately utilized? (Objectives Bos, Bos, B13)
J. Demonstrate effective coordination of the radiological and environmental assessment process with the BRP. Does the Group Leader R&EC introduce himself to the Health Physics Section of the BRP at the EOF 7 Does he provide an effective briefing? Is he proactive in keeping the State informed? Does he keep the state informed as to which code (COLA.or manual) he is using? Does he provide results of "what if" calculations to the BRP7 Does he inform the State when inconsistent data is present? Does he inform the State when there is improper input data? Does he inform the State of known conservatisms in any manual code calculations? (Objective B12, E11, E12)
- k. . Demonstrate sensitivity to the need for possible Protective Action Recommendations outside of the ten mile emergency planning zone. Is the Group Leader R&EC aware that he must provide PAR's for areas outside ten miles if he feels those areas will exceed Protective Action Guidelines? Does the Group Leader R&EC know how to make that assessment? (Objective B14)
- 1. Demonstrate a proactive approach to minimizing radiation dose to the extent possible. Are considerations and suggestions provided to the Emergency Support Director to reduce on site and off site doses? Does the Group Leader R&EC keep the ESD informed of the radiological conditions in the plant? (Objective A03,802, F02)
- m. Demonstrate that the equipment is adequate to achieve the mission. Is
- sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (Objective D01, E05)
POINTS of REVIEW Group Leader REC Observer-3 POR-80
Bi::nnial Exercise 9904 June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER POINTS of REVIEW (Continued) GROUP LEADER R&EC POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency position (s) Yes / No / NA
- b. Procedures and log keeping l Yes / No / NA
- c. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staffinput considered Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA I
1 1 I
- d. Communications equipment l Yes / No / NA i
- e. Communications skills l Yes / No / NA
- f. Response to inconsistent information l Yes / No / NA POINTS of REVIEW Group Leader REC Observer-4 ;
i POR-81
l Biennial Exercise 9904 June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER POINTS of REVIEW (Continued) GROUP LEADER R&EC POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary. J
- g. Dose assessments Yes / No / NA
{ l I
- h. Protective action recommendations l Yes / No / NA
- i. PAR expansion , l Yes / No / NA i
)
~i. Assessment coordination with BRP l Yes / No / NA ! f I 1 l
- k. PAR > 10 miles l Yes / No / NA ,
l l
- l. Dose reduction activities l Yes / No / NA l POINTS of REVIEW Group Leader REC Observer-5 ,
1 POR-82 J
[ , Birnni:1 Ex:rcise 9904 June 8,1999 GROUP LEADER-RADIOLOGICAL & ENVIRONMENTAL CONTROLS OBSERVER POINTS of REVIEW (Coni'nued) GROUP LEADER R&EC POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- m. Equipment Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary 1
1 POINTS of REVIEW Group Leader REC Observer-6 , POR-83 L
i Biennid Exercise 9904 June 8,1999 ENVIRONMENTAL ASSESSMENT COMMAND CENTER OBSERVER POINTS of REVIEW
- 1. Environmental Assessment Command Center Points of Review The following Points of Review shall be used to assist in an objective evaluation of the Environmental Assessment Command Center staff performance. The Emergency Operations Facility procedure (EPlP-TMI .27) and Onsite/Offsite
~ Radiological / Environmental Monitoring procedure (EPIP-TMI .10) shall be ,
referenced as a basis for satisfactory criteria. Items performed by more than one $ individual shall be evaluated for each individual. On-going processes are to be - evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. ; Demonstrate effective staffing of the required emergency positions. Are
. Emergency Plan required positions filled in a timely manner? Is the facility I able to fonction for at least 30 minutes with Emergency Plan, Table 7 l minimum staffing? Are adequate relief personnel identified? (Objectives co2, co3, co7)
- b. Demonstrate the ability to provide or solicit an adequate turn over. Are key plant parameters discussed? Are key radiological parameters discussed?
Does the individual assuming the position understand the situation to the extent known? (Objectives C04, E07)
- c. Demonstrate effective and coordinated command and control by the Environmental Assessment Coordinator. (cot)
- 1. Are orders clear and concise?
'2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety ,
of the staff and public? I
- 4. Does the EAC maintain "the big picture" and refrain from being drawn into I operations and details better left to others?
- 5. Are all significant orders, guidance, and instruction going into and out of 1 the EACC through the facility leader? Is it clear who is in charge?
- 6. Is the staff appropriately briefed so that they understand the situation? Is the information clear and accurate? Are the briefings at frequent l intervals? Are priorities established?
- d. Demonstrate adequate communications equipment is available to the ;
. emergency responders. Are adequate emergency communications systems i in place to facilitate transmittal of data among emergency response facilities? )
Are the drill participants familiar with the operation of the equipment? Do the Environmental Assessment Line telephone, EARS radio, and other communications equipment work? Does the equipment function as designed? , (Objectives E01, E02) POINTS of REVIEW ' Environmental Assessment Observer-1 POR-84
Bi nni21 Exarcita 9904 June 8,1999 ENVIRONMENTAL ASSESSMENTCOMMAND CENTER ' OBSERVER POINTS of REVIEW (Continued)
- e. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas
, solicited from staff members? Is the Group Leader R&EC informed of changing conditions and completed assessments? Is the interface with the
. RAC effective? Are communications with the field teams appropriate and -
reliable? (Objedives E03, E07)
- f. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any
' inconsistencies? (Objective E06)
- g. Demonstrate effective procedure utilization. Are the procedures referenced?
Do the EPIP's provide sufficient direction and guidance? Are checklists used and completed? Are logs maintained such that the event can be reconstructed? (Objectives D03, E04)
- h. Demonstrate a proactive approach to minimizing radiation dose to the extent possible. Are considerations and suggestions provided to the Group Leader R&EC to reduce on site and off site doses? Are field team doses monitored and ALARA techniques employed? (Objectives B02, B07, F02)
- 1. Demonstrate the ability to gather and interpret data. Are appropriate samples requested? Is monitoring data adequately employed? Is a correlation made and understood between field team readings and dose projections? Does the EACC recognize the MIDAS plume plots from the COLA are invalid? Does the EACC initiate manual MIDAS calculations? Does the EAC know how to perform manual MIDAS calculations? (Objectives B03,808)
J. Demonstrate the ability to validate dose projections. Does the team obtain weather forecast data? Are the dose projections presented with meteorological information to the Group Leader'R&EC in a timely manner? Does the EAC properly utilize MIDAS plume plots for positioning field teams and confirming dose projections? Does the EAC attempt to correlate Reuter-Stokes readings and field team readings and resolve discrepancies? 1 (Objectives B03, E03)
]
- k. Demonstrate the ability to dispatch and coordinate field monitoring teams.
Are the field teams properly positioned? Does the EAC use weather forecast ; data to assist in team positioning? Are appropriate samples ordered? (Objectives B08, B09, E03) I POINTS of REVIEW Environmental Assessment Observer-2 POR-85
L
. Bi::nnial Exercise 9904 June 8,1999 ENVIRONMENTAL ASSESSMENT COMMAND CENTER l '
OBSERVER POINTS of REVIEW (Continued)
- l. Demonstrate the ability to interpret appropriate samples to assist in evaluating conditions. What field monitoring team samples are obtained? Is the information obtained useful and understood? Is the field team data
. entered into the computer? (otgectives sos, sos)
- m. Demonstrate the ability to assist the Group Leader R&EC in formulating a Protective Action Recommendation. Is the PAR developed within fifteen minutes? Is consideration made ;o upgrading the PAR if warranted? Is consideration given to providing a PAR beyond the 10 mile EPZ if Protective l Action Guidelines are reached or exceeded? (otgectives sio, s13, B14) I
- n. Demonstrate the ability to effectively utilize available resources and the ability to identify and obtain additional support as necessary. (otgective co2,
~
001) . ;
- o. Demonstrate that the equipment is' adequate to achieve the mission. Is j sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without the requirement for additional equipment? Are the computers operational and adequate to meet mission needs? If applicable, does the equipment provide appropriate and useful information? Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (otsectives D01, EoS)
ENVIRONMENTAL ASSESSMENT CENTER POINTS of REVIEW l
' OBSERVER NAME:
POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency positions Yes / No / NA b.- Tum over l Yes / No / NA PolNTS of REVIEW Environmental Assessment observer-3 POR-86
i l Biennial Exercise 9904 June 8,1999 ENVIRONMENTAL ASSESSMENTCOMMAND CENTER OBSERVER POINTS of REVIEW (Continued) ENVIRONMENTAL ASSESSMENT CENTER POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- c. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA
- d. Communications equipment l Yes / No / NA
- e. Communications skills l Yes / No / NA
- f. Response to inconsistent information l Yes / No / NA
- g. Procedure utilization, log keeping l Yes / No / NA
- h. Dose reduction activities l Yes / No / NA POINTS of REVIEW Environmental Assessment Observer-4 POR-87
Biennial Exercise 9904 June 8,1999 ENVIRONMENTAL ASSESSMENTCOMMAND CENTER OBSERVER POINTS of REVIEW (Continued) ENVIRONMENTAL ASSESSMENT CENTER POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- i. Data gathering, interpretation, and use Yes / No / NA
- j. Dose projection validation l Yes / No / NA
- k. Field monitoring teams l Yes / No / NA
- 1. Samples l Yes / No / NA
- m. Protective action recommendations l Yes / No / NA
- n. Resources l Yes / No / NA
- o. Equipment l Yes / No / NA POINTS of REVIEW Environmental Assessment Observer-5 POR-88
Birnnial Ex:rciso 9904 June 8,1999 ENVIRONMENTAL ASSESSMENTCOMMAND CENTER OBSERVER POINTS of REVIEW (Continued) ENVIRONMENTAL ASSESSMENT CENTER POINTS of REVIEW (Continued) OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. ' Use additional comment sheets as necessary. COMMENTS (Reference point of review number.) Use additional sheets as necessary I l l POINTS of REVIEW Environmental Assessment Observer-6 POR-89 L _
Biennial Exercise 9904 June 8,1999 EOF TECHNICAL SUPPORT OBSERVER POINTS of REVIEW
- 1. EOF Tech Support Points of Review The following Points of Review shall be used to assist in an objective evaluation of the EOF Technical Support staff's performance. Items performed by more than one individual shall be evaluated for each person. The requirements of the Emergency Operations Facility procedure (EPIP-TMI .27) shall be referenced as a basis for satisfactory criteria. On-going processes are to be evaluated as an over-all assessment with positive or negative exceptions noted in the Comments section.
- a. Demonstrate effective staffing of the required emergency position (s). Are the positions filled in a timely manner? Is the facility able to function for at least 30 minutes with Emergency Plan, Table 7 minimum staffing? Are adequate relief personnel identified? (Objectives co2, cos, co7)
- b. Demonstrate effective and coordinated command and control by the Technical Support Rep. (objective co1)
- 1. Are orders clear and concise?
- 2. Do the staff members understand their assignments and priorities?
- 3. Is the input from staff and support facilities considered before initiating mitigating actions or actions needed to provide for the health and safety of the staff and public? I
- 4. Does the individual maintain 'the big picture" and refrain from being l drawn into operations and details better left to others?
- 5. Are all significant orders, guidance, and instruction going into and out of the EOF Tech Support area through the facility leader? Is it clear who is in charge?
- 6. Is the staff appropriately briefed so that they understand the situation? Is the information clear and accurate? Are the briefings at frequent intervals? Are priorities established? l
- c. Demonstrate adequate communications equipment is available to the i emergency responders. Are adequate emergency communications systems in place to facilitate transmittal of data among emergency response facilities? !
Are the drill participants familiar with the operation of the equipment? Does the equipment function as designed? (Objectives E01, E02)
- d. Demonstrate effective communications skills. Are three-way communications used? Are orders and direction clear? Is the individual receptive to information and suggestions from staff members? Are information and ideas solicited from staff members? (Objective E07)
- e. Demonstrate the ability to respond appropriately to inconsistent information.
Does the staff validate information by diverse means and evaluate any inconsistencies? (objective E06) POINTS of REVIEW Tech Support Observer-1 POR-90 d
Birnnial Extrcise 9904 June 8,1999 EOF TECHNICAL SUPPORT OBSERVER POINTS of REVIEW (Continued)
- f. Demonstrate effective procedure utilization. Are the procedures referenced?
. Do the EPIP's provide sufficient direction and guidance? Are check-lists used and completed? Are logs maintained such that the event can be reconstructed? (Oyedives D03, E04)
- g. Demonstrate a systematic approach to properly assess accident conditions -
as needed for PAR and long term planning. Does the Tech Support Rep systematically assess accident conditions? Does the Tech Support Rep have a proper understanding of the accident conditions? (oyedive A04)
- h. Demonstrate thet the equipment is adequate to achieve the mission. Is
- sufficient and adequate equipment available to effectively perform all necessary emergency actions? Is the facility able to respond to the emergency without,the requirement for additional equipment? If applicable, does the equipment provide appropriate and useful information? Does the equipment function as designed? (oyedives D01, E05)
- i. Demonstrate the ability to support the plant in its efforts to mitigate the in-plant and off-site consequences of a radiological release. Is the team cognizant of mitigation and recovery strategies for disabled systems? Does the Tech Support Rep proactively provide this information to the ESD and to the State? Does the Tech Support Rep provide the plant with suggestions on what might be done to reduce the in-plant or off-site consequences of the event? (objedive A03)
- j. Demonstrate effective interaction with state and federal agencies. Does the Tech Support Rep effectively interact with the State /NRC7 Does the Tech Support Rep proactively keep the State /NRC informed of the plant's mitigation activities? Does the Tech Support Rep solicit questions from the BRP technical personnel at the EOF 7 Is the Tech Support Rep responsive to those questions? (Objedives E11, E12)
- k. Demonstrate the ability to adequately display data at the facility to support the facility's mission. Is plant data properly displayed? Are technical status boards properly maintained? Is the Tech Support Rep able to obtain PPC data? (objedive E05) i POINTS of REVIEW Tech Support Observer 2 POR-91
Birnni:1 Ex:rcise 9904 June 8,1999 EOF TECHNICAL SUPPORT OBSERVER POINTS of REVIEW (Continued) EOF TECHNICAL SUPPORT POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- a. Staffing of emergency positions Yes / No / NA
- b. Command and control Yes / No / NA
- 1. Clear, concise orders Yes / No / NA
- 2. Assignments, priorities understood Yes / No / NA
- 3. Staff input utilized Yes / No / NA
- 4. Maintain " big picture" Yes / No / NA
- 5. In charge Yes / No / NA
- 6. Briefings Yes / No / NA
- c. Communications equipment l Yes / No / NA
- d. Communications skills l Yes / No / NA
- e. Response to inconsistent information l Yes / No / NA l
POINTS of REVIEW i Tech Support Observer-3 POR-92
Biennial Exerciss 9904 June 8,1999 i EOF TECHNICAL SUPPORT OBSERVER POINTS of REVIEW (Continued)
~
EOF TECHNICAL SUPPORT POINTS of REVIEW OBSERVER NAME: POINTS of REVIEW POINT of REVIEW All points require supporting information. SATISFACTORY All points marked "N/A" require justification. Use additional comment sheets as necessary.
- f. Procedure utilization, log keeping Yes / No / NA
- g. Systematic assessment l Yes / No / NA
- h. Equipment l Yes / No / NA
- i. Plant support l Yes / No / NA
- j. State and federal agency interaction l Yes / No / NA
- k. Data display l Yes / No / NA COMMENTS (Reference point of review number.) Use additional sheets as necessary l
POINTS of REVIEW Tech Support Observer-4 POR-93 l . . . .
Biennial Exercise 9904 June 8,1999 ADDITIONAL COMMENTS SHEET OBSERVER NAME: AREA of OBSERVATION: COMMENTS (Reference point t review number.) Use additional sheets as necessary l l l l l l l l 1 l l l l POINTS of REVIEW I Additional Sheet-1 POR-94
Biennial Exercise 9904 June 8,1999 ADDITIONAL COMMENTS SHEET _ OBSERVER NAME: AREA of OBSERVATION: COMMENTS (Reference point of review number.) Use additional sheets as necessary i 1 1 i I I POINTS of REVIEW Additional Sheet-2 POR-95
Biennial Exercise 9904 June 8,1999 ADDITIONAL COMMENTS SHEET OBSERVER NAME: AREA of OBSERVATION: . COMMENTS (Reference point of review number.) Use additional sheets as necessary l l POINTS of REVIEW Additional Sheet-3 1 POR-96
Biennial Exercise 9904 June 8,1999 ADDITIONAL COMMENTS SHEET OBSERVER NAME: AREA of OBSERVATION: COMMENTS (Reference point of review number.) Use additional sheets as necessary POINTS of REVIEW Additional Sheet-4 POR-97
Biennial Exercise 9904 June 8,1999 ADDITIONAL COMMENTS SHEET OBSERVER NAME: AREA of OBSERVATION: COMMENTS (Reference point of review number.) Use additional sheets as necessary I l l 1 1 POINTS of REVIEW Additional Sneet-5 POR 98
m ,. 1 i i Biennial Exercise l June 8,1999 ! l 1 MESSAGES / ANNOUNCEMENTS Unless provided in this section, normal plant procedures will be used to make announcements. All announcements and messages shall be preceded and ended with the statement: !
"THIS IS A DRILL. THIS IS A DRILL."
l osoemo 10.1
DRILL 9904 1999 BIENNIAL EXERCISE
)
THIS PAGE INTENT ONALLY BLANK
l DRILL USE ONLY - GENERAL EMERGENCY Biennial Exerciso EMERIENCY REPORT FORM - TMI avessan toren renry amt wrae r:wryl June B,1999 CALL OUT onto O LEVEL 1 Onshift enav i O LEVEL 2 initial Response Emergency Organization & Onshift O LEVEL 3 Cir ig&,cy Support Organization & initial Response Emergency Organization & Onshift O This is a drill. This is a drill. O This is NOT a drill. This is NOT a drill. EMERGENCY CLASSIFICATION O An Unusual Event has been declared O A Site Area Emergency has been declared O An Alert has been declared O A General Emergency has been declared O The event has been terminated at hours on Emergency Ciessification Time Emergency Classification Date This represents: O An initial Classification Status O An escalation in Classification Status O No change in Classification Status O A reduction in Classification Status EVENT DESCRIPTION ThIreis: O No abnormal radioactive O An abnormal radioactive airborne O An abnormal radioactive liquid j rIII:se to the environment as a result of this emergency. MUSTER / EVACUATION AIIpre-designated personnel (!*itej j pr p J 1 ) , ~O, [ler_nairt at.Your,s_tations, ar)d ,ayv ait.f prt.h_er in_sf r_u_ctionti., , , , , , , , , , , , , , , , , , , , , , , ,_ _ , , , , , (2), O In radiologically controlled areas, report to the Rad-Con access point, and those outside radiologically controlled areas REPORT TO: (Select A or B or (for evacuation) C) A O Your supervisor and await further instructions ~~
~
-~ ~ ~~~~~~~~~~~~~~~~~~~~~~
chhasver) Meomrod vor 's ~ ~D~ ~ "haie~houiE F ~ ~ D~ ~ ~Waie~ house ~3~ ~ ~ ~ id'escritdrAute,' iia ~phiicibiel f
~
~D
- ~
c rai ing ceriteE ~ ~ ~ ~ ~ ~ b ~ ~ ho F" ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ via (describe toute, if apphcable)
'" *"* using the O North Bridge O South Bridge O North and South Bridge Assemble with your supervisor and await further instructions.
PROTECTIVE ACTION RECOMMENDATION O EVACUATE the 5 mile radius around the plant and SHELTER the 5 to 10 mile radius around the plant O SHELTER the 10 mile radius around the plant METEOROLOGICAL CONDITIONS and the wind speed is miles per hour. Wind direction is from RADIOLOGICAL INSTRUCTIONS (Required for radiological events) (sect, O No smoking, drinking, or eating until further notice. O Sound station emergency alarm O This is a drill. This is a drill. O This is NOT a drill. This is NOT a drill, N5465 (9/97) h Distribution: Green . Call Out/ Notification 10.2 . contact: Whne - ED copy; Pink - Plant Page
ORILL 9904 1999 BIENNIAL EXERCISE TH S PAGE NTENT ONALLY BLANK
Biinni;l Ex:;rcisa June 8,1999 DRILL USE ONLY Drill 9904 Number l l TMl Emergency Plan mmm implementing Document EPIP-TMI .02 l Reymon No. Tsue Emergency Direction 12 EXHIBIT 11 Page 1 of 1 This form is completed by the Emergency Director Assistant and approved by the Emergency Director. This form directs the evacuation and informs Dauphin County and PEMA of the evacuation to a Remote Assembly Area (RAA). Given to Dauphin County and PEMA, before the Evacuation for a Site Area Emergency / or optional evacuation ordered by the Emergency Director. MESSAGE 1: Approximately 300 non essentiai personnei witi be evacuating the (number) TMI site at approximately (time) am myy . 3g . _L _ to'sie (Select one) O fa TrainingCenter n m (EOk using the following route via the (Select one) 0y worth eridge 0 : South eridae O worth and south aridge Dauphin County M / +s-m4- requested to simulate providing traffic control 7 Select one) XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX PLANT PAGE ANNOUNCEMENT D 1. Tum on wheten speakers. READ MESSAGE SLOWLY MESSAGE 2: Attention all personnel. Attention all personnel. Pre-designated personnel only report: (Reed shadowind inicemalion from abise) Assemble with your supervisor and await further instructions. REPEAT MESSAGE l D 2. Tum ott wheben speakers. Approved: Date: , i (Emergency Director) 10.3 l DRILL USE ONLY
DRILL 9904 1999 BIENNIAL EXERCISE I e
)
TH S PAGE INTENT ONALLY BLANK
Biennial Exercise June 8,1999 ' MESSAGE: EC-1 ' T=0 / 1530 Hours Scenario / Clock FROM: ECC Controller TO: Drill Controllers. Observers. Participants GIVEN: Plant Pace System and Radio . MESSAGE: ATTENTION ALL PERSONNEL. ATTENTION ALL PERSONNEL. The time is now T = 0. All drill participants issued portable radios switch to Channel 5. The time is now T = 0. All drill participants issued portable radios switch to Channel 5. THIS IS A DRILL. THIS IS A DRILL. N io 10.4
Biennial Exercise June 8,1999 MESSAGE: IP-1 T = 10 / 1540 Hours Scenario / Clock FROM: In Plant Rover TO: Aux Operator or Control Room
- GIVEN: Verbally or dial 2070. 2071. 2069*
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
All main steam safety valves have reseated. THIS IS A DRILL. THIS IS A DRILL.
- See Observer instructions 1
l l l 1-1 ososmo 10.5
Biennial Exercise ! June 8,1999 '
. j 1 MESSAGE: OE-1
- T = 15 / 1545 Hours Scenario / Clock FROM: Operations Evaluator
.TO: Control Room Staff GIVEN: Verbally q . MESSAGE: THIS IS A DRILL. THIS IS A DRILL. '
Do not commence a plant cool down until the cause of the trip is determined. I THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
I i l I osasseio 10.6 2
Biennial Exercise - June 8,1999 MESSAGE: EC-2* T = 16 / 1546 Hours Scenario / Clock FROM: ECC Controller TO: Emeroencv Director GIVEN: Verbally
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
Do not deescalate from the ALERT classification. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
l 1 osemio 10.7 L.
Biennial Exercise June 8,1999 i MESSAGE: EC-3* T = 35 / 1605 Hours Scenario / Clock. FROM: ECC Controller TO: Shift Supervisor GIVEN: Verbally
]
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
)
Declare an ALERT in accordance with EAL A4.2. i THIS IS A DRILL. THIS IS A DRILL. '
- Contingency Message. See observer instructions.
l ososocio 10.8
Biennial Exercise June 8,1999 MESSAGE: OE-2* T = 90 / 1700 Hours Scenario / Clock FROM: Operations Evaluator TO: ECC Staff
- GIVEN: Verbally
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
Do not secure the "A" Reactor Coolant Pump. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
I I 1 l 1 ososseio 10.9
.j
Biennial Exercise June 8,1999 MESSAGE: OE-3* T = 90 / 1700 Hours Scenario / Clock FROM: Operations Evaluator TO: ECC Staff GIVEN: Verbally . MESSAGE: THIS IS A DRILL. THIS IS A DRILL. Cool down at a rate of 50*F/ houri 10 F/ hour. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.-
N88810 ' 10.10
Biennial Exercise June 8,1999 MESSAGE: OE-4* T = 95 / 1705 Hours Scenario / Clock FROM: Operations Evaluator TO: ECC Staff GIVEN: Verbally
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
Close MU-V-3. THIS IS A DRILL. -THIS IS A DRILL.
- Contingency Message. See observer instructions.
ososesto - 10.11 (\ , .. .. . .. . .... ., , . . . . . . . _ . . . . . . _ _ . . . . . . . . . _ . . . . . . _ . . . . . . . . . . . . . _ . . . . . . . . . . . . . .
Biennial Exercise June 8,1999 MESSAGE: OE-5* T = 120 / 1730 Hours Scenario / Clock FROM: Ooerations Evaluator TO: ECC Staff GIVEN: Verbally MESSAGE: THIS IS A DRILL. THIS IS A DRILL. Commence a plant cool down at a rate of 50 F/ hour 10 F/ hour. THIS IS A DRILL. THIS IS A DRILL. j
- Contingency Message. See observer instructions.
1 J ososocio 10.12 L.
m 3 Biennial Exercise June 8,1999 i MESSAGE: EC-4* T = 165 / 1815 Hours Scenario / Clock FROM: ECC Controller-
.TO: Emeroency Director ' GIVEN: Verbally . MESSAGE: .THIS IS A DRILL. THIS IS A DRILL.
Declare a SITE AREA EMERGENCY in accordance '..ith EAL S2.1. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
NOTE: Emergency Action Level S2.1 BARRIER STATUS POINTS - COMMENTS RCS Intact 0 FUEL Lost 5 Activity:t3000 Cl/cc CONTAINMENT Lost 3 WDL-V-534 & 535 open Total Points 8 7.8.9.10 points = SAE massio - 10.13 i i
tc Biennial Exercise June 8,1999 j l
. MESSAGE: IP-2 T = 205 / 1855 Hours Scenario / Clock FROM: In Plant Rover TO: Auxiliarv 00erator 4
GIVEN: Verbally
)
{
. MESSAGE *: THIS IS A DRILL. THIS IS A DRILL. )
[ Deliver betwsan T = 195 (1845 hours) and T = 215 (1905 hours) only] Water is flooding out of a large break between the pump and the discharge valve on the "F" Circ Water Pump. THIS IS A DRILL. THIS IS A DRILL. [Deliverafter T = 215 (1905 hours)] THIS IS A DRILL. THIS IS A DRILL. The Circ Water Pump House is flooded with muddy brown water and all of the pumps are submerged. THIS IS A DRILL. THIS IS A DRILL.
- See Observer Instructions 08088010 10.14
l Biennial Exercise June 8,1999 MESSAGE: IP-3 . T = 220 / 1910 Hours Scenario / Clock FROM: ' In Plant Rover TO: Emeroency Repair Team or Auxiliarv Operator GIVEN: Verbally
. MESSAGE *: THIS IS A DRILL. THIS IS A DRILL.
WDL-V-534 just slammed shut. THIS IS A DRILL. THIS IS A DRILL.
- See Observer Instructions commio 10.15 u__----_--____---__ .
L Biennial Exercise June 8,1999 i MESSAGE: EC-5* T = 220 / 1910 Hours Scenario / Clock FROM: ECC Controller TO: Emeroency Director /Emeroency Director Assistant GIVEN: Verbally 1
. MESSAGE: THIS IS A DRILL. THIS IS A DRILL.
Provide the following message to Dauphin County and PEMA. THIS IS A DRILL. THIS IS A DRILL. Approximately 300 non-essential personnel will be evacuating the TMl site at approximately _ time to the (Select one) O Training Center O EOF' Using the following route i via the (Select one) O North Bridge O South Bridge O North and South Bridge Dauphin County is requested to simulate providing traffic control. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
I l i m es m 10.16
et Biennial Exercise June 8,1999 MESSAGE: - EC-6* T = 270 / 2000 Hours Scenario / Clock FROM: ECC Controller TO: Emeraencv Director GIVEN: Verbally MESSAGE: THIS IS A DRILL. THIS IS A DRILL. Declare a GENERAL EMERGENCY in accordance with EAL G2.1. THIS IS A DRILL. THIS IS A DRILL.
- Contingency Message. See observer instructions.
NOTE: Criteria for EAL G1.1 may also be met. menoso 10.17
Biennial Exercise June 8,1999 MESSAGE: IP-4 T = 330 / 2100 Hours Scenario / Clock FROM: In Plant Rover TO: Emeroency Reoair Team or Auxiliarv Operator GIVEN: Verbally
. MESSAGE *: THIS IS A DRILL. THIS IS A DRILL.
MS-V-4A just slammed shut. THIS IS A DRILL. THIS IS A DRILL.
- See Observer Instructions I
l l I m es
- 10.18 -
{
Biennial Exercise June 8,1999 MESSAGE: EC-7 T = 360 / 2130 Hours Scenario / Clock FROM: ECC Controller TO: Drill Participants / Controllers / Observers
- GIVEN: Verbally. Plant Pace. and Telephone MESSAGE: ATTENTION ALL PERSONNEL. ATTENTION ALL PERSONNEL.
The exercise is terminated. The exercise is terminated.
*See Observer instructions.
l ooosesio 10.19
DRILL 9904 1999 BIENNIAL EXERCISE DRILL GROUND RULES
- 1. Approach and perform all tasks with the same attitude, professionalism, and enthusiasm as if the situation were real. Do not assume that certain actions are unimportant because "THIS IS ONLY A DRILL". All actions are to be performed and not simulated, unless the action will result in personnel harm, damage to plant equipment or change the actual plant status.
(For example:
- 1) Procurement of repair parts via a vendor or warehouse
- 2) Troubleshooting a failed component by use of test equipment
- 3) Checking for a pulse and breathing on a simulated injured and / or unconscious person.
Although a task may appear to be redundant, inconvenient or a waste of materials, the task should still be performed in that it provides a realistic sense of timing and assures the observer that the action can and will be performed during actual accident (emergency) conditions.
- 2. Actually sign-off procedures as actions are performed, unless otherwise directed. Used procedures will be replaced following the drill. To minimize conflict between drill conditions and actual plant status precede and end communications with "THIS IS A DRILLI THIS IS A DRILL!"
(This is to include the plant page, radio and intercom as a minimum.) Off site notifications and l emergency personnel call outs are actually performed.
- 3. Ensure that observers are aware of your activity by verbalizing your actions (For example:
procedures used, actions initiated, personnel contacted, decisions made, etc.). State WHAT you are doing, WHY you are doing it, HOW you will do it and WHAT procedures you will use. This will promote a more accurate observer evaluation. Plant data is provided to selected emergency response facilities (TSC, EOF, PTFC) via data links to CRT's from the Plant Reference Simulator. If Simulator indications are questionable, check with the facility observer or Plant Data Controller to validate the indications prior to taking actions. Ifin doubt, ASK. W19904 SECT _11 11.1 l
DRILL 9904 1999 BIENNIAL EXERCISE
- 4. Prompting by drill observers is not allowed. Observers will only provide information that is normally available by visible or audible inspection. (For example: meter readings but not historical trends, instruments currently alarming, etc.)
- 5. Obey all plant page announcements. For example, do nct eat, drink or smoke after the "no eating, drinking or smoking" announcement is made. Unless otherwise announced, personnel muster and accountability will be performed for nonexempt personnel. Site evacuation will be demonstrated using only designated individuals.
Additionally, Radiological Controls and Security requirements are to be followed. This means:
- 1) Do not violate drill Rad Con barriers,
- 2) Follow Rad Con instructions (e.g., wearing respirators and/or PC's),
- 3) Do not violate Security procedures (i.e., piggybacking, etc.)
- 6. Drills are run from the Simulator. Therefore, calls normally made to the Control Room are to be directed to the Simulator Control R.oom, if they pertain to the drill. During the drill, the Simulator is accessible by Plant page (use the red button), radio (Channel 5) and telephone (948-2069, 948-2070, 948-2071, or 948-2063 [RAC]).
- 7. The Drill RWP number is: 160456.
i WS90& SECT.,11 11.2
DRILL 9904 1999 BIENNIAL EXERCISE PLEASE NOTE: The following is a breakdown, by discipline and number, of personnel working on a randomly s;lected shift for the 1999 Biennial Exercise. This is the maximum number that will be allowed to p;rticipate at the beginning of the exercise. Any number between this maximum and the minimum on-shift staffing level required by the Emergency Plan is acceptable. For this EXERCISE, initial r:sponse for paged individuals who fill the Emergency Plan Table 6 and Table 7 positions will not be d2 layed, allowing a normal response for that time of day. Those people filling positions ao11isted q in Emergency Plan Table 6 or Table 7 will only be allowed to start participating 30 minutes after their emergency response facility has been activated. Multiple staffing will not be allowed for any duty roster position. - A 30 minute delayed response time will be used to simulate call out of additional personnel who respond to the emergency from on shift personnel not initially participating in the drill. Section Breakdown Total Number Security SPSS " Max. number of Security Personnel SSPO " (SPO) immediately available for this SPO " drill has been provided to Security Management Warehouse Stockkeeper B - 2 2 TMI-1 Ops SS-1 13 SF-2 CRO 4 AO-6 TMI-1 Chemistry Tech - 1 1 TMi-1 Rad Con - GRCS-1 3 Tech - 2 TMI-1 Maintenance Supr - 1 8 Tool room - 1 1&C-2 Mechanic - 2 Electric - 2 Utility Utility - 2 2 STA STA-1 1 WD904\ SECT _11 11.3
DRILL 9904 1999 BIENNIAL EXERCISE TH S PAGE NTENT ONALLY I BLANK l I I J W:0904GECT 11 11.4
DRILL 9904 AGU NUCLEAR BlackInk Only Training Attendance Fofm Page of Office Use Only.) r<ecem u. - . rm Date ' Li niti$1s - Date ! Ei n'itials 1 Date ' in'itials Program No. T2685 Title EMERGENCY PREPAREDNESS TRAINING PROGRAM Cycle / Week Location Unit Group No. C:urse No. 11.4.06 Course Occurrence Status (A/C) Course Revision Course Completion Date C:urse Description __ EMERGENCY PLAN TRAINING Le: son No. 089 Taken Date Lesson Status (C/M) Lcsson Revision Lesson Plan No. Instructor SSN Actual Hours Mode Lesson Completion Date Les:on Description BIENNIAL EMERGENCY PREPAREDNESS DRILL Social Exam Security P/Fil/ElW Grade Printed Name Signature *" Number (%)
'\
1 I l l
*** Make entry for this column only if directed by instructor.
See reverse for Mode. Date. Status. Grade and Actual hours format. N 2071 (076 WORD /-lis) 11.5
n. I DRILL 9904 Social Exam Security P/F/lE/W Grade Printed Name . Signature
- Number (%)
Method of Evaluation Attachments Written (Category Type ) l TCR Exam Cover Sheet Oral Blank Exam Seating Chart Practical Factor Exam Key Other Other Student Exam instructor Comments
. I hereby acknowledge that the persons listed on this Training Aftendance Form have attended the indicated training as specified.
' Submitted by Signature. Social Security Number Date
-OR.
XXX - XX - XXXX Instructor Signature SSN on front Date Mode Format Date Format Status Format Basic Prin Sim (BPS) On-the-job (OJT) MM/DD/YY Active (A)
. Correspondence (CCS) Originator (ORG) Example: 01/01/96 Complete (C) . Drill (DRL) On-shift training (OST) Make up (M)
Examination (EXM) Replica sim (RPS) Grade Format Film . (FLM) School (SCH) Pass (P) Actual Hours Format Laboratory (LAB) Self Study (SS) Fail (F) XXX.X Lecture (LEC) Seminar (SEM) Incomplete (l) Example: 40.0 Videotape (VTP) Evaluator (E) Walver (W) 11.6
DRILL 9904
\GUNUCLEAR BlackInk Only Training Attendance Form Page of 1 Office Use Only;l. -
mm : .
- r.n= c , . r=
Date " I lnitial'sL Date ' > Initials 4 1 Date ' ini0als Program No. T2685 Title EMERGENCY PREPAREDNESS TRAINING PROGRAM Cycle / Week Location Unit Group No. C:urse No. 11.4.06 Course Occurrence Status (A/C) Course Revision Course Completion Date C!urse Description EMERGENCY PLAN TRAINING Lesson No. .089 Taken Date Lesson Status (C/M) Lcsson Revision Lesson Plan No. Instructor SSN Actual Hours Mode Lesson Completion Date Le: son Description BIENNIAL EMERGENCY PREPAREDNESS DRILL Social Exam Security P/F/t/E/W Grade Printed Name Signature Number (%)
*" Make entry for this column only if directed by instructor.
see reverse for Mode. Date, Status, Grade and Actual hours format. N 2071 (o7/96\ WORD /-lis) 11.7
cr DRILL 9904 l i Social Exam Security PFMElw Grade Printed Name Signature
- Number (%)
Method of Evaluation Attachments Written (Category Type i TCR Exam Cover Sheet Oral Blank Exam Seating Chart Practical Factor Exam Key Other Other Student Exam instructor Comments: I hereby acknowledge that the persons listed on this Training Affendence Form have attended the indicated training as spectred Submitted by Signature Social Security Number Date
.OR.
XXX - XX - XXXX Instructor Signature SSN on front Date
. . Mode Format Date Format Status Format Basic Prin Sim - (BPS) On-the-job (OJT) MM/DD/YY Active (A)
C1rrespondence (CCS) - Originator (ORG) Example: 01/01/96 Complete (C) Drill - (DRL) On-shift training (OST) Make up (M) Examination (EXM) Replica sim (RPS) Grade Format Film . (FLM) School (SCH) Pass (P) Actual Hours Format
' Laboratory (LAB) Self Study (SS) Fall - .(F) XXX.X Lecture (LEC) Seminar (SEM) incomplete (l) Example: 40.0
. Videotape - (VTP) Evaluator (E)
Waiver (W) 11.8
r
, DRILL 9904 Appendix A Plant Data Unit 1 indications are normally provided from the Plant Reference Simulator data base. The indications in the ECC are the same as those normally displayed in the plant control room. The data for the Emergency Response Facilities (ERF's) is provided via data links from the Plant Reference Simulator similar to the method employed by the plant computer. The sheets in this section may be used under the direction of the Plant Data Controller when the Plant Reference Simulator is not functional and the backup means are causing confusion to the drill participants.
I 1 APPENDIX A CONTENTS Backup Data Sheets Al-1 to Al-73 , 4 Incore T/C Data A2-1 to A2-73 l A.O j 1
DRILL 9904 1999 BIENNIAL EXERCISE THIS l PAGE INTENTIONALLY BLANK
)
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1530 hours scenerlo Time Ts 0 or 0.0 Hours 0 tenules L REACTMTYCONTROL Neutron Fher 1E+08 CPS -4 ' AAFS &% . Baron Conc. 36 PPM Generated V* 883 (NI-1) ; .@3) (Ni-5) l CRDPoseon 100 100' 100 100 100 100 93 30 % Withdrawn (Gai) (Gm 2) (Gm 3) (God) 5 (Gp6) (Gp7) (GPS) IL OOOUNG 1 BG1 SECONDAftY , LOOP A LOOP B Loop A LoooB OTSO Level (WR) 213 04 inches 213 01 inches : Th (WR) 601 67 4 60166 Y I OfSO Level (CD) 60 85 % 60 83 % Tc (WR) 666 65 4 556 60 V OTSO Pressure 90815 PSIO 908Op PSIO RC Flow 72 29 E6 (laue/hr) 72 26 E6 Feed Flow (Ibm /hr) 5 35 E6 5 31 E6 RC Pressure 2167 8 PSIO
)
Tube,Shell DetteT C 00 V 0 00 Y Pressureer Level 219 8 Inches Condensate Tank Level 14 98 Ft 14 98 Ft RCP - Operebon RC-P.1A RC.P 1B RC-P.1C RC-P-1 ON ON ON ON Turhne Bypass Vele Poston 0 00 % 0 00 % Pressuruer Hesters (Operetne?) YES Condenser Pressure 3 24 inches HD (Absolute) incore SCM = XV Avg $Highestincere 614 67 Y CONTAIN0MNT RC8 Meksup Fkm 15 GPM Purge Volvo A Closed B Closed C Closed D Closed RCS Leedown Flow 47 OPM RB Pressure 14 85 PSIA Temperature 108 96 V Mehe Up Tank Level 64 0 Inches RB Water Sump 35 54 inches Floor 0 00 inches R8 Hydro 9en 0 % SAFETY SYSTEMS R5 FANS AHE1A Fest AHE18 Fest AME1 Fest HPI Flow (OP A 00 B 00 C 00 D 00 RB Sprey Flow Loop A 0 00 GPM Loop 8 0 00 GPM - > SWST Level R Ft LPIFlow A 0 00 OPM B 0 00 GPM ftAD WASTE i Core Flood Lewi A 1162 Ft B 19 62 Ft Misc. Weste 5 90 Ft Core Flood Pressure A- God 79 P810 8 604 79 PSIO Aun Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B O 00 GPM ! A1 1 I a
Operational Data Drill 9904 '
. This is BACKUP data for the ECCr TSC and EOF. Clock Time = 1838 hours ]
Scenerlo Time Ts 5 or 0.0 Hours 06 Minutes 4 L REACTMTYCONTROL Neutron Flux 1E+08 CPS 4 000 AMPS 100 4 % Baron Conc, 36 PPM Generated Megewelts 0 (Nki) - (Ni 3) (Ni-5) CRD Poollion 900 100 100 100 100 100 92 " 30 % Withdrawn (G > i) (Gs 2) (Gz3) (Gad) (Op6) (Gz 7) (GP8) II. COOUNG
' gig SECONDARY LOOP A LOOP B Loop A Loop B OT80 Lovel(WR) 102 93 Inches 10300 inches Th (WR) 60188 'F 60167 Y OT80 Level (OP) 57 09 % 5780 %
Tc (WR) 557 70 V 557 68 Y OT80 Pressure $7735 P810 g77 33 PSIG RC Flow 70 84 E6 (stemr) 7129 E6 Feed Flow (Ibm /hr) 4 37 E6 4 40 E6 RC Pressure MP810 0 00 Y
~
Tuce-Shell DeltsT 0 00 V Pressunser Level ginches Condensate Tank Level 1496 Ft 14 97 Ft RCP Operston RCA1A RC P-1B RC P-1C - RC-P-1 ON ON ON ON Turtune Bypass Velve Possbon 56 41 % 56 41 % Pressuruter Healers (Operable?) YES Condenser Pressure 2 63 Inches Hg (Absolues) Incore SCM 95 40 Y Avg 5 Haghestincore 614 76 Y CONTAINRetT RCS Meheup Flow 6 OPM Purge Velve A h B Closed C Closed D Closed RCS Leedown Flow 48 OPM R8 Pressure 14 86 PSIA Temperature ' 10896 V
. Mehe Up Tank Level 84 2 Inchee R8 Weser Sump 3554 inches Floor 0 00 inches RB Hydrogen 0 %
SAFETY SYSTEMS RS FAN 8 AHE1A Fast AME18 Feet AME1 Feet
- HPl Flow (OP A C0 B 00 C 00 0 00 R8 8 prey Flow Loop A 0 00 GPM LoopB 0 00 OPM BWST Lews RFt '
LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A RFt 8 1102 Ft Misc. Wesse 5 90 Ft Core Flood Pressure A 604 77 P810 , B 604 77 PS!O Aa Bido Sump 19 00 % Emergency FW Flow . A 0 00 GPM s 0 00 GPM A13
l Operational Data Drill 9904
- This is SACKUP data for the ECC, TSC and EOF, .
Clod Time = ' 1840 hours Scenario Time Tm to or 0.0 Hours 010 Minutes
'l. REACTMTYCONTROL Neutron Fler ,0E+06 CPS - 8157 M 0.046 % . Boron Conc. 38 PPM Germerated SPde 0 (Nki) (Ni-3) ' (NLS) -
CRO Poelhon 0 0 0 0 0 0 0 30 % Withdrawn (G > il (G > 2) iG > 3) (G > 4) (Gp8) (Gp 7) (Gp8)
- 11. COOUNG IBGE asCONDARY LOOP A LOOP B Loop A LoopB OTSO Level (WR) di 58 inches 46 55 Inches
. Th (WR) 556 34 Y 566 33 Y OTSO Level (OP) 8 07 % 9 07 %
Tc (WR) 554 07 T 554 08 Y OTSO Pressure 101079 PS40 1010 67 PSIO RC Flow 70 91 E6 (leauhr) 70 88 E6 ( Food Flow (IbnWr) 0 01 E6 0 00 E6 RC Pressure 1852 3 PSIO TW Dette T 4 85 T 4 79 Y Pressuruter Level 105 5 inches Condensees Tonk Level 14 95 Ft 14 97 Ft RCP Operston RC-P.1A RC P-18 RC P 1C . RC P 1 ON ON ON Turtune Bypass Velve Poseon 14 78 % 15 94 % Pressunter Hesters ~ (Operable 7) YES Condenser Pressure 1 40 Inches Hg (Absowie) incore 8CM 70 46 Y Avg. 5 Hghest incore 566 64 Y CONTANAMNT RCS Mohoup Flow 37 OPM Purge Velve A Closed B- Closed C Closed D dosed - RC8 Leedown Flow 44 OPM RB Proesure 14 85 PSLA . Temperature 108 95 V Mene Up Tank Level '00 9 inches , RB Water Sump 35 54 Inches ' Floor - 0 00 inchee ' RS Hydrogen 0 % s SAFEW SYSTEMS R8 FAN 8 AME1A Feet AHE1B Fast AME1 Fest HPIFlow(OP A 00 B 00 C 00 0 R8 Sprey Flow Loop A 0 00 OPM Loop B C 00 GPM BWST Level ' gFt LPI Flow A 0 00 GPM B 0 00 OPM RAD WASTE Core Flood Level A ' 1162 Ft B 1182 Ft Mac. Weste 5 90 Ft Core Flood Pressure A 004 75 P90 B 004 75 PSIO Aut Badg Sump 19 00 % Emergency FW Flow A 0 00 OPM B 0 00 GPM A13 C
....m_ . . _ . . . _ . ._ ..
Operational Data Drill 9904 This is BACMUP data for the ECC TSC and EOF. Clock Time = 1846 hours scenerlo Thue ~ T= 15 or 0.0 Houre 015 Minutes L REACTMTY CONTROL Neutron Fkm 0878 CPS -0 930 AMPS 0.04 % Baron Conc. 36 PPM Generated Wgenotts 0 (Ni-1) (Ni-3) (Ni 5) CRD Posthon 0 0 0 0 0 0- 0 30 % Withdrawn (Gp1) (GP 2) (G z 3) (Gp4) (G>6) (Gp 7) (Gp 3)
- 11. COOUNG-Rfst SECOMIARY LOOP A LOOPB Loop A - Loop B OTSG Level (WR) 46 40 inches 46 94 _ inches Th (WR) - 555 21 Y 565 21 Y OT80 Level (OP) 6 63 % 8 77 %
Tc (WR) MV EY , OTSO Pressure 101031 PSIG 101101 PSIG RC Flan 7093 E6 pheWhr) 70 90 E6
- i. Food Flow OLanmr) AE6 0 13 E6 RC Pressure 18000 PS60 Tube 4 hell Done T 13 09 *F 13 29 T Pressurser Level 1056 inches Concensate Tank Level 14 97 Ft 15 05 Ft RCP Opereben RC P-1A RC-P-1B RC P 1C ' RC-P-1 ON ON ON Turtune Bypees Velve Poseon 7 77 % 9 78 %
Proes'urser Hectors (Oportble?) YES Condenser Pressure 1 36 inches Hg (Absolute) Incore SCM ' 73 48 Y
. Avg 5 HIGheetincore 566 50 Y CONT M RCS Mahoup Flow 38 GPM Purge Velve A g B Closed C Closed D .gogd,
. RCS Leedown Flon 44 OPM RB Pressure 14 05 P31A Temperature 106 93 Y Mehe Up Tank Lowel 72 7 inches . RB Water Sump ' 35 54 inches Floor 0 00 Inches R8 Hydrogen >0 %
SAFETY SYSTEMS R8 FANS ' AME1A Fast AHE1B Feet AHE1 Feet HPl Flow (GP . 'A 00 8 00 C 00 0 0 Rs spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BW8T Lew - RFt
.LPlRow A 0 00 OPM 8 0 00 GPM RAD WASTE Core Flood Level A 1182 Ft 8 1162 Ft Misc. Weste 6 90 Ft Core Flood Pressure A 00473 PSIG ' 8 00473 P810 Aus Sidg. Sump 19 00 %
Ernagency FW Flow A R OPM 8 0 00 OPM A14 [
r-Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1650 hours scenario Time Tm 20 or 0.0 Hours 020 Minutes L REACTMTY CONTROL Neutron Rux 233.2 CPS -11 ' AMPS 0.04 % Boron Conc. 38 PPM Generated Megawatts 0 (NI-1) (NI-3) (Ni-5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn i (Gia 1) (Gi> 2) (Go 3) (G > 4) 5) . (G p 6) (Gp 7) (Go 8)
- 11. COOUNG Bfd SECONDARY LOOP A LOOPB Loop A LoopB OTSO Level (WR) 47 25 inches 46 12 inches Th (WR) 555 92 Y 555 90 Y OTSG Level (OP) 8 82 % 8 A8 %
Tc (WR) 555 04 Y 555 05 Y OTSG Pressure 101166 PSIG 101162 PSIG RC Flow 7100 E6 (Ibathr) 70 96 E6 (ibnuhr Feed Fhm (Ibm /hr) 0 08 E6 0 05 E6 - RC Pressure 2015 7 PSIG TutW Delta T 20 28 Y 19 57 Y { i Pressuruer Level 106 5 Inches _ Condensate Tank Level 14 95 Ft 15 06 FL
'RCP Operation RC-P 1 A RC-P-18 RC P 10 RC P-1i ON ON ON A Turtune Bypass Vatvo Postbon 7 66 % 10 24 %
Pressuruer Heaters (OperetWet) YES Condenser Pressure 1 35 inches Hg (Absolute) incore SCM 82 01 Y - Avg 5 Highestincore 555 94 Y CONTAINMENT l RCS Makeup Fkm ?.2 GPM Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Flow 44 GPM RB Pressure 14 85 PSIA Temperature 108 91 V Make Up Tank Level 64 0 inches RB Water Sump 35 54 inches Floor 0 00 Inches RS Hydrogen 0 % SAFETY SYSTEMS RBFANS AHE1A Fast AHE18 Fast AHE1 Fast l I HPIFlow(GP A 00 0 00 C 00 D g RB Sprey Flow Loop A 0 00 GPM Loop B 0 00 GPM ) l BWST Level 56 22 FL _ LPI Flow A __0 00 GPM B 0 00 GPM RAD WASTE ; Core Flood Level A 1162 FL B 1162 Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 71 PSIG B 604 71 PSIG Aunt Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 6
I i 1 l i Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1656 hours Scenario Time Te 25 or 0.0 Hours 025 Minutes
- 1. REACTMTY CONTROL Neutron Flur S9 78 CPS -11 AMPS 0.01 % Boron Conc. 36 PRJ Generated MeDawatts O (NL1) (NL3) (NL5)
CRD Position 0 0 0 0 0 0 0 30 % Withdrawn (GP)1 (GP 2) (G P) 3 (GP 4) (Gp 5) (Gp 6) (Gp 7) (Gp 8) g gxxuawazw. m= - w--- i7
~ - _ = naray w ----: w w e- ~~wr~m ----- -- -wi, num.wna
- 11. COOLING M SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 4618 inches 47 30 inches Th (WR) 555 61 Y 555 60 Y OTSO Level (OP) 8 46 % 8 73 %
Tc (WR) 554 77_Y $54 78 Y OTSO Pressure 101012 PSIG 101163 PSIG RC Flow 7110 E6 {lbm/hr) 71 07 E6 (ibethr Feed Flow (Ibm /hr) 0 20 E6 0 to E6 RC Pressure 2099 6 PSIG Tube Shell Delta T 21 32 V 22 27 4 Pressurtrer Level 104 6 inches Condensate Tank Level 1440 FL 14 96 Ft RCP Operaton RCA1A RC.P 18 RC-P 1C RC P 1 ON ON ON ON Turtane Bypass Valve Posecn 4 99 % 7 96 % Pressunzer Heaters (Operable?) YES Condenser Pressure 1 35 inches Hg (Absolute} Incore SCM 87 89 Y , .
-u'4.,, -
- i,, < AMMM NEMTN Avg 5 Highestincore 555 84 Y QONTAINMENT l
37 GPM Closed C RCS Makeup Flow Purge Vahe A Closed B Closed D Cior.ed l l RCS Letdown Flow 46 GPM RB Pressure 14 A5 PSIA Temperature 108 89 4 Make Up Tank Level 43 5 inches ' RS Water Sump 35 54 Inches Floor 0 00 inches
^ ' - ~ ~
l E"' - - - - a- ^ - ' ^ - - RB Hydrogen 0 % ! l SAFETY SYSTEMS RB FANS AHE1A Fast AHE18 Fast AHE1 Fast i HPt Flow (GP A 00 B 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 56 22 Ft - - LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft 8 1162 Ft , Misc Waste 5 90 Ft Core Flood Pressure A JM 68 PSIG B 604 68 PSIG Aux. Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B C 00 GPM l l A1 8 I
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1400 hours Scenario Time T= 30 or 0.0 Hours 030 Minutes
- 1. REACTMTY CONTROL Neutron Flux 66.35 CPS -11 AWS 0.04 % Boron Conc. 36 PPM Generated Megawatts 0 (Ni-1) ' (NL3) (NL5)
. CRD Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1). (Go 2) (G m 3) . (Gp4) . G 5) (Gp8) (G p 7) (G s 8)
- 11. COOLING 8G1 SECONDARY LOOP A LOOP B Loop A LoopB OTSG Level (WR) 45 69 inches 44 93 inches Th (WR) 555 39 Y 555 39 Y OTSG Level (OP) 8 78 % 8 55 %
Tc (WR) 554 63 Y 554 61 Y OTSG Pressure 101105 PSIG 1010 56 PSIG RC Flow 7116 E6 (ineWhr) 7114 E6 (itmwh Feed Flow (Ibm /hr) 0 03 E6 0 15 E6 i RC Pressure 2155 6 PJc 3 I Tutdell DeltsT 2246_ v 21 49 *f" Pressunrer Level 1069 Inches Condensate Tank Level 14 72 Ft 14 99 Ft RCP Operation RC-P 1A RC#-1B RC-P-1C RC P-1 ON ON ON ON Turtune Bypass VaNo Posdion
- 7 85 % 8 50 %
Pressunrer Heeters - (Operab6e?) YES Condenser Pressure 1 36 inches Hg (ADsolute) I Incore SCM 9186 Y Avg 5Highestincere 555 62 Y 99liIAINfdENI RCS Makeup Flow 28 GPM Purge VaNo A Closed B Closed C Closed D Cbsed j l RCS Letdoam Flow 47 GPM RB Pressure 14 85 PSIA Temperature 108 88 Y ' Make Up Tank Level 80 4 inches RB Water Sump 35 54 trwhos Floor 0 00 Ir:ches RB Hydrogen 0 % SAFETY 5YSTEMS RB FANS AHE1A Fast AHE18 Fast AHE1 Fast HPi Flow (GP A C0 B 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 56 22 Ft LPl Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Misc. Weste 5 90 Ft Core Flood Pressuro A 604 66 PSIG B 604 66 PSIG Aunt Bldg Sump 19 00 % Emergency PW Flow A 0 00 GPM B C 00 GPM A17 J
Operational Data
.. . , . Dril19904 Thl8 is BACKUP data for the ECC TSC and EOF. Clock Time = 1886 hours scenario Thee . Tm 88 or 3.0 Hours 885 Minutes
- 1. ' REACTMTY CONTROL Neutron Flux 53.56 CPS ' -11 Mrs - 0.04 % Baron Conc. 38 PPM Generated Mogowens 0 (Ni-1) (Ni-3) (Ni-6)
CRO Position 0 0 0 0 0 0- 0 30 % Withdrawn
~
(G > 1) (G)2) (Gz 3) (Gp di (Gs 8) (GP 7) (Gp 8)
- 11. COOUNG' M SECOMMRY LOOP A LOOP 8 Loop A Loop 8
-OTSO Level (WR) 45 30 inches 48 53 behes
. Th (WR) MY 556 24 Y OTSO Level (OP) 8 44 % 8 56 %
Tc (WR) ' 554 48 Y 554 47 Y - OTSO Pressure 1010 29 P8k3 1010 80 PSG RC Flow 7118 E6 (ineer) 7118 E6 (senenw Food Flow (Itwnmr) 0 14 E6 0 12 E8
- RC Pronauro - 2187 2 P810 Tube 8hed DetteT . _221Y 23 91 Y Pressurser Level 1078 inches Condensate Tank Level 14 88 Ft 15 04 Ft RCP Opersoon RC.P.1A RC P.18 RC.P.1C RCP.1r ON ON ON ON__ Turtune Bypeos Veive Poemon 5 19 % 5 75 %
Pressurser Hesters (Operable?) E Condenser Pressure y, inches Hg (Absolute)
. Incore 8CM MV __
Avg 5 Hghestincore 566 48 Y CONTABMENT RCS Mahoup Flow ' 19 GPM Purge Vehe A Closed 8 Closed ' C Closed D Closed RC8 Letdown Flow 47 OPM R8 Pressure 14 85 PS4A Temperature 108 88 Y Make Up Tank Level ' 87 5 Inew R8Weser ' Surnp 35 54 inches Floor 0 00 inches
~; R8 Hydrogen 0 %
RAFETY SYSTEMS R8 FANS . AME1A Fast AHE18 Fast AHE1 feet HPI Flow (OP A. 00 8 00 C 00 0 Q_Q ___ R8 Spray Flow Loop A JLOPM Loop 8 0IX) OPM
~
BW8T Level ' RFt _
' LPI Flow A- 0 00 GPM - 8 0 00 OPM RAD WASTE Core Flood Lonel A 1182 Ft 8 1182 Ft Mac. Wesse 5 90 Ft
' Core Flood Proesure 'A 804 84 P810 8 g P90 Aux. Bldg Sump 19 00 %
Emergency FW Flow A~ gGPM - 8 0 00 GPM l 1 -<- A1.$ l 1 I
i l l l Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Tirne = 1610 hours Scenario Tltne Tm 40 or 0.0 Hours 040 Minutes
- 1. REACTMTY CONTROL Neutron Flux 5112 CPS -11 AMPS 0.04 % Boron Conc. 36 PPM Generated Megawatts 0 l
l (NI-1) (N1-3) (NLS) i CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (G 1) (G 2) (G 3 (G 4 (G
- 11. COOLING - -
l E9.1 =
~
SECONDARY LOOP A LOOP B Loop A Loop B i
. OTSG Level (WR) 46 76 inches 45 86 inches Th (WR) 555 07 Y $55 06 Y l OTSG Leel(OP) 8 74 % 8 75 % l Tc (WR) 554 35 4 554 35 Y OTSO Pressure 101158 PSIG 1011 21 PSiG I RC Fkyw 71 19 E6 (tbmthr) 7116 E6 (ibmmr _
Feed Flow (Ibmmr) 0 03 E6 0 10 E6 RC Pressure 21716 PSIG Tub N Detta T 24 69 Y 23 99 Y Pressurser Level 107 1 inches -
- ; Condensate Tank Level 14 60 Ft 15 07 Ft RCP Opersoon RC-P-1 A RC-P-1B RC-P 1C RC P 1 . f ON ON ON ON - Turtane Bypass Valve Posdion 6 05 % 8 08 %
Pressuruer Hesters (Operable?) YES Condenser Pressure 1 36 inchea Hg (Absolute) incore SCM 93 26 Y ... . . . . . . . . . , . . Avg 5 Highestincore 555 28 Y CONTAINMENT RCS Makeup Flow 18 GPM - . Purge Valve A Closed B Closed C Closed 0 Closed RCS Leidown Flow 47 QPM RB Prer wo 14 85 PSA Temperature 108 85 V Make Up Tank Low 87 4 inches _ RB Water Sump 35 54 Inches Floor 0 00 inches 1 b .2ww' AhQ C , RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B ]s,tAHE1 Fest l HPI Flow (GP A 00 B 00 C 00 0 00 .RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 56 27_ Ft ... ,H. , ...2 V- .. ; J l l LPl fluw A 0 00 GPM B 0 00 GPM RA0 WASTE l l Core Flood Level A 1162 Ft B 1162 Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 62 PSP 3 8 604 62 PSIG Aux Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM , A1 O
Opersbonal Data Drill 9904 This is B' ACKUP data for the ECC, T8C and EOF. _
' Clock Time = 1818 hours Scenerlo Time Ta ' 40 or 0.0 Hours 040 Minutes
' l.' REACTMTY CONTROL
!, Neutron Pher 48.97 CPS -11 AWS 0.04 % Boron Cono. 36 PPM Generated Mogowetts 0 (Nk1) (NI-3) (Nb6)
CRD Poeshon 0 0 0 0 0 'O O 30' % Withdrawn (G p 1) (G) 2) (Qs 3) (Go4) (Gp8) (G) 7) (Go 8) IL COOUNG-Bg;g _ aECONDARY LOOPS LOOPB Loop A Loop 8 OTSO Level (WR) 45 33 inches 45 S1 Inches Th (WR) MY MV OT8G Level (OP) 8 61 % 8 51 % Te (WR) MT ,,jgd,,11,,Y OTSO Presswo 101072 PSG 101034 PSG
. RC Flow 7120 E6 (Munaw) 7117 E6 (
Feed Flow (ItWhr) 0 10 E6 0 20 E6 ' RC Pressure 2174 0 PSG Thl Done T 23 65 V 23 53 Y
'PreeswkerLevel . 106 7 inches Condennew Tank Level 14 55 Ft. 15 05 Ft RCP Operaten RC.P-1A ' RC-P 18 RC-P-1C RC-P.1 ON ON ON ON furtwne Bypees Velve Poseon 6 id % 6 08 %
Preneweer Heelers (Opere66e?) YE8 Condenser Presswa ,,,1,,g6_ inches Hg (Absokne) Incore sCM .. ,,,3},y,,,,4
- Avg Sh0heatincore 56513 5 CONT M RCS Wakeuo Flow 17 OPM PwgeVow A h B gC Closed OM RC8 Leedown Flow 47 ' OPM RS Pressure 14 SS PSA Temperstwo 10044 Y Mahe Up Tank Level 87 4 inches R8 Weest Sump 35 54 Inctes Floor 0 00 inches RB Hydrogen 0 %
SAFET? SYSTEMS RB FANS AHE1A Feet AME1B Feet AHE1 Fer* HPl Flow (OP A 00 8 00 C 00 D 00 RB Spcey Flow Loop A 0 00 GPM Loop 8 0 00 GPM i BW8Tlevel R Ft LPIFkm ~ A. 0 00 OPM B 0 00 OPM RAD WASTE Core Flood Lowel A 1102 Ft B 1102 Ft Mec. Weste 5 90 Ft Aux. Dadoswnp to 00 % >
- Core Flood Preeswe A ' gP80 8- M P90 Emergency FW Flow A. 0 00 OPM B X OPM A1 10
l l Operational Data l j Dril 9904 l This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1620 hours I Scenario Time Tm 50 or 0.0 Hours 050 Minutes L REACTMTY CONTROL Neutron Flux 4T.08 CPS -11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NL1) (NI-3) (N14) CRD Postteon 0 0 0 0 0 0 0 30 % Withdrawn .._.._ _ .....J9P_1 __ J SM L .JSR $) St L (GP S) _ ,f0g g _ j G Q _ ,_ , g L _ _ _ _ _ _ ii. COOUNG EQ3 SECONDARY LOOP A LOOP B Loop A LoopB
~ OTSO Level (WR) 46 27 inches 46 24 inches Th (WR) 554 76 Y $$4 76 Y 554 08 Y 554 09 Y OTSC Level (OP) 8 58 % _81%
Tc (WR) OTSG Pressure 1010 81 PSIO 101178 PSIG RC Flow 7170 E6 (Ibn hr) 71 18 E6 (an hr Feed Flow (Ibm /hr) 0 10 E6 0 04 E6 RC Pressure 2175 0 PSIG
- Tuth*lhell Delta T 24 46 Y 74 73 'F Pressuruer Level 10f!7 inches
- Condensate Tank Level 14 49 FL 15 03 Ft.
RCP Operanon RC-P-1 A RC# 1B RC-P-1C RC-P 1 - _ ON ON ON ON - Turtano Bypass Valve Posidon 4 61 % 7 21 % Pressuruer Healars (Operable?) JES - Condenser Pressure 1 36 inches Hg (Absolute) Incore SCM 93 82 V ~ Avg 6 Hghestincore 554 96 Y - ; CONTAINMENT RCS Makeup Flow 18 GPM Purge VsNe A Ckwed B Ckmed C Ckwd D Ckned RCS Letdown Flow 47 GPM RB Pressure 14 86 PSIA Temperature 108 A4 Y Make Up Tank Love! 67 4 inches :RB Water Sump 35 54 inches Floor 0 00 , inches
~ ~
0 %
' RB Hydrogen 1
SAFETY SYSTEMS RB FANS AME1A Fast AHE18 Fast AHE1 Fast HPI Flow (OP A 00 B C0 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Lovet 56 ?? Ft LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level, A 1167 Ft B R Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 58 PSIO B 604 58 PSIG Aur Badg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 11
Operational Data Dril19904 This is BACMUP data for the ECC. TSC and EOF. . Clock Tune => 1826 hours Scenario Time Te SS or 0.0 Hours 055 Minutes
- 1. REACTMTY CONTROL .
Neutron Flux 46 30 CPS -11 AhPS 0.04 ' % Baron Conc. 38 PPM Generated Megawans 0 (Ni-1) (Ni-3) (NI4). CRD Poethon 0 0 0 0 0 0 0- 30 % Withdrawn f (Gp1) (G p 2) (Gp 3) (Gp 4) (Gp8) (Gp 7) (Gp 8)
- 11. COOUNG.
' 3G3 SECONDARY LOOP A LOOPB Loop A LoopB OT80 Level (WR) 45 76 inches 45 48 inches Th (WR) 554 46 Y 554 05 Y OT8G Level (OP) 8 06 % 4 55 %
Tc (WR) - 554 01 Y 553 9G V OTSO Pressure 101106 PSG 101074 PSC RC Flow 71 21 ES peauhr) 7118 E6 ( Feed Flow (Ibmmt) 0 08 E6 0 08 E-RC Pressure M PSIO Tube Shell DeltaT 24 43 Y h% Pressursor Level 1085 inches Condensate Tank Level 14 44 Ft 1501 Ft RCP Operanon RC P 1A RC-P 18 RC-P-1C RC-P.1 ON ON ON ON Turtune Bypass Valvo Peseon 6 01 % 6 63 % Pressuruer Hectors (Operable?) . YES Condenser Pressure 1 36 inches Hg (Akeolute) Incore eCM - XV , Avg 5Hoheatlncore 554 e4 Y CONTABAAENT RC8 Meksup Flow 1r OPM t Purge Valve A h B Closed C Closed D Closed RCS Leedown Flow 47 OPU R8 Presswo 14 05 PSIA Temperature 106 43 Y Male Lip Tank Level - 47 4 ' inches RB Water Sump 35 54 inches Fioor 0 00 inches RB Hydrogen 0 % SAFETY SYSTERRS RB FANS AHE1A Fast AHE1B Fast AHE1 Fast HPIFlow(OP ' A :' OO B 00 C. 00 0 00 R8 8 pray Flow Loop A 0 00 _ OPM Loop 8 0 00 OPM
- SvVST Level - R Ft
' LPlFlow ' A 0 00 OPM B. 0 00 GPM RAD WASTE Core Flood Lo(W A 1182 Ft 8 _11g_ Ft Mac.Weste 6 90 Ft Core Fked Pressure A 804 56 P800 B gP800 Amt Side Sump 19 00 %
Emergency FW Flow - A 0 00 OPM 8 0 00 OPM A1 12
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1630 hours Scenario Time Tu s0 or 1.0 Hours 0 Minutes L REACTMTY CONTROL Neutron Flux 43 88 CPS 11 AMPS 0 04 % Baron Conc, 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (NI-5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn . . . . . . . . , . . . . . , . . . .iGP) 1 . . . . . .-(Gp 2)..,
..( Gp 3) (Go4) ., ty (.
. ., Gp 6) . .. (Gp 7).. , , , _ (Op 8). ,
IL COOLING E1 -
- 65CONDARY LOOP A LOOPB : Loop A LoopB OTSG Level (WR) 45 64 inches 46 23 inches Th (WR) 554 52 Y 554 52 T OTEG Level (OP) 8 55 % 8 69 %
Te (WR) 553 89 Y 553 89 Y - - OTSG Pressure 1010 70 PSIG 101171 PSIG RC Flow 71 21 E6 (awnthr) 7119 E6 (ibmihr' Feed Flow (itmvhr) 0 13 E6 0 08 E6 RC Pressure 2175 7 PSIG Tube Shell Delta T 24 19 Y 74 79 T Pressuruer Level 106 3 inches Condensate Tank Level 14 40 FL 15 00 Ft RCP Operaten RC-P 1A RC-P 1B RC-P 1C RC-P-1( - ON ON ON A; Turtune Dmass Valve Posmon 4 63 % 6 59 % Pressunter Heaters (Operable?) YES ! Condenser Pressure 1 36 Inches Hg (Absolute)
~
Incore SCM 94 11 V -
-M Avg 5 Highestincore 554 70 4 CONTAINME!il RCS Makeup Flow 15 GPM _
' Purge Valve A Closef B Closed C Closed D Closed RCS Letdown Flow 47 GPM RB Pressure 14 85 PSIA Temperature 10R 83 Y (
Make Up Tank Level 87 6 inches RB Water Sump 36 54 inctes Floor 0 00 inches i RB Hydrogen 0 % l SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B Fast AME1 Fast HPI Flow (GP A 00 B 00 C 00 f g_ RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BW51 Level 56 72 FL - [ M LPI Flow A 0 00 GPM B 0 00 GPM BAD WASTE Core Flood Level A 11 62 Ft B 1162 Ft . Mac. Weste 6 90 Ft Core Flood Pressure A 604 54 Psio B 604 54 PSIG Aa Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 OPM l at.u ! i
Operational Data Drill 9904 TNs is BACKUP data for the ECC, TSC and EOF. Clock Time = 1836 hours scenerlo Tune Tm 85 or 1.0 Hours 05 Minutes L REACTMTY CONTROL Neutron Phet 42 63 CPS 11 AAF S 0.04 % '8cron Conc, 38 PPM Generated Mogenetts 0 l (Nk1) (Ni-3) (N64) l CRD Positson 0 0 ~0 0 0 0 0 30 % Withdrawn (Gp1) (G p 2) (Gp 3) (Gp 4) 6 (Gp8) (Gp 7) (G p 8) { l IL COOUNG 3G1 SECONDARY LOOP A LOOPB Loop A LoopB CYTSG Level (WR) 45 97 inches 45 82 Inches Th (WR) 554 43 Y - 554 42 Y OTSG Level (OP) 8 88 % 8 58 %
. Tc(WR) MY MY '
OTSG Prenews 1010 97 PSIG 101072 PS10 RC Flow 71 21 E6 (theWM 7118 E8 ( Feed Flow (Itwn/hr) 0 06 E8 0 13 E6
- RC Pressure 2175f PSG Tut +8 hell Delts T J1V 24 08 V PressurserLowel ~ ginches Condensets Tank Level 14 35 FL 14 99 FL RCP Operaten RC-P-1A RC-P-18 RC P-1C RC-P 1 ON ON ON ON Turtune Bypass Volwe Position 6 11 % 7 07 %
Pressuruer Hesters (Operebie7) YES Condenser Pressure 1 38 inches Hg (Absolute) Incore SCM MV Avg 5 Hgphostincore 554 81 V CONTA M l RCS Makeup Flow 15 GPM Purge Velve A g B Closed C Closed D Closed RC8 Letoown Flow 47' GPM RB -Pressure 14 80 P6IA Temperature 108 82 V Molso up Tank Level 67 6 Inches RB Water Sump 3554 inches Floor 0CD inches RS Hyaragen 0 % SAFETY SYSTEMS R8 FANS AME1A Fest AHE18 Fest AHE1 Fest HPI Flow (GP A 00 .8 '00 .C 00 0 R9 Sprey Flow Loop A 0 00 GPM Loop 8 0 00 OPM BWST Level RFt ' LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1102 Ft B 1102 Ft Misc. Weste 6 90 FL Core Flood Pressure A 804 52 PSIG B 604 53 P84G Aux. Bidg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 14
1 l l t l Operational Data i 1 Drill 9904 l This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1640 hours scenario Time Tm 70 or 1.0 Hours 010 Minutes I. REACTMTY CONTROL Neutron Flux 41.31 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 l (Nl-1) (NI-3)
~
(NI-6) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn
., .., . . (O R). T
. (OA 2). , . . . .(G.93) (Go4) . , (G 5 ,
. (Gp6).. , , , (Op 7) , , . Gp
( 8)
- 11. COOLING ft,p.8 SECONDARY LOOP A LOOPB Loop A Loop B OTSO Level (WR) 45 71 inches 46 16 inches Th (WR) 554 31 Y 654 37 Y
]
OTSG Level (OP) 6 57 % 8 65 % i Tc (WR) 551 73 4 653 77 V
' OTSO Pressure 1010 61 PSIG 101090 PSIG RC Flow 71 ?? E6 (Ibethr) 71 19 E6 (Ibadhi l Feed Flow 0 11 E6 0 08 E6 RC Pressure 7175 7 PStG (Ibmthr)
)
1 Tube-Shell DeltaT 24 08 Y 24 54 V Pressunter Level 1061 Inches 1 Condensate Tank Level 14 31 FL 14 97 Ft RCP Opersoon RC-P 1 A RC.P-18 RC-P 1C RC-P.1 ON ON ON ON Turbme Bypasa Valve Posmon 4 80 % 6 16 % Pressurger Heaters (OperaNo?) YES Congenser Pressure 1 38 inches Hg (Absolute) Incore SCM 94 27 Y Avg 5 Highest incare 554 51 Y CONTAINMENT RCS Maneup Flow 17 GPM Purge Verve A Cimed 8 Ckmed C Ckmed D Ckmed RCS Letdown Flow 47 GPM R8 Pressure 14 65 PSLA Temperature 10882 V Make Up 7aak Level 87 7 inches RB Water Sump $5 54 in hes Floor 0 00 Inches
' .RB Hydrogen 0 %
SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B Fast AHE1 Fast l l HPIFlow (GP A _00 B 00 C 00 0 00 - :RB Sprey Flow Loop A 0 00 GPM Loop B C 00 GPM l
~
BWST Level 56 22 Ft l LPI Flow A E GPM B 0 00 GPM RAD WAllE Core Flood Level A 11 fl2 Ft B 1167 Ft Mrac Waste 5 90 Ft l Core Flood Pressure A 04 61 PSIG B 604 61 PSIG Aux. Blog Sump 10 00 % Emergency FW Flow A 0 00 GPM B C 00 GPM _-_ A1 15
i Operational Data Drill 9904 This is BACKUP data for the ECC. TSC and EOF, Clock Time = 1646 hours scenario Time Tm 75 or 1.0 Hours 015 Minutes L REACTIVITYCONTROL Neutron Flux 40.22 CPS -11 AMPS 0 04 % Boron Corm. 36 PPM Generated Megawatts 0 (NM) (NI-3) (NI-5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn (Gi> 1) (G P 2) (Gs 3) (Gad) (G p 6) (Gp D (Gps) . . . . IL COOLING ns.3 . SECONDARY LOOP A LOOP B i Loop A Loop B OTSG Level (WR) 46 07 inches 45 74 inches Th (WR) 554 26 V 554 25 V
- OTSG Level (OP) 8 68 % 8 60 %
Tc (WR) SM 67 Y 553 67 Y OTSG Pressure 1010 99 PSIG 1010 82 PSIG RC Flow 7122 E6 (Ituwhr) - 7120 E6 (ItmAr Feed Flow (lbrnthr) 0 06 E6 0 06 E6 RC Pressure 2174 8 PSIO Tube-Shell Delta T 24 52 V 24 12 Y Pressunzer Level 106 2 inches Condensate Tank Level 14 27 Ft 14 95 Ft RCP Operation RC-P-1A RC-P 1B RC-P-1C RC P-ti ON ON ON y_ Turtune Bypass Valve Posman 5 16 % 8 40 % Pressunzer Healers (Operable?) YES Condenser Pressure 1 36 inches Hg (Absolute) incore SCM 94 33 Y Avg 5 Highestincore 554 42 Y CONTAINMENT RCS Maloup Flow 16 GPM Purge Velve A Closed B Closed C Cksed D Closed RCS Letdown Flow 47 GPM RB Pressure 14 80 PSA Temperature 108 82 V Make Up Tonk Level 87 9 inches ' RB Weser Sump 35 54 inches Floor 0 00 inches RB Hyorogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B Fast AHE1 Fast l HPI Flow (GP A 00 B 00 C 00 D ,_ 0_ O_ _ . RB Sprey Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level X FL _ LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Mac Waste 5 90 Ft Core Flood Pressure A 804 49 PSIG B 004 40 PSIG auk Badg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 116 1 1 t
Operational Data Drill 9904 This is BACKUP data for the ECC. TSC and EOF. Clock Time = 1650 hours scenario Time Tm 80 or 1.0 Hours 020 Minutes L REACTIVITY CONTROL Neutron Flux 39.22 CPS -11 AMPS O 04 % , Boron Conc. 38 PPM Generated Megawatts 0 (Nbi) (NL3) (NI-5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn (GP 1) (GP 2) (GP 3) (GPd) . (Gp 5) (Gp C) (Go 7) (Gp 8) sum-vux:e, wm&K~ -i- m =M'C"- :2= m=- - ^ % m a m m m rw nxm x6 w M M B 58WE'X M 'NcK3N MUY?EKt
- 11. COOLING g 1[CONDARY LOOP A LOOPB Loop A Loop B OTSO Level (WR) 45 77 Irches 46 04 inches Th (WR) 65418 Y $5417 Y OTSG Level (OP) 8 60 % 6 62 %
To (WR) 553 60 Y 553 60 V OTSG Pressure 1010 51 PSIG 1010 56 PSIG RC Flow 7122 E6 (ibmthr) 7120 E6 (ibmthr Feed Flow (ibm /hr) 0 12 E6 0 11 E6 RC Pressure 2174 5 PSIG lube-Shell Delta T 24 09 Y 24 32 W Pressurizer Level 106 0 inches Condensate Tank Level 14 23 Ft 14 93 Ft RCP Operation RC.P-1 A RC P 18 RC.P.1C RC-P 1 ON ON ON ON Turtune Bypass Valve Posibon 4 83 % 5 86 % Pressunzer Heaters (Operable?) YES Condenser Pressure 1 36 inches Hg (Absolkts) incore SCM 94 39 Y -
'-N 1
I Avg 5 Hegnestincere 554 34 V . CONTAINMENT RCS Makeup Flow 16 GPM - Purge Vehe A Closed B Closed C Cksed 0 Closed RCS Letomm Flow 41 GPM RB Pressure 14 65 PSIA Temperature 108 82 V Make Up Tank Level AA 0 inches c RB Water Sump 35 54 inches Floor 0 00 inches 7 > RB Hydrogen 0 % SAFETY SYSTEM.E RB FANS AME1A Fast AHE18 Fast AHE1 Fast HPI Flow (GP A 00 0 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM
' ' ' E BWST Level 66 22 Ft -
l LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 47 PSIG B 604 47 PS40 Aunt Badg Sump 19 00 % Emergency FW Flow A 0 00 GPM B C 00 GPM A1 17 1
i l Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Tirne = 1666 hours scenar6o Time Ts 85 or 1.0 Hours 025 Minutes
- 1. REACTIVITY CONTROL Neutron Flux 37.19 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (Ni-5)
CRD Positon 0 0 0 0 0 0 0 30 % Withdrawn rg.7 - , - .....,mm .
-.---.-.m- - < . . $:
- 11. COOLING ggj EE.CONDARY LOOP A LOOPB -
Loop A Loop B
- OTSG Level (WR) 46 02 inches 45 85 inches ,
Th (WR) 55411 Y 55410 V l
!OTSG Level (OP) 8 63 _% 8 61 %
Tc (WR) 653 55 V %3 54 Y OTSG Pressure 100329 PSIG 1003 93 PSIG RC Flow 7122 E6 (Ibmthr) 7120 E6 (temthr Feed flow (Ibm /hr) 0 04 E6 0 05 E6 l l RC Pressure 2174 4 PSIG Tube 4be Delta T 24 28 Y 24 12 Y Pressurger Level 106 4 _ inches _ Condensate Tank Level 14 14 Ft 14 88 Ft RCP Operebon RC P-1A RC.P 1B RC-P-1C RC-P-1 . ON ON ON ON Turtune Bypass Valve Posthon 9 70 % 10 45 % Pressunzer Heaters (Operable 7) YFS _ Condenser Pressure 1 37 inches Hg (Absolute) g ,scu g4 se g me -ogymri:g?wrvwm15mvem:1%yw&we % q ...n, ,;.- Avg 5 Highest ancore 55417 Y (: -.l .,. CONTAINMEP(( 1 RCS Makeup Flow 18 GPM f,s.;a A Closed B Closed C Ckmed D Ck> sed z . v. PurgeValve k'. RCS Letdown Flow 47 GPM Pressure 14 84 PSA Temperature 108 81 V j;.3.
.!:; RB Make Up Tank Level 88 2 inches ~ ~ RB Water Sump 35 54 inches Floor 0 00 inches unwamwrgEr.fmygKlme: ;;w 'reammva-mmatre-- RB Hydrogen 0 %
S AFETY SYSTEMS 'RBFANS AHE1A Fest AHE1B Fast AHE1 Fast HPl Flow (GP A 00 8 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM LoopB 0 00 GPM BWS7 Level 56 22 Ft
';~ -
'- ' ~ ~ -'^! . W .-
- ~'"4 LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Msc. Weste 5 90 Ft Core Flood Pressure A 604 42 PSIG B 604 42 PSIG : Aut Bldg Sump 19 00 %
Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 18
Operational Data Dril19904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1700 hours Scenarlo Time Ta 90 or 1.0 Hours 030 Minutes
- 1. REACTMTY CONTROL Neutron Flux 36.35 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (N1-5)
CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp1) (Gp2) (G (Gp 4) (Gp 5) (Gp 6) . (Gp 7) (Gp 8) y_:wv~~ > -amagigggysywmaWMYmnswauw;p mwmmwmw-- 3) - - n;.w---- mm?%~ mygp>wg'ggg g ggg;ggggggggg;3m it. COOLING BGE SECONDARY LOOP A LOOP B Loop A Loop B OTSG Level (WR) 45 41 inches 44 95 Inches Th (WR) 550 30 V 550 28 Y OTSO Lowl(OP) 8 41 % 6 34 % Tc (WR) 549 71 V $49 56 Y OTSG Pressure 101016 PSIG 996 20 PSIG RC Fkm 71 34 E6 (ibmihr) 71 34 E6 (ibmthe Feed Flow (Ibm /hr) 0 05 E6 0 06 E6 RC Pressure 21096 PSIG Tube-Shell Detta T 73 29 Y 24 40 V Pressuruer Level 1780 inches Conraensate Tank Level 14 11 Ft 14 86 Ft RCP Operabon RC.P 1A RC-P 1B RC.P 1C RC-P.1 ON ON ON ON Turtune Bypass Valve Poseon 3 67 % 6 28 % Pressuruer Heaters (Operabie?) YES Condenser Pressure 1 36 inches Hg (Absolute) Incore SCM 91 14 V ' ' Amed6MMd@EtEi+[gpMEId5N5fdTMMMMQ Avg 5H;ghestincore 553 27 Y CONTAINMENT RC8 Maxeup Flow 3 GPM Purge Valve A Closed B hC Closed D Closed RCS Letsown Flow 0 GPM RB Pressure 14 84 PSIA Temr*raturn 108 80 V Make Up Tank Lews 79 5 inches RB Water Sump 35 54 eches Floor 0 00 inches
&; ,utw=dL -- " - - u-> i r .---mzawa RB Hydrogen 0 %
SAFETY SYSTEMS RB FANS AHE1A Fast AHE18 Fast AHE1 Fast HPl Flow (GP A 00 8 00 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 CPM BWST Level 56 27 Ft ama w=-mmm%f92iMXWMMMERhS1MAf2&MMWh?#RRhfM MR3 l gj7 LPI Flow A 0 00 GPM B 0 00 GPM {(,) RAD Wr,43 y ofj Core FW Level A 1187 Ft B 1167 Ft N'y Mise, Waste 5 90 FL 3.?@ Core Flood Pressure A 604 40 psp 3 B 804 40 PSIG ),ifij Aus Bldg. Sump 19 00 % s;Id Emergency FW Flow A 0 00 GPM B 0 00 GPM pjk A1 1s i l k
Operational Data Drill 9904 Thic is BACKUP data for the ECC, TSC and EOF. Clock Time = 1705 hours scenario Time Tm 95 or 1.0 Hours 035 Minees
- 1. REACTMTY CONTROL Neutron Flux 35 8 CPS 11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (Ni-1) (NL-3) (Ni-6)
CRD Posthon ') 0 0 0 0 0 0 30 % Withdrawn
- 2) (G 3) (G 4) (G 5) (G 6)
IL COOUNG B74 SEOOND.ABY LOOP A LOOP B Loop A Loop B OTSG Lowl(WR) ,A 67 inches 44 55 inches Th (WR) 546 75 Y 546 72 T OTSG Level (OP) 6 14 % 8 14 % Tc (WR) 546 to V 546 03 Y CTSG Pressure 998 21 PSIG 987 94 PSIG RC Flo (Itanthr) 7150 E6 (innwhr) 71 49 E6 (Ibadhr Food Flow (Ibm /hr) 0 05 E6 0 10 E6 RC Pressure 20870 PSIG Tube-Shell DelteT 27 35 T 23 13 T Pressuruer Level 120 9 inches l Condensate Tank Level 14 07 Ft 14 85 ,Ft RCP Operation RC#-1A RC-P-1B RC-P 1C RC P 1 ON ON ON ON Turbme Bypass Velve Posman 6 76 % 7 97 % Pressurzer Hesters (Operable?) YFS Condenser Pressure 13s Inches Hg (Absolute) Incore SCM 89 75 T MEEE3 A15 Highest incore 552 78 Y -CONTAINMENT RCS Makeup Fkm 0 GPM Purge Velve A Closed B Closed C Clnsed D Closed RB Pressure 1484 PSIA Temperature 108 80 V RCS Letdow Flow _0_ GPM Make Up Tank Level 84 7 inches . RB Water Sump 35 54 inches Floor 0 00 Inches RS Hydrogen 0 % SAFETY SYSTEMS RB FANS AME1A Fast AHE1B Fest AHE1 Fest HP1 Fkm (GP A 00 B 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop B C 00 GPM BWST Level 56 22 Ft ,. . . . LPlFkm A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 11(7 Ft B 1167 Ft Mac. Weste 5 90 Ft Core Flood Pressure A 604 38 PSIG B 604 38 PSIG Aa Bidg Sump 19 00 % Emerpency FW Flow A 0 00 GPM B C 00 GPM A1 20
Tr Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1710 hours scenario Time Ta 100 or 1.0 Hours 040 Minutes j L REACTMTY CONTROL Neutron Flux 35.24 CPS 11 AMPS O 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NL3) (Ni-5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn G 3) . (G 4 (G 5) (
- 11. COOLING BC1 SEcoNQAM LOOP A LOOPB .
Loop A LoopB OTSG Level (WR) 44 17 inches 44 04 inches Th (WR) 64168 V $4168 Y OTSG Level (OP) 7 97 % 7 91 % Tc (WR) 54133 V 64174 V
,OT8G Pressure 966 61 PSIG 959 21 PSIG RC Fiow 71 77 E6 (ibnwhr) 7176 E6 (lbmfhr Food Flow (Ibm /hr) 0 12 E6 0 05 E6 RC Pressure 21141 PSIG Tube-Shell Delta T 20 97 Y 71 63 V Pressurser Level 106 9 inches Condensate Tonk Level is 04 Ft 14 64 Ft RCP Operation RC-P 1 A RC-P-1B RC P-1C RC-P 1 ON ON ON ON Turtune Bypass VsNe Posmon 6 76 % 7 97 %
Pressurser Heaters (Operable?) YES Condenser Pressure 1 37 inches Hg (ADsolute) Incore SCM 95 74 V - A ' ' 8#"I" Avg 5 Highestincore 648 97 Y COP (TAINMENT RCS Manoup Flow 0 GPM ' Purge Valve A Closed B Closed C Clwd D Closed RCS Lordown Flow 0 GPM RB Pressure 14 64 PSIA Temperature 108 60 V Make Up Tonk Level 86 4 inches RB Water Sump 35 54 inches Floor 0 00 inches RB Hydrogen 0 % EAFETY SYSTEMS RBFANS AHE1A Fast AHE1B Fast AHE1 Fest HPI Flow (GP A 00 B 00 C 00 D 00 RB Sprey Flow Loop A 0 00 GPM Loop B 0 00 GPM j 1 BWST Level 56 27 Ft - - ' - - - 1 LPI Flow A 0 00 GPM B 0 00 GPM HAD WASTE l l Core Flood Level A 1167 Ft B 1167 Ft Mac. Waste 5 90 Ft l Core Flood Pressure A 604 36 PSIG B 604 36 PSIG Aux Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1. It
1 Operational Data Drill 9904 This is SACMUP data for the ECC, TSC and EOF, Clock Tinu = 1716 hours scenerlo Time To its or 1.0 Nours 045 8Ainutes
- 1. REACTMTY CONTROL-NevisonPkm 34 98 CPS - 11 AWS 0.02 % Boron Conc. 36 PPM Generated 8dogsweets 0 (Ni-1) (NL3) (NL-6)
CRO Poedenn 0 0 0 0 0 0 0 30 % Withdrawn 1 2 3 4 G8 N.- ~COOUNG' g SECONDARY LOOP A LOOPB Loop A Loop B OTSO Lewi(WR) 43 $9 inches 43 48 inches Th (WR) , 637 72 Y 637 71 Y OTSO Lowel(OP) , 7 60 % 7 87 % Tc (WR) RT ,,lE,QU,LT OTSO Pressure MPSIO MP810 RC Flow R E6 R E6 Feed Flow (Ibmthr) 0 13 E6 0 13 E6 RC Pressure ,21gJ7,,PetG Tube-Shell DetteT 19 36 4 XT I Pressurser Level 115 6 inches Comeensene Tank Level 14 Of Ft 14 83 Ft RCP Operation . RC P-1A - RC P-1B RC P 1C RC-P-1 , ON ON ON ON Turthne Bypass Vehe Poseon ? 00 % 7 97 % l i PressunserHesters ' (Operable?) YES Condenser Pressure 1 38 inches HD (Absolute) ! IncoreSCM - 102 70 V Avg. 6 Highest incere 64513 T *=..i... ta RC8 Mohnup Flow 30 OPM Purge Vehe A h 8 Onsed C Closed D Closed ; I
- RC8 Letdown Flow 0 OPM R8 Pressure 14 84 P8IA Temperature 100 79 V l Mohe Up Tank Level - 80 7 inches RB Water Sump 35 54 inches Floor 0 00 inches Rs Hydrogen 0 %
(' SAFETY SYSTEMS R8 FANS AHE1A Fast AHE1B Fast AHE1 Fest HPI Flow (GP A 00- B 00 C 00 0 00 R5 5 prey Flow Loop A 0 00 OPM LoopP 0 00 GPM BWST Level g Ft A 0 00 OPM B 0 00 GPM RAD WASTE
\ ' LPlFlow Core Flood Levue A 1182 Ft B' 1102 Ft Mac. Weste 6 90 Ft Core Flood Pressure A MPelG B gPSIG Aux. 34dO. Sump 19 00 %
Em.reency FW Flow A 0 00 OPM B C 00 GPM A1 22
i Operational Data
. Dril19904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1720 hours Scenarto Time T= 110 et- 1.0 Hours 800 Annutes
[
~ 1.f- REACTMTY CONTROL Neutron f%x 33 94 CP8 -11 AArs 0 02 % Boron Conc 36 PPM Generated Megewees 0
) M1) (Ni-3) (Ni-6)
).
CRD Poeshon 0 0 0 0 0 0 -0 30 % Wuhdrawn IG p 1) (G P 71 IG z 3) IGo d) (GPS) IGz D qGp a) II. COOUNG Bfs1 AECOMWtY LOOP A . LOOPB Loop A Loop B OT80 Level (WR) 44 33 inches gInches
. Th (WR) MT MT OTOG Level (OP) 7 51 % 7 38 %
,. Tc (WR) M4_ T 63167 T OTsG Pressure MP80 80263 PSG RC Flow 34 98 E6 (meWhr) 36 02 E6 (
Feed Flow (Itwnshr) 0 13 E6 . 0 09 E6
- RC Pressure MPelo '
Tut e-8 hell Dens T 14 73 T 18 $2 Y, PressurserLevel _ 1217 inches Condensate Tank Level 13 96 Ft 14 81 Ft RCP Opersoon RC-P 1A RC P 1B RCA1C RC-P.1 ON OFF OFF ON Turtune Bypass Velve Poemon 7 04 % 7 97 % Pressuruer Heelers . (Operable 7) YE8 Condenser Pressure 1 37 inches Hg (Absolute) incore SCM MV Avg. 6 H69heet incere 54018 Y CONTANAAENT RCS Mahaup Flow . 73 OPM Purge Velve A h B gggd, C Closed D g
. RC8 Londoum Flow 0 GPM 8tB Pressure 14 to PSIA Temperature 108 77 Y Mehe Up Tank Level 67 9 inches R8 Water Sump 35 54 inches Floor 0 00 inches RB Hydrogen 0 %
SAFETY SYSTEMS RsFANS AHE1A Fest AHE18 Fest AHE1 Fast HPt Flow (OP A 00 B 00 C 00 0 00 R8 8 pray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Led RFt LPi Fiow A 0 00 oPM B 0 00 GPM RAD WASTE Core Flood Level . A gFt B R Ft Mac. Weste 6 90 Ft Core Flood Pressure A 3P840 B 604 34 P810 Aux. Bldg. Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A123
Operational Data Drdi 9904 This is BACMUP d8ta for the ECC. TSC and EOF. Clock Time = .1725 hours ~ Sceneno Thne Tm ' 116 or - 1.0 Nours oss tenusse
- l. REACTMTY CONTROL Neutron Pkm 33 27 CPS 11 AMPS: 7E-04 % Boron Conc. 36 PPM Generated Mogenetts 0 (Ni-1) (Ni 3) M6)
CRO Posits 0 0 0 0 0 0 0 ,30 % Withdrawn
<% 1) (GP2) 1% 3) IW 4) (G)S) (G s 7) (Gp 8)
- 11. COOUNG
- g. .
SECORMARY
., LOOP A . LOOPB Lors A Loop B OTSO Level (WR) 42 84 inches 4235 inches Th (WR) 930 31 *F . EV OT80 Lowl(OP) 7 31 -% 7 26 %
Tc (WR) 529 30 V 528 08 Y OT80 Pressure 867 06 P810 86106 PSIG RC Flee ' 36 05 E6 (maWhr) X E6 Feed Flow (Itwnmt) 015 E6 0 15 E6 RC Pressure MP860 Tube 8 hell DeltaT 14 61 V 19 2$ V Pressursor Lowel 1270 inches Condensate Tank Level 13 96 Ft 14 79 Ft RCP Operston RC#.1A RC.P 1B RC.P 1C RC#-1 ON OFF OFF Turtune Bypass Vsewe F4mbon 9 01 % 10 22 % Pressurwer Hesters (Operable 7) L Condenser Pressum 136 Inches Hg (Absolues) incere SCM 11313 V Avg 6 Highestincore 636 94 Y CONTAINMENT RCS Mahoup Flow 52 GPM Purge Vehe A h B Closed C Closed D Closed RC8 Letfown Flow 0 OPM RB Pressure 14 84 PSIA Temperature 108 76 Y Mehe Up Tank Level 72 0 inches RB Water Sump 36 54 Inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AME1A Feet AHE18 Feet AHE1 Fast HPI Flow (OP A. 00 B 00 C 00 D RB Spray Flow Loop A 0 00 OPM Loop B C 00 GPM SW$T Level , RFt ' LPI Flow A- 0 00 OPM B 0 00 GPM RAD WASTE Core Flood Level' A ' 1162 Ft B 1142 Ft Mac. Weste 5 90 Ft Core Flood Pressure A MP8eo B 004 33 P810 Aun 86de Sump 14 00 % Emergency FW Flow ' A 0 00 GPM . B 0 00 GPM A1. M
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time = 1730 hours scenario Time Ts 120 or 2.0 Hours O Minutes
- 1. REACTMTY CONTROL Neutron Flux 32.74 i
- 3 -11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NL1) (NL3) (N64)
CRD Posstion 0 0 0 0 0 0 0 30 % Withdrawn
. . . . . . . , .(G P 9. . . (G .DP . . . ,. . (O EP . , . .. . . !GPd ) (.
. (Gp5) . , , , , , G p 6) . . . . (Gp 7), . , . . , JGo,B), . , . , , , , , , . .
- 11. COOLING RQ.g . SECONDARY LOOP A LOOPB Loop A LoopB OTSO Level (WR) 4222 inches 41 75 inches Th (WR) 525 00 Y 524 97 Y OTSG Level (OP) 7 09 % 7 03 %
Tc (WR) 524 00 V 523 72 Y OTSG Pressure 85120 PSIG 829 88 PSIG RC Flow 3513 E6 Obsthr) 3514 E6 (ibnwhr
., Feed Flow (Ibm /hr) 0 05 E6 0 11 E6 RC Pressure 2156 2 PSIG Tube-Shell DeRa T 14 09 Y 18 26 T Pressurgerlevel 171 9 inches Condensate Tonk Level 13 92 Ft 14 79 Ft RCP Operaten RC.P 1A RC-P.1B RC P-1C RC.P.1 ON OFF OFF ON Turtune Bypass Vah, Positen 4 79 % 8 25 %
Pressuruer Heaters (Operable 7) Yrs Condenser Pressure 1 37 inches Hg (Absolute) Incore TM 114 73 Y ' ' ' Avg SHighestincore 632 79 4 CONTAINMENT RCS Makeup Flow 0 GPM Purge Valve A Closed 6 Closed C Closed O . Closed RCS Letdown Flow 0 OPM RB Pressure 14 79 PSIA Temperature 10874 Y Make Up Tank Level 79 0 inches RB Weter Sump 35 54 Inches Floor 0 00 inches
;RB Hydrogen 0 %
D.AECTY SYSTEMS 'RB FANS AME1A Fast AHE1B Fast AMEt Fast HPi Flow (GP A 00 B 00 C 00 0 00 'R8 Spray Flew Loop A 0 00 GPM Loop B 0 00 GPM
's BWST Level 56 22 Ft -
LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1182 Ft B 1162 Ft Misc. Waste 5 90 Ft
)
Core Flood Pressure A 604 32 PSIG B 604 32 PSIG Aux. Bldg Sump 19 00 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 25 l I l j
f~ Operational Data Dril19904
./~. .TMs is SACKUP data for the ECC, TSC and EOF,' clock Time = ins hours - (. Scenerlo Tiene To tas or 2.0 Hours es telnutes
- 1. REACTMTYCONTROL Neutron N 32 45 CPS -11 Al#8 0 od % Baron Conc. 36 PPM Generated Mogenens o Mi) @3) M)
- cno poemen o i o 0 o o o o 30 % wMhdrawn (G p i) (G)21 (G > 31 (G a d) 6 '(G3 6) (G m 7) (G>$)
- 11. COOUNG 3G3 AECOIMtY LOOP A - LOOPB Loop A LoopB OT8G Level (WR) 41 63 inches . 4119 inches Th (WR) ' MY MV OTSO Lowel(OP) 0 86 _% 6 80 %
. ic (WR) - gY 516 78 Y OT8G Pressure 81763 P8a0 79026 P880 RC Flow . RE6 ' ' (amewhr) RE6 - (
Feed Flow (Itwruhr) 0 00 E6 0 06 E6 RC Pressure 21$0 9 P800 Tube Shell Dans 7 1319 Y 17 27 y Pressurser Level ginches Condensate Tank Level 13 to Ft 14 7ILFt RCP Opershon RC P 1A . RCA1B RC P.1C RC P.1
' ON OFF OFF ON Turtme Bypass Velve Poseon 5 64 % e 81 %
Pressurmer Healers (Operable?) L Condenser Pressure 1 37 inches Hg ', Absolute) Incore SCM .. 198 75 Y Aw0 6 H8ghest incore ' $2642 Y CONT m f . RCS Mahoup Flow 19 OPM Purge Vehe A Closed B Oooed C CWeed D Closed 'g
'1 e f RC8 Leedown Flow 0 GPM RB Pressure 14 84 PSA Tempe sture 108 72 T
]
Make Up Tank Level 90 0 inches RD Water Sump SS $4 inches Floor - 0 00 inches R8 Hydrogen 0 % SAFETY SYSTEMS R8 FANS AHE1A Fast AHE1B Fast AHE1 Fast HPI Flow (OP '.A 00 .B C0 C 00 0 00 R8 8 prey Flow Loop A 0 00 GPM LoopB 0 00 GPM BW8T Level RFt-LPI Flow A. 0 00 OPM B 0 00 OPM AAD WASTE Core Fked Level A 1162 Ft B 1162 Ft Mac. Weste 5 90 Ft
. Core Flood Pressure A RPSIG ,B MPSIG Aux. Bid 0 Sump 19 00 %
Ernergoe.cy TW Flow A 1 GPM B A OPM , I i A1.as i I
7: Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1740 hours Scenarlo Time Ta 130 or 2.0 Hours 010 Mmutes L REACTIVITY CONTROL Neutron Flux 32.14 CPS 11 AMPS 0 04 % Boron Conc. 38 PPM Generated Megawatts 0 (NI-1) (NL3) (NLS) CRD Posthon 0 0 0 0 0 0 0 30 % Withdrawn
. . @lR1 ) .
@@ Il . . . fGp 3),, . fGp4) .
(G 6) (G p 6) . (Gp 7). . . (Go8)
- 11. COOLING 8g1 SECONDARY LOOP A LOOP B Loop A Loop B OTSG Level (WR) 43 75 inches 43 20 inches Th (WR) 515 28 Y 515 74 T OTSG Level (OP) e 72 % 6 64 %
Tc (WR) 51474 T 513 98 Y OTSG Pressure 782 14 PSIG 764 43 PSIG RC Flow 35 28 E6 Obnuhr) 35 30 E6 (ihmthr Feed flow (IbnAr) 0 05 E6 0 17 E6 RC Pressure 7137 3 PSIG Tube-Shell Detta T 14 31 4 to 17 T Pressureer Levet 1731 inches Condensate Tank Level 13 86 Ft 14 78 Ft RCP Operaban RC P 1A RC-P-1B RC.P 1C RC.P-1 ON OFF OFF ON Turbme Bypass Vatwo Posebon 5 64 % 8 81 % Pressuruer Hesters (Operable?) YES Condenser Pressure 1 37 inches Hg (Absolute)
* ~- -
-' d incore SCM 17112 T -- + -
Avg 6 HrJhest incere 62314 T COP (TAINMENT RCS Makeup Flow 33 GPM . Purge Valve A Closed B Clored C Cknect D Ckmed RCS Letdown Flow 0 GPM RB Pressure 1484 PSIA Temperature 108 70 V Make Up Tonk Level 92 1 inches - RB Water Sumo 35 54 inches Floor 0 00 inches y____ _ , _ _ _ _ _ . .
; yy,,' --
RB Hydrogen C% SAFETY SYSTEMS . RB FANS AHE1A Fest AME1B Fast AHE1 Fast HPI Flow (GP A 00 B 00 C 00 D 00 . RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 66 27 Ft ' '"'< '- - - ' I LPl Flow A 0 00 GPM B 0 00 GPM RAD WASTE ' Core Flood Love: A 1162 Ft B 1182 Ft Misc. Waste 6 90 Ft Core Flood Pressure A 604 31 PSIG B 604 31 PSIC , Aux. Badg Sump 19 00 % e,eno, m ,. A 0. G~ B 0. e~ l A1. IF l l
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time e 1746 hours
&cenar6o Time To 136 or 2.0 Hours 016 Minutes L REACTMTY CONTROL Neutron Flux 3179 CPS 11 AMPS 0.04 % Baron Conc. 36 PPM Genereted Megawatts 0 (NL1) (NL3) (N1-6)
CRD Positen 0 0 0 0 0 0 0 30 % Withdrawn G 1 G 2) G3 (G 4 (G 5 G6 (G (G
. 3 IL COOLING M SECONDARY LOOP A LOOP B Loop A Loop B CTSO Level (WR) 42 05 inches 41 21 inches Th (WR) 50814 Y 50812 Y OTSG Level (OP) 6 32 % 6 28 %
Tc (WR) 507 31 Y 506 91 Y OTSO Pressure 750 43 PSIO 733 24 PSIO RC Flow 3516 E6 (ibmihr) 3514 E6 (Ibm /hr Feed Flow (Itwn/hr) 0 05 E6 0 05 E6 RC Pressure 1406 5 PSIO Tuten DelteT 11 10 Y 14 54 Y Pressunzer Level 215 8 inches Condensate Tank Level 13 84 Ft 1473 Ft RCP Operaten RC-P-1A RC#-1B RC-P-1C RC.P-1 ON OFF OFF ON Turtnhe Bypass Vehe Posnion 5 64 % 8 81 % Pressunzer Hesters (Operetne?) YE9 Condenser Pressure 1 37 inches Hg (Absolute) Incore SCM 70 57 Y .. ,..- Avg 5 Highestincore 518 48 Y . CONTAINMENT RCS Makeup Flow 26 GPM Purge Vehe A Closed B Closed C Closed D Closed RCS Letdown Flow 0 GPM RB Pressure 14 84 PSIA Temperature 108 67 Y Meke Up Tera Level 81 6 inches RB Water Sump 28 52 inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTEMS !RB FANS AHE1A Fast AHE1B Fest AME1 Fest HPI Flow (GP A 00 B 00 , C 00 0 00 RB Sprey Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 58 22 Ft - - LPI Flow A 0 00 GPM B C 00 GPM 'B8D WASTE Core Flood Level A 1162 Ft B 11 t2 Ft Misc. Weste 5 90 Ft. Core Flood Pressgro A 604 30 PSIO B 804 30 PSIO AuL Bldg. Sump 34 64 % Emergency FW Flow A 0 00 GPM B 0 00 GPM At to
\
l
1 I I i 1 Operational Data This is BACKUP data for the ECC, TSC and EOF. Clock Time a 1750 hours Scenarlo Time To 140 or 2.0 Hours 020 Minutes L REACTIVITY CONTROL Neutron Flux 27.04 CPS 11 AMPS O 02 % Boron Coric. 36 PPM Generated Megawatts 0 (Ni-1) (NL3) (NI-5) CRD Posibon 0 0 0 0 0 0 0 33 % Wsthdrawn (G 1) (G 2) . (G 3) (G 4 (G o
- 11. COOUNG B.Gl SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 43 02 inches 39 52 inches Th (WR) 44816 V 40814 V 0750 Level (OP) 6 01 % 6 98 %
Tc (WR) 497 45 V 496 80 V
~ OTSO Pressure 703 16 PSIG 686 35 PSIG RC Flow 35 30 E6 (Ibmthr) 35 29 E6 (ibm /hr Feed Flow (Ibm /hr) 0 03 E6 0 17 E6 RC Pressure 1304 6 PSIG
_ Tube 4 hell Detta T 10 25 V 14 80 V Pressuruer Level 737 7 inches Condensate Tank Level 14 07 FL 1475 FL RCP Opershon RC P 1A RC-P-1B RC P 1C RC-P-1 ON OFF OFF ON Turbine Bypass Valve Possbon 6 08 % 8 08 % Pressuruer Heaters (Operable?) YES Condenser Pressure 1 35 inches Hg (Absolute) Incore SCM 68 97 Y Avg 6 Highestirtcore 610 40 V CONTAINMENT RCS Makeup Flow 177 GPM : Purge Valve A Llosg B Carmed C Closed D Closed RCS Letdown Flow 37 GPM RB Pressure 14 85 PSIA Temrerature 120 36 V Make Up Tank Level 67 2 inches RB Water Sump 0 14 Inches Floor 0 00 inches MjfslF.M .-___ - -' --
.g . RB Hydrogen 0 %
SAFETY SYSTEMS . RB FANS AME1A Fast AHE18 Fast AHE1 Fast HPlFlow (GP A 00 B C0 C 00 D 00 .RB spray Flow Loop A 0 00 GPM Loop B 0 (10 GPM BWST Level 66 11 Ft LPI Flow A 0 00 OPM B 0 00 GPM ' RAD WASTE Core Flood Level A 1167 Ft B i167 Ft Misc. Waste 5 90 Ft l Core Flood Pressure A 604 34 PStG B 604 34 PSIG . An Bido Sump 38 24 % Emergency FW Flow A 0 00 GPM S 0 00 GPM A1-as j
l 4 Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1765 hours Scenerto Time 'Ts $45 or 2.0 Hours 025 Minutes L REACTMTYCONTROL 1 Neutron Flux 26.00 CPS .11 AAFS O 04 % Saron Conc. 36 PPM Generated Mngenses 0 (Ni1) (Ni-3) (Ni 6)
. CRD Posihon 0 0 0 0 0 0 0 30 % Withdrawn (G > 11 (G > 2) (O p 3) IO p 4) 6 (G p 8) (G) 7) (G p 8)
' II. COOUNG-37,3 AECONDMtY LOOP A LOOPB Loop A Loop B OT80 Level (WR) 39 29 inches 38 93 inches Th (WR) ; 494 25 V 494 21 Y OT80 Level (OP) 6 86 % 5 82 %
. Tc (WR) 493 40 Y EV OTSO Pressure 679 51 PSIO 900 61 PSIO RC Flow 35 36 E6 (lamWhr) 36 34 E6 (
Feed Flow (ItunMr) 0 05 E6 0 11 E6 RC Pressure ; EPSIO Tube shell Delle T to 77 5 14 56 Y Pressunrer Level 2466 inches Condensate Tank Level 14 0 _3Ft 14 70 Ft
'RCP Operobon RC-P-1A RC P 1B RC-P.1C RC P 1 ON OFF OFF Turtune Bypees Velve Poseon 5 08 % 9 77 %
PressurserHesters - (OperetM) J,[g,,,,, Condenser Pressure 1 35 inches Hg (Absolute) MV Incore sCM Avg 5Hghestincore 50686 Y CONTAINMENT RC8 Mahoop Flow 83 OPM PurDe Velve A h B gC Closed D ,Qosed.,
' RCS Leldown Flow 37 OPM RB Pressure 14 74 PSA Temperature 11812 V Mehe Up Tank Level . 91 6 Inches RB Weser Sump C 00 Inches Floor 0 00 inches RS Hydrogen 0 %
SAFETY SYSTEMS RB FANS AHE1A Fest AHE1B Fast AHE1 Fast HPlFlow(OP . A 00 B 00 C 00 D 0 RB Sprey Flow Loop A 0 00 GPM Loop B 0 00 OPM BWST Level R Ft LPIFlow . A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A RFt B 1162 Ft Misc. Weste S 90 Ft Care Flood Pressure . A 004 43 PSIO - ,B MPSIG Auu. Badg. Sump to 23 % Ernergency FW Flow A- 0 00 OPM B 0 00 OPM A1 38 idieuma n sniie sMenme -i m i .. i..i... -
Operational Data Drill 9904 l This is BACKUP data for the ECC, TSC and EOF. Clock Time a 1800 hours l scenarlo Time Tm 160 or 2.0 Hours 030 Minutes l
- 1. REACTMTY CONTROL Neutron Flux 25 CPS -11 AMPS O 04 % Boron Conc. 36 PPM Geriorated Megawatts 0 (NL1) (NL3) (NI-5)
CRD Position 0 0 0 0 0 0 0 30 % Wnhdrawn G 1) G 2) (Gp 3) (G 4) (G $ (G 6 G G
- 11. COOUNG g SECONDARY LOOP A LOOPB Loop A Loop B OTSG t evel(WR) 38 35 inches 38 21 inches Th (WR) 490 25 V 49018 Y ;
' OTSG Level (OP) 5 69 % 5 67 % l OTSG Pressure 654 06 PSIG 634 08 PSIG RC Flow 35 di E6 (IbnWhr) 35 38 E6 Obmihr Feed Fkm (IbnVhr) 0 04 E6 0 06 E6 RC Pressure 1172 4 PSIG Tube-Shen Delta T 12 67 Y 14 36 V Pressuruer tevel 2305 inches Condensate Tank Level 13 99 Ft t o 66 Ft RCP Operaton RC P-1 A RC-P 18 RC-P 1C RC.P 1 ON OFF OFF ON 'Turbme Bypass Valve Posmon 5 08 % 9 77 %
Pressuruer Heaters (Operable?) YES Condenser Pressure 1 35 inches Hg (Absolu's) incore SCM 63 47 Y , ,
.. , "v ,
E idWf M MM#1/MfS@ Wsff#f5 Avg 5 Highestincore 502 35 V . EpNTAINMENT RCS Makeup Flow 85 GPM Purge Valve A Cimed B Closed C Closed D Clued RCS Letdown Flow 36 OPM RB Pressure 14 65 PSIA Temperature 115 63 Y Make Up Tank Level 94 6 Inches RB Water Sump 0 00 inches Fluor 0 00 inches RB Hydrogen 0 % l
$_AFETY SYSTM RB FANS AHE1A Fast AriE1B Fest AHE1 Fast HPI Flow (GP A 00 B 00 C 00 0 00 ' RB Spray Flow Loop A 0 00 GPM Loop B 005 GPM BWST Level 56 02 Ft ' -
=
a'- ' W4'Y LPI Flow A 0 00 GPM B 0 00 GPM , ' RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Misc Weste 5 90 Ft Core Flood Pressure A 604 51 PSIG B 604 51 PSIG Aut Bldg Sump 60 13 % Emergoney FW Flow A 0 00 GPM B 0 00 GPM A1 31
Operational Data Drill 9904 This is BACKUP data for t'he ECCr TSC and EOF. Clock Tiene a 1808 hours scenerlo Tinie To 105 or 2.0 Hours oss unutes
.1. REACTMTY CONTROL Neuken Fkm 2'4.04 CPS -11 WP8 0.04 % Boron Cono. 36 PPM Generated Megswegs 0
' M1) (NI-3) '(NI4)
CRD Poenian o 'O o o o' o 0 30 % wahdrawn 1 2 4 G
- 11. COOUNG llGR .
SECONDARY LOOP A LOOPB Loop A Loop 8 0 T80 Level (WR) 38 12 inches 37 91 Inches Th (WR) - 444 96 Y 464 90 Y OTSO Lemi(OP) 5 56 % 5 53 % Tc (WR) MY , 483 59 8F OTSO Pressure MP810 611 54 P86G RC Flow ' 36 47 E6 (theWhr) R E6 ( 0 09 E6 Food Flow (Ibmmr) 0 04 E6
' RC Pressure MPalo Tube 4 hell Dolls T 1090 Y 13 61 Y i
Pressursor Level - A laches !' Condeneses Tenk Level 13 96 FL 14 62 Ft RCP Opereton ' RC-P 1A RC-P RC-P-1C RC-P-1 i ON OFF OFF Turtune 8vpeesVelve Poseon 6 08 % 9 77 % Pressurser Hessers ' (Operablet) YES Condonner Pressure 1 35 inches Hg (Absolute) Incore 8CM gV Avg 6 Hgpmetincore 400 39 Y CONT M
. RCS Makeup Flow 86 OPM Purge Velve A h 8 Closed C gD g RCS Letdown Fim ' 36 OPM R8 Pressure 14 57 PSIA Temperature ti?91 Y Mehe Up Tank Level - 96 4 inches R8 Water Sump 0 00 inches Floor 0 00 inches R8 Hydrogen 0 %
SAFETY SYSTEMS RBFANS AHE1A Fast AHE18 Fast AHE1 Fast HPJ Flow (OP ~ A 00 8 00^ C 00 0 00 R8 Spray Flow Loop A 0 00 OPM Loop 8 0 00 GPM SWST Level . RFt LP1 Flow - A 0 00 GPM 8 0 00 GPM RADWASTE Core Flood Level . 'A R Ft 8 1162 Ft Mac. Weste 6 90 Ft Core Flood Pressure A MPSIO 8 MPSIG Anat Side Sump to 33 % Emergency FW Flow A 10Pld 8 0 00 OPM l ,- . A1 32
Operational Data 1 Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1810 hours scenark Time Tm 160 or 2.0 Hours 040 Minutes 1
- 1. REACTIVITY CONTROL l l
1 Neutron Flux 2318 CPS 11 AMPS O 04 % Boron Conc, 36 PPM Generated Megawatts 0 (NI-1) (N1-3) (NI-5) I l CRD Position 0 0 0 0 0 0 0 30 % Withdrawn gg II. COOUNG B21 SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 37 89 inches 37 53 Inches Th (WR) 480 52 V 480 47 Y
- OTSG Level (OP) 5 45 % 5 40 %
Tc (WR) 479 58 Y 47912 Y OTSG Pressure 604 33 PSIG 588 81 PSIG RC Flow 35 54 E6 (Ibmihr) 35 52 E6 (Ibndh Feed Flow (ibmthr) 0 01 E6 0 14 E6 RC Pressure 1083 5 PSIG Tube-shell Delta T 11 11 Y 13 55 Y Pressurizer Levei 7238 inches
/ Condensate Tank level 13 92 Ft 14 58 Ft RCP Operabon RC-P 1 A RC.P.1 B RC-P.1C RC-P.1 -
ON OFF OFF ON Turbme Bypass Valve Pos tion 5 92 % 9 77 % Pressunzer Heaters (Operable 7) YES Condenser Pressure 1 35 Inches Hg (Absolute) incore SCM 6162 V uasser- MW@!fel%f5MMiP;SntdWM ?MW3s "JMJM2 > ' liffEf Avg $ Highestincore 494 48 Y CONTAINMENT RCS Makeup Flow 37 GPM Purge Valve A Closed B Closed C Closed 0 Closed RCS Letdomi Flow 35 GPM . lRB Pressure 14 51 PSIA Temperature 110 84 V i Make Up Tank Levei 93 1 inches ;RB Water Sump 0 00 inches Floor 0 00 inches
- .. . 3- - .;.. k / <* . RS HydroDen 0 %
SAFETY SYST.EMA . PS FANS AHE1A Fest AME1B Fast AHE1 Fast HPl Flow (GP A 00 B 00 C 00 D 00 . - , RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 58 02 Ft ' Min 9E Amun#ft1WEX4' M ME5'@WfMMyN' # ISM LPI Finw A O 00 GPM B 0 fl0 GPM RAD WASTE Core Flood Level A 1187 Ft B 1162 Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 64 PSIG B 604 84 PSIG Aunt Bldg Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1 33
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Tinwi = 1816 hours Scenario Time Ta 166 or 2 0 Hours 045 Minutes L REACTIVITY CONTROL Neutron Flux 22.82 CPS 11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NL1) (NL3) (NI-5) CRD PosNon 0 0 0 0 0 0 0 30 % Withdrawn [GP 1) (GP 2) (GP 3) (GP4) (Gp 5) (Gp 6) (Gp 7) (Gp 8) 2%WMwm6x2J1iut#EstemRwfnnugnanmemmyts19%WMMTiVW12"~~MLMRK6?ftY5M5%3WK#&Ol?M323;?f ??:MWYarE?' 24 IL COOLING M1 SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 37 56 Inches 37 29 inches Th (WR) 476 55 Y 476 50 V _ OTSG Level (OP) 5 34 % 5 30 % Tc (WR) 475 65 Y 47519 Y OTSG Pressure 570 06 PSIG 56A 77 PSIG RC Ficw 35 80 E6 35 59 E6
. Feed Flow (IbmMr) 0 09 E6 0 11 E6 RC Pressure 1954 3 PSIG
- Tube-Shell Delta T to 78 Y 13 75 Y Pressuruer Level 271 3 inches
- Condensate Tank Level 13 89 Ft 14 54 Ft
{ RCP Operation RC-P-1A RC-P-1B RC-P-1C RC-P 1 ; ON OFF OFF ON . l Turbine Bypass Valve Posmon 9 30 % 10 61 % i i Presaurcrer Heaters (Operable?) YFS Condenser Pressure 1 36 inches Hg (Absolute) incore 8CM 67 33 Y M l i Avg 5 Highestincore 490 41 Y CONTAINMENT l RCS Makeup Flow 51 GPM : Purge Valve A Closed B Closed C Closed D Cbsed { RCS Letdowm Flow 34 GPM RB Pressure 1447 PSA Temperature 109 48 T j i . I Make Up Tank Level 95 3 Inches ; )RB Water Sump 0 00 inches Floor 0 00 inches h r MiGGena/E!E6MilMMM4&2iKJiBMMWATi&4W5MWWE RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B Fast AME1 Fest HPl Flow (GP A 00 B 00 C 00 0 0 - RB Spray Flow Loop A 0 00 GPM Lcop B C 00 GPM BWST Level 56 02 FL ..--MIIWWg(gyDYMEMMMSAMB2MEMQS#MS LPI Flow A 0 00 GPM B 0 00 GPM _ RAD WASTE l Core Flood level A 1167 Ft B 1187 Ft Mac Waste 5 90 Ft Core Flood Pressure A 604 66 PSIG B 604 67 PSIG Aux. Bug Sump 80 33_ % Emergency FW Flow A 0(O GPM B 0 00 GPM A1 34
Operational Data Drill 9904 This is BACKUP data for the ECC TSC and EOF. Clock Time = 1820 hours scenaric Time T= 170 or 2.0 Hours 060 Mmutes
- 1. REACTMTY CONTROL Neutron Flux 22 05 CPS .11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts O S1) (NL3) (NL$)
CRD Positum 0 0 0 0 0 0 0 30 % Withdrawn
. , , , , . ,,;,., , (09.1.) . ..,., , . . . . @8 2), , . , , . .. (0 8 3), , , .
., (094). . - (G 5) ,. (Gp.6), , . ,, (G p 7), , , , , , , (Gp 8)
II. COOUNG El SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 3716 Inenes 37 0? inches Th (WR) 472 06 V 47200 V OTSG Level (OP) 6 72 % 519 % Tc (WR) 47106 Y 470 77 Y OTSO Pressure 548 33 PSIG 61918 PSIG RC Flow 35 69 E6 35 67 E6 Feed Flow (tbrn/hr) 0 11 E6 0 17 E6 RC Pressure 1024 7 PSIG Tube-Shell Delta T 11 05 V 13 06 Y Pressuruer Level 719 7 inches Condensate Tank Level 13 86 Ft 14 49 Ft RCP Operation RC-P 1A RC-P 18 RC-P-1C RC-P-1 j ON g OFF ON Turtune Bypass Vaive Posmon 7 61 % 10 61 % l Pressuruer Heaters (Operable?) YES Condenser Pressure 1 35 inches Hg (Absolute) incore SCM 6417 Y 1 ~- ' - - - - - - - c Avg 5 Highestincore 48512 V CONTAINMENT RCS Makeup Flow 50 GPM Purge Valve A Closed B Closal C Cir> sed D Closed RCS Letdown Flow 33 GPM RB Pressure 14 46 PSIA Temperature 109 08 Y Make Up Tank Level 88 9 inches RB Water Sump 0 00 Inches Floor 0 00 Inches RB Hydrogon 0 % SAFETY SYSTEMS . RB FANS AHE1A Fast AHE1B Fast AHE1 Fast HPI Flow (GP A 00 B 00 C 00 D 00 RS Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 56 02 Ft . 44-LPl F'iow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1167 Ft Mrsc. Weste 5 90 Ft Core Flood Pressure A 604 67 PSIG B 604 67 PSIG Aun Badg Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1- 35 e
r 1 i i Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1825 hours scenario Time Ta 176 or 2.0 Hours 066 Minutes L REACTMTYCONTROL Neutron Flux 21 4 CPS -11 /wS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NL1) (t43) (NL5) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn G1 G 2) G 3) (G 4) (G 5 (G (G (G 8 c IL COOUNG g . SECONDARY LOOP A LOOPB Loop A Loop B OTS3 Level (WR) 36 86 inches 36 63 inches Th (WR) 467 87 Y 467 82 V OTSG Level (OP) 5 10 % 5 06 % Tc (WR) 466 02 V 466 57 Y OTSG Pressure 5'30 40 PSIG 521 55 PSIG , RC Flow 35 77 E6 (tbmihr) 35 75 E6 (itenthr l Feed Flow (Ibm /hr) 0 08 E6 0 09 E6 RC Pressure 993 7 PSIO Tube-Shell Delta T 10 81 V 12 72 V Pressurrger Level 2201 inches Condensate Tank Level 13 82 FL 14 43 Ft RCP Operation RC-P 1 A RC-P-1B RC P-1C RC P-1 ON OFF OFF ON Turtune Bypass Valve Posman 7 61 % 10 61 % J Pressuruer Heaters (Operable?) YES Condenser Pressure 1 35 inches Hg (Absolute) I l incore SCM s4 57 Y I ( Avg 5 Highestlncore 48142 Y CONTAINMENT RCS Makeup Flow 38 GPM Purge Valve A Closed B Closed C Cosed D Cimed l l RCS Letdown Flow S3 GPM RB Pressure 14 45 PSIA Temperature 108 86 Y f Make Up Tank Level 85 4 inches RB Water Sump 0 00 Inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTjMg . RB FANS AHE1A Fast AHE1B Fast AHE1 Fast l HPI Flow (GP A 00 B 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM 1
~
l BWST Level 56 02 Ft - h5 LF1 Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Misc. Waste 5 90 Ft Core Flood Pressure A 604 66 PSIO B 604 66 PSIG Aun Bldg Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1- 36
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1830 hours Scenario Time Tm 180 or 3.0 Hours O Mmutes
- 1. REACTMTY CONTROL Neutron Fku 20 73 CPS 11 AMPS 0 04 % Boron Cone. 36 PPM Generated Megawatts 0 (Ni-1) (NL3) (Nb5)
CRD Poorbon 0 0 0 0 0 0 0 30 % Withdrawn
. . . . , . . , . . (GP1). . . . . (GP 2) , _ . , , (GP 3)., , , , . (Gp 4) , , , , .( G 5) , , (Gp 6) . (Gp 7) . , . (Gp 8) .
IL COOLING
!LQ.1 SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 36 S1 Inches 36 43 inches Th (WR) 463 77 5 463 72 V OTSG Level (OP) 4 97 % 4 97 %
Tc (WR) 46276 Y 46249 Y OTSG Pressure 51212 PSIG 501 03 PSIG RC Flo (Ibm /ht) 35 64 E6 (ibmihr) 35 81 E6 (thefhr Feed Flow (Ibm /hr) 0 08 E6 0 10 E6 RC Pressure 963 8 PSIG Tube 4 hell DeltaT 10 59 V 17 79 Y Pressunzer Level 220 8 inches
- Condensate Tank Level 13 77 Ft 14 41 Ft RCP Operation RC-P.1 A RC-P-1B RC P.1C RC.P-1 j ON OFF OFF ON l Turtune Bypass Valvo Posibon 7 81 % 11 46 %
Pressunzer Heaters (Operable?) YES , CondenserPressure 1 34 inches Hg (Absolute) incore SCM 64 46 V _ Avg 5 Highestlncore 477 49 Y .i- CONTAINMfg i RCS Makeup Flow 47 GPM _ Purge Valve A , Closed B Cioned C Closed D Closed RCS Letdown Flow 32 GPM .RB Pressure 14 45 PSA Temperature 108 66 Y Maxa Up Tonk Level 81 7 inches - RB Water Sump 0 00 inches Floor 0 00 inches T.
, [ RB Hydrogen 0 %
t. SAFETY SYSTEMS _( 'RB FANSAHE1A Fest AHE1B Fast AHE1 Fast HP) Flow (GP A 00 B 00 C 00 D 00 RB Spray Flow Loop A 0 00 OPM Loop B 0 00 GPM BWST Level 56 02 Ft -JMWEhree-c- .. MWit"ddI@f#KWWWEfEu/MMMMibF4I@ Q :. LPt Flow A 0 00 GPM B 0 00 GPM P. + T RAD WASTE Core Flood Level A 1182 Ft B _1162 Ft . - Misc Waste 6 90 Ft Core Flood Pressure A 60466 PSIG B 60466 PSIG { 3- l Aux. Bidg Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM [ A1 37
l Operational Data
. . Drill 9904
' This is BACMUP data for the ECC, TSC and BOF. Clock Time = 1834 hours Scenerlo Time Ts ~ tes or 3.0 Hours 95 086nutes s L REACTMTYCONTROL-Neutron Pkm - 20 CPS 11 AMPS 0 04 % Boron Conc. ' 36 PPM Generated Megamune 0 (Nki) (NL3) (Ni-5)
CRD Posehon 0 '0 0 0 0 0 0 30 % Withdrawn IGp 1) (G p 21 (G a 3) (Gp 4) (Ga8) (Gp 7) (Goa)
- 11. COOUNG g SECONDARY LOOP A LOOPB Loop A Loop B OT80 Level (WR) 35 82 inches 35 83 inches Th (WR) 450 34 Y EV OT80 Level (OP) 4 80 % 4 80 %
To (WR) gV : 457 86 Y OTSO Pressure 487 88 P810 48123 P810 RC Flmn 35 80 E6 35 87 E6 Food Flow (ibmmt) 0 04 E6 0 12' E6 RC Pressure ,,3Q,PSIO Tube 6 hen Done T 10 81 V 12 48 9 Pressurser Lowel g inches Condensate Tonk Level 13 73 Ft 14 43 FL RCP Opershon - RC.P-1 A RC-P 1B RC-P-1C RC-P-1 ON OFF OFF TurtuneBypeesVelvePoseon 1% 11 46 % Pressurser Hesters (Operstdo?) L Condenser Pressure 135 inchesHg(Absolute) incore SCM , 64 84 Y Avg 6 Highestincere 47316 Y CONTAEdIMNT RC8 Mohoup Fkw 68 OPM Purge Velve A g B gC Closed D Closed RCS Letdown Flow 32 OPM ' RB Pressure 14 45 PSIA Temperature 10862 Y
- MeheUpTonkLevel 76 8 Inches R8 Weber . Sump C 00 inches Floor 0 00 inches RS Hydrogen 0 %
SAFETY SYSTEMS RB FANS AME1A Feet AHE1B Fest AHE1 Fest HPI Flow (OP A 00 B 00 C 00 D' 00 RB 8 pray Flow Loop A 0 00 OPM Loop B 0 00 GPM BWST Level RFt - LPIFlow A 0 00 OPM B 0 00 GPM RAD WASTE thee, Wests 6 90 Ft Core F)ood Level A RFt B 1182 Ft. Core Flood Pressure A 404 05 P810 B 80d 65 P810 Auit Bldg Sump 80 33 % Emergency FW Flow A 0 00 OPM B g OPM l A13e -f l. l l
~
-- - - i
1 I I 1 1 1 Operational Data i Dril19904 This is BACKUP data for the ECC TSC and EOF. Clock Time = 1840 hours scenario Time Ts 190 or 3.0 Hours 010 Minutes
- 1. REACTIVITY CONTROL Neutron Flux 19 24 CPS -11 AMPS 0 02 % Doron Conc. 36 PPM Generated Megewatts 0 (NI-1) (NI-3) (NL5) i CRD Position 0 0 0 0 0 0 0 30 % Withdrawn
( 2) (Gp 3) (Gp4) (Gp 5) (Gp 6) (Gp 7) (Gp 8) pryn%?rw ... (Gp 1)---- :=:::%g92M :' '"EWgewe _ , au ;ng_.
.. ._. . e : -~+rges?ty w:" .... m m y ggqvggg ;
- 11. COOLING 89It SECONDARY LOOP A LOOP B Loop A Loop B OTSG Level (WR) 35 96 inches 35 91 inches Th (WR) 454 49 Y 454 43 T OTSG Level (OP) 4 76 % 4 75 % j OTSG Pressure 467 75 PSIG 461 11 PSIG RC Flow 35 95 E6 35 93 E6 Feed Flow (lternthr) 0 04 E6 0 06 E6 l RC Pressure 903 0 PSIG
{ Pressurger Level 221 1 inches Condensate Tank Level 13 69 FL 14 44 Ft RCP Operabon RC-P-1 A RC.P.1 B RC.P.1C RC-P.1 ON OFF OFF ON Turtune Bypass Valve Postbon 9 02 % 11 48 % Pressurser Heaters (Operable?) YFS iCondenser Pressure 1 34 inches Hg (Absolute) Incore SCM 6542 Y -
~MWdsE@M%d 62iELTEER?f*N@,@WCTsW$E Awg 6 Highestincore 468 86 *F CONTAINMENT RCS Makaup Fkw 65 GPM Purge Vabe A Closed B Closed C dosed D Closed RCS Letdown Flow 31 GPM RB Pressure _ 14 44 PSIA Temperature 108 42 T ,
1 Make Up Tank Level 79 2 inches RB Water Sump 0 00 Inches Fhmr 0 00 inches lRB Hydrogen 0 % i SAFETY SYSTEMS !RSFANS AHEi A Fast AHE1B Fast AHE1 Fast i HPI Flow (GP A 00 B 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 66 02 Ft PN d GR WAlD W 4W MiW MtR% E IR$#fnGE N LPIFkm A 0 00 GPM b 0 00 GPM BAD WASTE Core Fiood level A 19 62 Ft B 19 62 Ft. Misc Waste 5 90 Ft Core Fked Pressure A 604 64 PSIG B 604 65 PSIG Aux Bidg Surnp 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM l A1 30
Operational Data
. Drill 9904 This is BACKUP dela for the ECC, TSC and EOF. Clock Time = 1848 hours Scenerto Thee T= 188 or 3.0 Hours 016 tenutes L REACTMTYCONTROL ,
Neulron Phar 1854 CPS 411 M ' o 02 % - Soren Conc. 38 PMA Generated Megewelts o (NI-1) (NI-3) . 044) CRo poemon o o o o o o o- So % wandrawn (G s 1) (Gp2) (Gz3) (Go4) (G)8) (Gs 7) rGr 8) N. COOUNG g AECOMARY LOOP A LOOPS Loop A Loop B OT80 Level (WR) 36 67 inches ginches Th (WR) 448 81 V 448 76 Y . OTSG Level (OP) 4 64 % 4 64 % Tc (WR) ' 447 86 Y 447 60 V OTSO Pmssure 448 45 PSG 439 97 P810 RC Flow g E6 (Ibemr) 36 00 E6 ( Feed Flow (ibmmt) 0 10 E6 0 07 E6 RC Pressure RP840 , Tube-Shell Delte T 11 60 V 12 08 Y Pressunser Level - ginches Condensole Tank Level ' 13 86 Ft 14 43 Ft RCP . Operston . RC-P-1A RC#.1B ' RC-P-1C RC-P-1 ON OFF OFF Turtune Bypass Voive Poseon 9 02 % 12 30 % Presounser Hesters (Operable?) E Condenser Pressure 1 34 Inches Hg (Absolute) Incore SCM MV Avg. 5 HWow incere . 484 N Y CONTANGAENT RCS Meheup Flow - 63 OPM Purge Velve A f,jgggd, B gC Closed D M RCS Letdown Flow 31 GPM RB Pressure 14 44 PSIA Temperature 108 33 V Mehe Up Tank Level 79 6 inches , R8 Water Sump 0 00 inches Floor 0 00 Inches R8 Hydrogen 0 % SAFETY SYSM RBFANS AHE1A Fest AHE1B Feet AME1 Fest
~ HPl Flow (GP A" A B. 00 C 00 D 00 R8 Spray Flow Loop A 0 00 GPM LoopB C 00 GPM swST Levei ,,sug_Ft LPI Flow A' 0 00 GPM B 0 00 GPM R!& WASTE Core Flood Level A. 1162 FL B 1182 FL Misc Weste 6 90 Ft Core Flood Pressure A RP810 8 804 S4 PSG Aun Bide. Sump 8033 %
. Emergency FW Flow A A CPM B 0 00 GPM
' A1-de
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1860 hours
&cenarlo Time Ts 200 or 3.0 Hours 020 Minutes L REACTIVITY CONTROL Neutron Flud 17.97 CPS 11 AMPS 7E-04 % Baron Conc. 3G PPM Generated Megawatts 0 (NL1) (NL3) (NLS)
CRD Posnion 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Gp 2) (Gp 3) . ._ (Gp 4) (Op 5) (Gp 6) (Gp 7)._ (Gp 8) gg;maggezw.s;.n, g;c ---wam,mgyp;nggmyggggyayggw = ,,gygggyy ,,,yg:gy, ,;m g.yp;g.y < m ,, y
- 11. COOLING Eql SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 35 47 inches 35 46 inches Th (WR) 444 94 Y 444 99 Y OTSG Level (OP) 4 66 % 4 $5 %
Tc (WR) 443 79 Y 443 73 Y OTSG Presswo AM 43 PSIG 420 20 PSIG RC Flow 36 08 E6 (thmmr) 36 06 E6 (Ibsth Feed Fkm (Ibm /hr) 0 00 E6 0 08 E6 RC Pressure 8N 7 PSIQ q l Tube Shell Detta T 11 di V 11 94 V Pressuruer level 2215 inches l Condermate Tank Level 13 62 FL 14 41 Ft RCP Operation RC-P 1A RC-P 1B RC-P 1C RC P 1 ON OFF OFF ON Turtano Bypass Velve Posmon 10 70 % 13 15 % Pressunzer Hesters (Operable 7) YES Concenser Pressure 1 37 inches Hg (Absoluta) incore SCM 63 26 V W ----- -cNSENsim?MMi!MygAfM M Avg 5 Highestincore 460 79 Y - M@ hv ' ~: Q9NTAINMENT RCS Makeup Flow 43 GPM f:4 3 Purge VaNo A Closed B Closed C closed O closed Nh RCS Letdown Flow 30 GPM h -/ RB Pressure 1444 PSIA Temperature 108 27 Y Make Up Tank Level 80 $ inches y' > RBWater Sump 0 00 inches Floor 0 00 inches p1 e m ? M T @ w;#EmJrF&itMpfsp)2WbmgfjlE RS Hydrogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHE1B Fast AHE1 Fast HPI Flow (GP A 00 B 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM LoopB 0 00 GPM BWST Level 5A 02 Ft . ~.__~ / M LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 FL B 1162 Ft Misc Wsste 6 90 Ft Core Flood Pressure A 604 63 PSIG B 604 63 PSIG . Aur Badg Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1.41
- 1
Operational Data DrHI9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time = 1855 hours
&cenario Tune Ts 205 or 3.0 Hours 025 Mmutes
- 1. REACTMTY CONTROL Neutron Flux 17 37 CPS 11 AMPS 0 04 % Baron Conc 36 PPM Generated Megawatts 0 (NI-1) (NI 3) (NI-5)
CRD Posatson 0 0 0 0 0 0 0 30 % Wahorawn Go 5) (G 6) (G, _
- 11. COOLING BER agQ,pNDARY LOOP A LOOPB _
Loop A Loop e OTSO Level (WR) 35 29 inches 35 27 inches Th (WR) 440 98 V 440 93 9 OT3G Level (OP) 4 48 % 4 47 % Tc (WR) 439 87 Y 439 78 9 OTSO Preeaure 405 to PS10 398 46 P310 RC Flow 38 14 E8 (awnfhrt 3612 E6 (Ibado) Feed Fluw (lbm/hr) 0 10 E6 0 09 E6 RC Pressure 799 4 P91Q Tube shell Delta T 11 27 4 11 93 V Pressuruer Level 221 3 Inches
, Condensate Tank Level 13 69 Ft 14 38 Ft RCP Operston RC-P 1A RCA18 RCA1C RCA1I ON OFF OFF E Turtune Bypass vehe Posamn 9 86 % 13 16 %
Pressuruer Mesters (Operable?) YES Concenser Pressure 1 45 inches Hg (Absolute) incere 8CM 64 58 4
="?M2T" '~~~~i ===~" "Aw XcE5M?X<MiE'MH Avg 6 Hgnestincore 455 24 4 .CONTMNMENT RC8 Mateup Flow as GPM Aarge valve A Closed B Closed C 1sogse O Closed RCS Latecwn Flow 30 GPM R8 Pressure 14 44 PSIA Temperature 108 22 V Make Up Tank Levei 79 3 inches R8 Water Sump 0 00 inches Floor 0 00 inches
-R8 Hydrogen 0 %
3.M, SYSTEMS Re FANS AME1A Fast AHE1B Fast AHftC Fast HPl Flow (GP A 00 B 00 C 00 D 00 RS Spray Flow Loop A 0 00 OPM Loop B 0 00 GPM 66 07 FL fBW#MWMKHW.CMwwMK:%1WHMfWO BW5T Levet LPI Flow A 0 00 GPM B 0 00 GPM RAD WA$1[ Core Flood Level A 1162 Ft B 1182 Ft Mac. Waste 6 90 Ft Core Flood Pressurs A 604 62 PSIG B 604 67 PSIO " Aux. Badg Sump 80 33 % Emergency FW Flow A 0 00 OpM B 0 00 GPM i Al- 42 l
Operational Data DrN19904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1900 hours Scener6o Time To 210 or 3.0 Hours 030 SAinutes L REACTMTVCONTROL Neutron Fkm 18 05 CPS 4i AMPS- 002 % Boron Conc. 36 PPM Generated Mogenutts 0 (NM) (NI-3) (Ni-6) CRD Poetion 0 0 0 0 0 0 0 30 % W4hdrawn (Go 1) (Gip 7) (Gp 3) . (Gp 4) (Gp 5 (Gp 6) . (Go7) . (Go 8)
- 11. COOUNG Bfd AECONDARY LOOP A LOOP 9 Loop A Loop B OTSO Level (WR) 36 16 trehes 36 12 inches Th (WR) 437 25 4 43719 Y OTSO Level (CP) 4 41 % 4 41 %
TC (WR) 43818 Y 436 03 V 0780 Pressure 374 08 PSIG 373 52 P$10 RC Flow 36 20 E6 ImmW) 3818 E6 thnWhr) Food Flow (ibm /hr) 0 06 E6 0 to E6 RC Pressure 772 8 P81G Tube-8 hell Dona T 11 14 V 1186 Y Pressuruer Lowet 2218 inches Condeneste Tank Level 13 60 Ft 14 11 Ft RCP Operaton RCA1A RC P-18 RCA1C RC-P 1 ON OFF OFF ON Turnme Bypees vehe Poemon fl0 64 % 61 11 % Pressurtrer Heaters (Operimet) YES Condenser Pressure 8 71 incnes Hg (Absolute) incore SCM 67 42 V Avg 5 Hehestincare 448 97 Y CONTA M RCS Wakeup Flow to GPM Purge Velve A Ciceed B Closed C Closed 0 Ciceed RCs tousewn Flow 0 OPM R8 Pressure 14 44 Psia Tempensture 10618 Y Make Up Tank Lew) 86 8 inches RB Water Sump D 00 inches Floor 0 00 inches J RB Hydrogen 0 % SAPETY SYSTEMS R8 FANS AHE1A Fast AME18 Fast AHt!1C Fast HPl Flp#(GP A 00 B C0 C 00 D 00 RS Spray Flow Loop A 0 00 GPM LoopB 0 00 GPM DWST Level 65 97 Ft : LPI Flow A 0 00 GPM B C 00 GPM RAD WASTE Cove Flood Level A 1182 _ Ft B 1162 Ft Mac. Weste S 90 Ft Core Piood Pressure A 604 81 PSG B 604 61 PSIG Aun Blog Sump 40 33 % Emergency FW Flow A 0 00 GPM B 0 00 OPM A143 I 1 [ l J
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1905 hours scener6o Time T= 215 or 3.0 Hours 035 Minutes
- 1. REACTMTYCONTROL Neutron Flux 17 75 CPS -11 AMPS 0 04 % Baron Conc 36 PPM Generated Megawatts 0 (Ni-1) (NI 3) (NI-S)
CRD Poston 0 0 0 0 0 0 0 30 % Wthdrawn (Go 1 Go2 (G 3) Op 4) (Go 5) Go6 (Gp 7) (Gp 8) II. COOLING Bfgj SECONDARY LOOP A LOOP 3 Loop A Loop B OTSO Level (WR) 35 60 inches SS 61 inches Th (WR) 444 01 Y 44196 V OTSO Level (OP) 4 62 % 4 67 % T4 (WR) 446 86 Y 448 80 V OTSO Pressure 368 60 PSIO 357 76 PSIG RC Flow 36 04 E6 IItwwhr) 36 00 E6 tibnwhr) Feed Flow (Ibmthr) 0 OD E6 0 11 E6 RC Pvessure 448 4 PSIG TulMnell DeltaT 11 39 V 11 99 'F Pressuruer Level 2716 inches Condensate Tank Level 13 45 Ft 14 02 Ft RCP Operaten RC-PL1A RC-P-1B RC.P- tC RCP1 ON OFF OFF ON Turtune Bypase Valve Poseon 62 05 % 63 08 % Pressuruer Heaters (Operable?) YES . Condenser Pruesure 16 46 inches Hg (Absolute)
'V Incore SCM J11*F <
4 Avg 6 Highest incere 446 68 Y CONTAINMENT RCS Makeup Flow 14 OPM Purge Valve A Closed B Comed C cosed D Closed RCS Letdown Flow 0 CPM 'RB Pressure 14 44 PSIA Temperature 10812 V Mese Up Tank Lovet 85 9 inches RB Water Bump 0 00 inches Floor 0 00 incnes RB Hydrogen 0 % SAFETY SYSTEMS RBFANS AME1A Fast AHE1B Fast AHEIC Fant HPI Flow (OP A 00 B 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 CPM BWST Level SS 97 F1 -
^ .' ',
LPd Flow A 0 00 GPM B C 00 GPM PAD WABTE Core Flood Level A 1162 FL B 19 67 Ft Mec. Weste 6 90 Ft Core Flood Pressure A 804 60 PSIO B 604 60 PSIO Aut Bidg Sump 60 33 % Emergency FW Flow A 0 00 CPM B 0 00 GPM A1-44 1 1 \ L
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time a 1910 hours scenar6o Time To 220 or 3.0 Hours 040 Minutes L REACTIVITYCONTROL Neutron Flux 17 45 CPS -11 AMPS 0 04 % Baron Conc 36 PPM Generated Megawatts 0 (NI1) (NI 3) (NI 5) l CR0 Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1{-(Gp s2)man,mamam (Op .
-ma.
- 3) (Go 4) (Gp (Go 6) (Gp 7) (Gp 8)
-sauwassumermemsusemanamoraramemammasasrumsawawwmemerwv 4 II. COOLING ftfc3 - SECONDARY
' LOOP A LOOPB - . Loop A Loop B
- 078G Level (WR) 36 43 Inches 3642 inches in (WR) 444 17 4 444 12 4
- OTSG Level (OP) 4 54 % 4 64 %
Tc (WR) 443 02 V 44297 Y OTSG Pressure 343 43 PSIG $4184 PSIG RC Flow 36 10 E6 lennav) 36 07 E6 phrwhr) Feed Flow (Ibndhr) 0 07 E6 0 06 E6 RC Pressure 821 1 PSIG Tut +Shell Defta t 19 40 V 1191 V Pressuruer Level 2216 inches Condensate Tank Level 13 39 FL 13 92 Ft RCP Operaten RCA1A RC-P 18 RC-P 1C RC-P 1 ON OFF OFF ON TurtHne B'; pass Vahe Posihon 63 17 % 66 74 % Pressuruer Heaters (Operab6e?) YES ' Condenser Pressure 22 39 inches Hg (Absolute) Incore SCM 81 64 4 Avg 6 Hghest incere 441 64 4 CONTAINMENT RC8 Makeup Flow 15 GPM Purge Vahe A Closed 8 Clowd C Closed 0 Cioned RCS Leidcun Flow 0 GPM R8 Pressure 14 43 PSIA Temperature 108 10 4 Make Up Tank Level 85 7 inchee R8 Water Sump 0 00 inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTCMS R8 FANS AHE1A Fast AHE18 Fest AHE1C Fast I i MPI Flow (GP A 00 8 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop B C 00 GPM W3'"-"T-BWST Level 65 97 Ft ==m""'" " W WiMMINE> M LPI Flow A 0 00 GPM D 0 00 GPM RAD WASTE Core Flood Level A 1182 Ft 8 1162 Ft Mac. Waste 6 90 Ft Core Flood Pressure A 604 59 PSIG B 604 59 PSIG ' Adit B:00 Sump 80 33 % Emergency FW Flow A 0 00 GPM S 0 00 GPM Avde l l
Operational Data DrW 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time = 1H6 hours acener6o Time Tm 225 or 3.0 64ours 045 thnutes i l L REACTMTYCONTROL I l Neutron Flux 1714 CPS 11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megewetts 0 (Nb1) (NL3) (NL5) CRD Positen 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Go7) (Go 3) (Gp 4) (G 5) (Go 6) (Go 7) (Go 8) . IL COOUNG 1 Bfst SECONDARY LOOP A LOOP 8 Loop A Loop 8 0T50 Level (WR) 36 2e inches 36 24 inctwo j Th (WR) 440 te v 440 14 4 OTs0 Level (oP) 4 46 % 4 as % : Tc (WR) 43s Os y 438 es y ! 0780 Pressure 330 97 PSIG 328 94 PS40 RC Flow to16 E6 38 14 E6 Feed Flow (lbm/hr) 0 11 E6 0 07 E6 RC P= sue 7e4 i PsiG Tut +8 hell Dean T 11 23 4 11 91 v Pressunter LevW 221 4 inchee Condensate Tank Level 13 32 PL 13 80 Ft RCP Operebon RC P 1A RC.P 18 RC-P 1C RM1 ON OPP OFF ON Turtme Bypees Vehe Pesmon 63 17 % 68 iS % Pressunzer Heaters (Opersbes?) YES Condenser Pressure 26 66 inches Hg (Absolute) incere sCu 81 e1 y Avg $ Hagneetincore 437 8e 4 CONT M RCS Makeup Flow 11 GPM Purge Valve A Closed 8 Cloerf C Closed D Closed RCS Letoown Fiow 0 GPM RB Pressure 14 43 PSIA Temperature 108 07 4 Wake Up Tank Level 85 4 inches RB Water Sump 0 00 inches Floor 0 00 Inches RB Hydrogen 0 % SAFETY SYSTEMS RePANs AHE1A Fast AHE1B Fast AHE1C Fast HPI Flow (OP A 00 B 00 C 00 D 00 RB Spray Flow Loop A ' 0 00 GPM Loop B 0 00 GPM BWST Level 66 97 PL LPI Flow A 0 00 GPM S 0 00 GPM M Co,e Fiood Levei a 11 e2 rt e it s2 et M.c Wee. e s0 Ft Core Flood Preeevio A 604 68 PSIG B 604 68 PSIG Aur. Biog Sump 80 33 % Emergency FW Flow A 0 00 GPM 8 0 00 GPM l A1.as f
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1920 hours scenatto Time T= 230 or 3.0 Hours 050 Minutes
- 1. REACTMTYCONTROL Neutron Flux 16 41 CPS 11 AMPS 0 04 % Dorm Conc 36 PPM Generated Megawatts 0 (NL-1) (NI 3) (NI 5)
CRO Pondson 0 0 0 0 0 0 0 30 % Withdrawn Go1 Go 7) (G 3) Go4 (Go 5' (Go 6) (Gp 7) (Go 8)
.- ' MN IL COOLING gg.g SFCONDARY LOOP A LOOPS j Loop A LoopB OTSO Level (WR) SS 65 inches 35 10 incnes Th (WR) 416 63 V 436 50 V /'
OTSG Lavel(OP) 4 46 % 4 40 % Tc (WR) 438 S4 *F 433 35. *F 0750 Pressure 329 73 PSIG SO2 64 PSIO RC Flow 36 26 E6 tunner) 36 19 E6 lauwhr) Feed Flow (Itwn/ht) 0 01 E6 0 13 E6 RC Pressure 766 7 P84 Tut *8 hell Delta T 11 19 4 11 89 V Pressurizer Level 220 6 inches Concensate Yank Level 13 25 FL 13 68 Ft RCP Operanon RC-P-1 A RC Pw1B RC P 1C ' RC P 1 ON OFF OFF ON Turtune Bypass Valve Posmon 30 67 % 86 66 % Pressuruer Heaters (Opetacaet) VES "Concenaer Pressure 29 22 inches Hg (Absolute) incere SCM 62 28 4 ,- ,,., .
.'.!- . 4 4 MEvM Avg 6 Highestincore 433 22 V CONTAINMENT RCS Makeup Fkm 265 GPM Purge Valve A Closed 8 Ciceed C Closed 0 Closed RCS Letdown Flow 0 OPM RB Pressure 14 43 PSIA Temperature 108 05 V Make Up Tank Level 8t 6 Incnes R8 Water Sump 0 00 inches Floor 0 00 inches EM~ . _ _ _ ~ --%,_ ' ?c te!KE- ;;MdMMerld 2 -
R8 Hydrogen 0 % SAFETY SYSTEMS RB FANS AMEIA Fast AME18 Fast AHE1C Fast ff HPl Flow (GP A 00 0 00 C 00 0 00 Ye RB Spray Flow Loop A 0 00 GPM Loop B C 00 GPM BWST Lowel 56 90 Ft C'At45WMN2MX <<z'EE5HNWMN:EAJM;uMA:ML xd $.EFm j LPI Flow A 0 00 GPM $ 0 00 GPM RAD WASTE Core Fioed Level A 1162 Ft e 1162 Ft s so Ft l luse Weste Core Flood Pressure A 604 57 PSIG S 604 67 PSIG ' Aux. Blog Sump 6033 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1- 47
Operational Data Drill 9904 This is BACKUP data for the ECC. TSC and EOF. Clock Time = 1925 hours Scenario Time To 235 or 3.0 Hours 055 946nutes
- 1. REACTIVITYOONTROL NeutronFlux 1519 CPO. 11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NI-1) (N6-3) (N1-5)
CRO Posthon 0 0 0 0 0 0 0 30 % Withdrawn GD 4) (GDj , II. COOLING BCg SECONDARY LOOP A LOOPB Loop A Loop B OTSG Lowel(WR) 67 00 inches 3503 inches Th (WR) 430 75 V 430 67 V _-
. OT$O Level (OP) 7 80 % 4 35 %
Tc (WR) 430 59 Y 4/9 36 V OTSG Possure 301 64 PSIG 285 28 PSIG RC Flow 36 38 E6 (brwhr) Sc 30 E6 (lluWhr) Feed Flow (Ibmihr) 0 00 E6 0 10 E6 RC Pressure 724 4 PSIG Tube-$ hell Dona T T 05 V 13 83 4 Pressurtzer Lowel 189 6 inches Condensate Tank Level 1317 FL 1367 FL RCP Operaten RC-P-1A RCA1B RCA1C RC P-1 ON OFF OFF ON Turtune Bypass VaNo Posamn 30 67 % 65 97 % Presr:Mer Heaters (Operable?) YES - Condenser Pressure 29 92 inches Hg(Absolute) Incore BCM 83 31 V . Avg 6 Highest incore 425 88 V CONTAtNMENT RCS Makeup Flow 313 GPM Purge VaNo A Closed B Closed C Closed D Chaed RCS Latdown Flow 0 GPM RB Pressure 14 43 PSIA Temperature 108 01 V Make up Tank Lowel 86 5 inches RB Water Sump 0 00 inches Floor 0 00 inches RB Hydrogen 0 % AME1A Past AHE18 Fast AME1C Fast SAFETY SYSTEMS RBFANS A 00 B 00 C 00 D 00 - RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM HPI Flow (GP BWST Lowel 55 68._ Ft LPi rmw A 0 00 GPM B 0 00 GPM - RAD WASTE Core Flood Lowel A 11 C2 Ft B 1162 Ft Mac. Wasle 6 90 Ft Core Flood Pressure A 604 56 PSIG B 604 56 PSIG ! Aux. Bldg Sump 80 33 % ! Emergency FW Flow A 0 00 GPM B C 00 GPM - A1- af l
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1930 hours Scenario Time Tm 240 or 4.0 Hours O Minutes
- 1. REACTMTY CONTROL Neutron Flux 14 26 CPS 11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (Ni-5)
CRO Position 0 0 0 0 0 0 0 30 % Withdrawn IOE 4 (OP
- 11. COOLING fLG1 - : SECONDARY LOOP A LOOPB Loop A Loo,i e
_ l
!OTSG Level (WR) 80 D5 inches 34 60 inches Th (WR) 423 69 Y 423 66 V y
- OTSO Level (OP) 11 77 % 4 19 %
Tc (WR) 423 50 V 422 73 V OTSG Pressure 287 62 PSIG 271 47 PSIO RC Flow 36 47 E6 (henv) 36 37 E6 abman) _ Feed Flow (IbmMr) 0 00 E6 0 12 E6 RC Pressure 698 5 PSIG
- ! Tut @ll Delts T $ 92 V 10 14 V Pressuver Level 193 0 inches _l
- Condensate Tank Level 13 09 Ft 13 45 Ft RCP Opersten RC-P 1A RC-P- 18 RC.A1C RC-P 1 ON OFF OFF ON :Turtnne Bypass Valve Positen 30 67 % 69 91 %
Pressunter Heaters (Operablet) YFS -_ Condenser Pressure 29 92 inches Hg (Absolute) incere SCM B3 86 V - Avg 6 Highestincere 42131 Y CONTAlledENT RCS Makeup Flow 268 GPM _ Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Flow 0 GPM _ RB Pressure 14 43 PSIA Temperature 107 98 4 Make Up Tank Level 85 8 inches R8 Water Sump 0 00 inches Floor 0 00 Inches RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AME1A Fast AME1B Fast AME1C Fast HPl Flow (GP A 00 8 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop 8 0 00 GPM BWST Level A5 50 Ft _ LPlFlow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft 8 1162 Ft Mac. Waste 6 90 Ft Core Flood Pressure A 604 65 PSIG B 604 66 PSIG Aunt Badg Sump 60 33 % Emergency FW Fkm A 0 00 GPM S 0 00 OPM --. A1- As j i i 1
i t Operational Data Drill 9904 This is BACKUP data for the ECC TSC and EON. Clock Time = 1930 hours Scenario Time Tm 240 or 4.0 Hours 0 Minutes
- 1. REACTMTY CONTROL Neutron Flux 14 26 CPS 11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0
( 1 (NI-1) (NI-3) (NI 5) CRO Positen 0 0 'O O O O O 30 % Withorown
. . . . . . . . _ . . . ( ...
.G. D 1) .__. _(Go. 2._)_ _.. . . -(Gp 3) - , . _ . ....o..._.(G 41 ... . . Gp ( j . _(G.p 6). ..... . . .... Gp
( 7) (m
..............m.Go8..)....m.o.~.....
. ........e.~....
l lL COOUNG l ! B9.1 SECONDARY f LOOP A LOOPB i Loop A Loop B { l l j j OTSG Level (WR) 80 95 inches 3460 inches l Th (WR) 423 69 Y 423 66 V lOT80 Level (CP) 11 77 % 4 19 % l j Tc (WR) 423 So V 422 73 *F
, !OTSG Pretsure 227 E2 PSIG 771 47 PSIG RC Fion 36 47 E6 gammt) 36 37 E6 inwwhr) i
- Feed Flow (Ibm /hr) 0 00 E6 0 17 E6 RC Pressure 698 5 PSIQ -l l
l Tut +Shell Osita T 5 92 V 10 14 V Pressurtger Level 193 0 inches 13 45 Ft
' Condensets Tank Level 13 09 FL RCP Opersten RC P 1A RC-P.18 RC.P 1C RC-P'1 ON OFF OFF ON !TurtHne Bypass VsNe Posibon 30 67 % 69 91 %
l l Pressurizer Heaters (Operable?) YES _ : Condenser Pressure 79 97 inches Hg (Absolute) l .. incore sCM as 86 4 - - - l Avg 5 Highest incore 42131 4 ~ . CONTAINMENT , i RC8 Makeup Flow 288 OPM _
- Purge Valve A Closed B Cineed C Closed D Cioned RCS Letdown Flow 0 CPM ' !RB Pressure 14 43 PSIA Temperature 107 98 4
- 1 Make up Tank Level 85 8 inches _
lRB Water Sump 0 00 inches Floor 0 00 inches )
' .' 'j RB Hydrogen 0 %
SAFETY SYSTEMS - RBFANS - AME1A Fast AHE1B Fast AHE1C Fast HPI Flow (GP A 00 3 00 C 00 0 00 i RB 5 pray Flow Loop A 0 00 GPM Loop B 0 00 CPM BWST Level $$ So Ft _-- LPI Flow A 0 00 GPM B 0 00 CPM _ ' RAD WASTE Core Flood Level A 1187 Ft 8 1162 Ft Mac Waste 6 90 Ft Core Flood Pressurs A 604 SS PSIG B 604 65 PSIG Aux Bkig Sump 80 33 % Emergency FW Flen A 0 00 GPM B C 00 GPM __ A1- et m __ _ _ _ _ _ _ . _ _ _ _ . _ . _ _ _ _ . _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . . _ _ _ . _ _ _ _ _ . . _ _ . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
r N . N Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Tirne = 1930 hours Scenario Time T= 240 or 4.0 Hours O Minutes
- 1. REACTMTY CONTROL Neutron Flux 14 26 CPS -11 AMPS 0 04 % Baron Conc. "16 PPM Generated Megawatts I 0
(Ni-1) (NI-3) (Ni 5) t CRO Posmon 0 0 'O O O 0 0 30 % Withdrawn (Go 1) (Go 2) . (Go 3) (Go 4) (Gp 9) (Go 6) (Go.8) w-axuw-aanexmnwnm.xmw --- ----- i n.m xwx---- ~~ mew,c m_.(Go_7). --. ;, _2 ---.m;.g
!!. COOLING _ .
3 l M - - SECONDARY l LOOP A LOOPS Loop A Loop 8 l CTSG Level (WR) 80 95 Inches 34 80 inches Th (WR) 423 69 *F 423 66 V , CTSG Lewi(OP) 11 77 % 4 19 % Tc (WR) 423 50 V 422 73 V ) I OTSG Pressure 287 62 PSIG 271 47 PfiG RC Flow 36 47 E6 (lhmMr) 36 37 E6 tanner)
)
j Feed Flow (inmmi) 0 00 E6 0 12 E6 l RC Pressure 698 $ PSIG ..
- TuMhell Detta T 5 92 V 10 14 9 Pressuruer Lowel 193 0 inches
- Condensets Tant Levet 13 09 Pt 13 46 Ft RCP Opersoon ROA1A RCA18 RC.P-1C RCAt ON OFF OFF ON - TurtHne Bypass Valve Pescion 30 37 % 69 91 %
Pressurtzer Hesters (OperableS) vfS - Condenser Pressure 29 97 inches Hg (Absolute) incere SCM 83 86 Y - l Avg $ Hghest incere 42131 Y ;_ CONTAf> MENT
^ 1
\
RCS Wakeup Flow 268 GPM ] PurgeValve A Ciceed 8 Closed C Closed D Caosed RC8 Letdown Flow 0 GPM RS Pressure 14 43 PSIA Temperature 107 98 W Make up Tann Lowel 85 8 inches . RB Water Sump 0 00 inches Floor 0 00 inches 0 - '
- R8 Hydrogen 0 %
SAFETY SYSTEMS R8 FAN $ AHE1A Fast AME18 paw AME1C Fast HPl Flon(GP A e0 8 00 C 00 0 00 R8 Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM 8WST Level SS 60 Ft , I LPI Flow A 0 00 GPM S 0 00 GPM . RAD WASTE Core Flood Level A 1162 FL 8 1162 . Ft Mac. Waste 6 90 Ft Core Flood Pressure A 604 55 P!DG B 604 55 PSIG '- AuL Badg Sump 8033 % Emergency FW Flow A 0 00 GPM $ 0 00 _ GPM A1 49
E Operational Data DrW 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time e 1935 hours Scenerlo Tiene Tu 245 or 4.0 Hours 05 Minutes
- 1. RF.ACTMTVCONTROL -
,," Neutron Flug 13 46 CPS ' 11 AMPS ;- 0 Od % Boron Conc. 35 PPM Generated Megewetts 0 (Ni-1) (NI-3) (NI-5)
CRO Poetion ' 0 0 0 0 -0 0 0 30 % Withdrawn (GP ) 1 (015 2) (G p 3) (Go 4) ( 6) (G D (Go s) N. C00UNG SGE SECONDARY LOOP A LOOPB Loop A Loop g 0700 Leel(WR) 10812 inches 34 49 inchee Tc(WR) die 76 9 dia 93 Y OTSO Pressure 276 80 PSIO 269 ao PSIG RC Plow 36 61 E6 Dese) 38 42 E6 M Peed Flow (Immmt) o 00 E6 oo Et Tube 4 hen Does T 4 17 9 toes v - ' Preesweer Leet te2e inchee Condensele Tank Level 13.01 Pt 13 34 Pt RCP Operseen RCA1A RC.P.18 MCA1C R@t ON - CPP CPP ON Turtme Bypees Vehe Poemen 30 67 % 74 12 %
- M Healers (Operatue?) YES Condenser Prenewe 23 32 inchee Hg(Absetute) incere SCM 43 32 Y AS. 5 PWghest insere . 417 83 4 - CONTA M RCS Makeup Flow 270 GPM Pwge vehe A Cleend 8 Cleoed C Closed D Cleesd ES Latemen Piew o OPM RS . Preneure 14 43 PsaA Temperature 107 96 9 Mene up Tank Leet 44 s inchee Rs Water swnp o 00 inches Piser o ao h;hes Rs Hydrogen o %
SAFETY. SYSTEMS RePANs AntiA Past AHeis Pan AHetc Feet ' HPI Pisw(GP A oo e oo C oo D oo me sprey Piew Loop A e ao GPM Loop e o no opu SWST Level 66 27 PL LM Piew . A oao opu s ono oPM RAD WASTE Core Plead Level A 1182 Pt 8 1102 Pt insc Weste 6 to Pt
' Core Ploed Prenewe A Godla PseQ 3- God 64 PSIG Auu. Did8. Sump to 33 %
Emergency PW Piew A e 00 GPu e o 00 OPW
- u. m i
)
i i 4
l I Operational Data Drill 9904 This is RACKUP data for the ECC, TSC and EOF. Clock Time = 1940 hours scenerlo Time T. 250 or 4.0 Hours 010 Minutes L REACTIVITYCONTROL Neutron Flux 12 73 CPS -11 AMPS 0 04 % Baron Conc.1, PPM Generated Megawetts 0-(NI 1) (Ni-3) (NI-5) CRO Position 0 0 0 0 0 0 _L 30 % Withdrawn ( ) (Gp 2) .. (Go 3) . (Gp 4) GA S) . (Gp 61 (( 0 7) (Gp 8) 3
- 11. ~ COOLING !
l ISE MIstfl LOOP A LOOP B Loop A Loop B J OTSO Level (WR) 13222 inches $4 36 inches Th (WR) 416 26 V 416 21 V OTSG .v' a el(OP) 21 21 % 4 06 % Tc (WR) 416 08 4 416 22 Y OTSG Pressure 264 35 Psio 247 37 PSIG RC Flow 36 66 E6 mmes) 36 47 E6 tawWhr) Feed Flow (ibm /hr) 0 00 E6 0 11 E6 i RC Pressure 646 6 PSIG ' Tube Shell Delta T 6 18 V 10 77 'F ' Pressuruer Level 192 9 inches Condensate Tank Level 12 93 FL 13 23 Ft RCP Operation RC.A1A RC P 1B RC P 1C RCA1 ON OFF OFF ON Turtune Bypeas Valve Position 30 67 % 78 91 % Pressunrer Hesters (Operable') YES . Condenser Pressure 29 92 incles Hg (Absolute) incore SCM 82 98 V Avg. 6 Hghest incore 413 79 V CONTAppWNT RCS Makeup Flow 272 GPM Purge Valve A Closed B Closed C Closed D Closed RC8 Letdown Flow 0 GPM RB Pressure 14 43 PSIA Temperature 107 92 V Make Up Tank Level 84 6 inches RB Water Sump C 00 Inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHE18 Fast AHE1C Fast HPl Pkm(GP A 00 B 00 C 00 0 00 RB Spray Flow LoopA 0 00 GPM Loop B 0 00 GPM BWST Level 65 03 Ft - ' .. . . /. ' 3 kN LPt Fkm A 0 00 GPM B 0 00 GPM ftAD WA8TE Core Flood Level A 1162 Ft B 1162 Ft Mac Weste 6 90 Ft Core Flood Pressure A 604 63 PSIG B 604 f3 PSIG Aux. Bido Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM AS. 61 l , i 1
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time a 1946 hours Scenario Time T= 255 or A.0 Hours 015 Minutes L REACTMTYCONTROL Neutron Flux 12 06 CPS 11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (NI-5) CRO Position 0 0 0 0 0 0 0 30 % Withdrawn
-(GP1). (Gp 2) (Go 3) (Go 4) (Gp 5) (Gp 6) (Go 7) (Go 8) wmm
- 11. f,00 LING
!LQ.1 SECQNDARY LOOP A LOOP B Loop A Loop B i
;OTSO Level (WR) 158 30 inches 34 24 inches Th (WR) 412 38 Y 412 34 Y l 27 91 % 4 03 %
Tc (WR) 412 22 V 411 33 4 {OTSG Level (OP)
!OTSG Pressure 253 19 PSIG 235 69 PSIG RC Flow 36 60 E6 gbndv1 36 62 E6 pimWhr) j j Feed Flow (Ibm /hr) 0 00 E6 0 09 E6 RC Pressure 621 9 P$tG l Tut >Shell Delta T 5 97 V to 95 V Pressuruer Level 194 2 inches i
! Condensate Tank Level 12 84 Ft 13 13 Ft RCP Operaten RC-P.1A RCA1B RC P 1C RC-P 1 ;
ON OFF OFF ON ;Th Bypass Vahe Posmon 30 67 % 84 61 % i Pressurser Heaters (Operable?) YES ' Condenser Pressure 29 92 inches Hg (Absolute) incore SCM 82T3 V i Avg 6 Highest Mcore 409 88 4 ;CQNTAINMENT RCS Makeup Flow 273 GPM Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Ficw 0 GPM jRB Pressure 14 43 PSIA Temperature 107 89 Y Main up Tank Levei 84 4 inches ~ RB Water Sump 0 00 Inches Floor 0 00 Inches re wmoexme,uauzwyam:anwoweaw;t,a --- -- - >mwerss,.. RS Hydrogen 0 % SAFETY SYSTEMS RB F4NS AME1A Fast AHE18 Fast AHE1C Fast HPI Flow (GP A 00 B 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Lover 54 79 Ft . 1 - <- -
, "' > - WM (PI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A i182 Ft. B 1162 Ft Mac. Waste 5 90 Ft Core Flood Pressure A 604 53 PSIG B 604 63 PSIG Aunt Bldg Sump 80 33 %
l l Emergency FW Flow A 0 00 GPM B C 00 GPM A1 62 l
l l l Operational Data i Dril19904 l This is BACKUP data for the ECC, TSC and EOF. Clock Time = 1950 hours i scenario Tirne T= 260 or 4.0 Hours 020 Minutes L REACTIVITYCONTROL Neutr0ri Flux 1144 CPS -11 AMPS 0 04 % Baron Conc, 36 PPM Generated Megawatts 0 1 (Ni-1) (NI-3) (Ni-5) CRD Posstion 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Gp 7) (Go 3) (Gp 4) (Go 5) (Go 6) (Gp 7) (Gp 8) y ----._g - - _. w. . _ . . _ _ _ _ _ _ _ . . IL COOLING fLQ1 SECONDARY LOOP A LOOPB Loop A Loop B OTSG Lewi(WR) 183 61 inches 34 13 inches Th (WR) 408 46 Y dos 41 *F , OTSG Level (CP) 35 82 % 3 98 % i Tc (WR) 406 31 V 407 38 V ! OTSG Pressure 241 51 PStG 222 15 PSIG RC Flow 36 66 E6 tibndr) 36 58 E6 gbethr) Feed Flow (Ibm /hr) 0 00 E6 0 11 E6 RC Pressure 597 8 PS!G TutMhell Dens T 5 80 9 11 10 V Pressunzer Level 196 9 inches Condensate Tank Level 12 78 FL 13 04 Ft RCP Operaten RC-P.1A RC.P.18 RC P.1C RC P-1 ON OFF OFF ON Turbme Bypass vans Pos4mn 30 67 % 100 00 % Pressurizer Heaters (Operacle') YES Condenser Pressure 29 92 inches Hg (ADsolute) incere SCW 82 56 Y ~
- :wmusra**vavameww7swwwis -: mar.6 Avg S Hsghestincore 40S 86 Y y'h. GONTAINENT RCS Makeup Flow 255 GPM Purge Valve A Closed B Closed C C16 sed D Closed
- M72 RCS Letdown Flow 0 GPM ?;V R8 Pressure 14 43 PSIA Temperature 907 87 V MI Make up Tank Level 84 4 inches RB Water Sump 0 00 inches Floor 0 00 inches up - .. u mmuzzzemr-v.ww -. m .maffy
== - RB Hydrogen 0 %
k S AFETY SYSTEMS RSFANS AHE1A Fasr AME18 Fast AHE1C Fast HPI Flow (GP A 00 B 00 C 00 D 00 . RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Levs4 54 65 Ft N N '"M
?
LPI Flow A 0 00 GPM B C 00 GPM f RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Mac. Waste S 90 Ft Cose Flood Pressure A 604 62 PSIG B 604 52 PSIG . Aux. Bido Sump 80 33 % Emergency FW Flow A 0 00 GPM B C 00 GPM A163
Operational Data Driu 9904 This is BACKUP dets lor the ECC, TSC and EOF. Clock Tirne = 1956 hours scenerlo Tinie . T= 205 or 4.0 Hours e25 Innutes L REACTMTYCONTROL Neutron Flux 10 91 CPS -11 AMPS'- O 04 % Baron Conc. 36 PPM Generated Mogenutts 0 (NI-1) (Ni-3) (Ni-5) CRD P0eibon - 0 ' O O O O O O 30 % Withdrawn (G 2) (G 3) (G 4) (G 6) (0p 7) (Gp 8) (Gf 1) f
- 5. COOUNG R$in ancono m LOOP A . LOOPB -
Leap A Loop B OTSO Lowl(WR) 207 46 inches 33 90 Inches Th (WR) 404 37 y dos 31 y OTSO Lowel(OP) 44 27 % 3 93 % Tc (WR) 404 25 4 403 16 4 0780Pmeaum 230 66 P90 211 98 PelO RC Plow 38 71 E6 pueM 36 43 E6 lbmew) Peed Flow (lbmmt) 0 00 E6 0 12 E6 RC Preceum 673 $ PSIG Ththen ' Done T 5 67 y 11 63 Y Pressuruer Level its 2 inches Cerulenents Tank Level 1267 PL 12 94 Pt RCP Operaten RCA1A , RCA18 RCA1C RCA1= ON OrP OPP j_ Turtune Sypese Vehe Poseon 30 67 % 100 00 % pmesurtser Heaners (operoniet) ves Consenser Pressure 2992 InchesHg(Abeslute)
~^
Incore SCM 8219 y Avg. S Hgheet incere . ' 401 86 9 - COfffM RCS Makeup Plow 256 OPM Purge Vahe A Cloemd 8 Cassed C Closed D Closed RCS Letdown Pine - 0 OPM R8 ' Pressum 14 43 PSA Temperatu#e 107 84 y Make Up Tank Level 64 7 inches R5 Weser Sump 0 00 inches Ploor 0 00 inchee _[ RS HY8r00en 0 % SAFETY SYSTEMS Rs PANS AME1A Past AME18 Post AHE1C Post
' FM Plow (GP A 00 B 00 C 00 0 00 RB Spray Plow Leop A 0 00 GPM Loop 8 0 00 GPM swsT Levei e4 32 Pt Z I LPI Plow A 0 00 GPM .B 0 00 GPM RAD WASTE Case Ploed Level ,A 1182 Pt 8 1182 Pt Mac. Weste ' - 6 90 Pt Case Fleed Pressure A 004 61 PSIG B 004 61 P90 Aunt Bleg. Sump 40.33 %
amergency Pw Pia. A' 0 00 osM s 0 00 oPM h $4 I i 1.
p-Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time a 2000 hours scenario Time T= 270 or 4.0 Hours 030 Innutes L REACTMTYCONTROL Neutron Flux 10 41 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI.3) (NI.5) CRO Pos4 ion 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Go 2) .. (Gp 3) (Go 4) 5) (Go 6) (Go 7) (Go 8)
. . . . . . m.
- 11. COOLING -
Bfr.3 SECONDARY LOOP A LOOP 8
] Loop A Loop B Th (WR) 400 47 4 400 42 V OTSG Level (OP) 62 11 % $ 89 %
Tc (WR) 400 35 V 399 31 4 OT80 Pressure 220 87 Psio 203 66 Psio RC Flow 36 78 E6 W 36 70 E6 Inuner) Feed Flow (Ibm /ht) 0 00 E6 0 04 E6 RC Pressure 662 2 PSiG
. Tut *8 hell DeltaT 6 68 Y t142 Y "Condensan Tank Level 12 69 FL 12 86 FL I RCP Operatx,n RC.P.1A RC-P.18 RC P.1C RC.P h -
ON OFF OFF g Turtune Bypass Vahe Possbon 30 67 % 100 00 % Pressunter Healers (Operaine?) YES Condenser Pressure 29 92 inches Hg (Absolute) incere SCM 01 SA T Avg 5Highestincore 398 27 4 CONT M RCS Makeup Fue 258 GPM . Purge Valve A Closed S Closed C Closed D Closed RCS Latdevn Flow 0 GPM RB Pressure 14 43 PSIA Temperature 107 82 V Moke up Tank Lavei 84 6 inches R8 Water Sump 0 00 inches Floor 0 00 inches i R8 Hydrogen 0 % SAFETY SYSTEMS RS FANS AHE1A Fast AME1B Past AHE1C Fast HPI Flow (OP A 00 B C0 C 00 0 g R9 Spray Fm Loop A 0 00 GPM Loop B 0 00 GPM eWsTlevei 64 0e Ft M< ' T4EIMEL~V ' - - . 0. e+ % LP Fiow A 0 00 GPM B 0 00 GPM __1 RAD WASTE Core Flood Levei A 11 62 Ft B 1162 Ft Mec. Waste 6 to Pt Core Flood Pmesure A eve 50 PSIG B 604 60 PSIG Aun Badg Sump 80 33 % Emergency FW Flow A 0 00 OPM B 0 00 GPM j Ai 94 l 1 I
Operational Data ormoso4 This is BACKUP data for the ECC, TSC and EOF. Clock Time = ' 200S hours scenerlo Time Tm 275 or 4.0 HoMrs OSS RIinutes - L REACTMTY CONTROL Neutron Flux 9 964 CPt 11 AMPS ' 0 04 % Baron Conc. 36 PPM Generated Megewetts 0 (NI 1) (Ni-3) . (N1-5) CRO Positen 0 0 0 0 0 0 0 30 % Withdrawn (Gp1) (Gp 2) (Gp 3) 5 (G>6) (Gp T) Ap 8) (Gf 4) II. COOUNG
'M SECONDARY Loop A Loop B LOOP A LOOP 8 Orso Lowei(WR) 761 91 inches 33 84 inches Th (WR) 307 03 4 308 to V OT90 Lowel(OP) 60 91 % 3 86 %
Tc(WR) 398 93 V 306 94 4 OfsG Pressure 212 44 PSIG 196 04 PSIG RC Flow 36 83 E6 . paese) 36 78 E6 M Feed Flow (ituner) 0 00 E6 0 06 E6 RC Pressure C321 PSIG . T h 8 hell Done T 6 46 4 11 41 V Pressuruer Level 2016 inches Condeneste Tank Level 1260 Ft 12 76 Ft RCP Opershon RC.P 1A RC.P-18 RC P 1C RCA1 oN OFF OFF ON Tween Sypees VMwe Poseon 30 67 % 100 00 % Pueswuer Hessere (Operetne?) YES Condenser Pressure 2992 inchesHg(Abeslute) ince= sCM s125 V Avg 5Hghestincore 306 ce V CONT M RCS Makeup Flow 260 GPM Purge Vefwe A Cloose B ' Closed C Cloemd D Cleoed RCS Lehtown Flow 0 GPM RB Pressure 14 43 PSIA T_ 107 79 Y Wehe Up Tank Levei 84 6 inches RS Water Sump 0 00 inches Floor 0 00 inches Rs Hydrogen o % SAFETY SYSTEMS RsFANS AME1A Feet AME18 Feet AHE1C Fast HPI Flow (OP A 00 -B 00 C 00 0 00 RB Spray Flav Loop A 0 00 GPM Loop B C 00 OPM SWST Level 63 48 FL . LPI Flow A 0 00 GPM S 0 00 GPM RAD WASTE Core Fleed Level A 1162 Ft 8 1182 Ft Mac. Weste 6 90 Ft Cbre Flood Pressure ' .A 404 40 PSIG 8 004 40 PS10 4st Bedo. Sump 40 33 % Emergency FW Flow A 0 00 OPM - 8 0 00 OPM
. A1.
Ti l 1 Operational Data Drtil 9904 TNs is SACKUP data for the ECC, TSC and EOF.' Clock Time = 2010 hours Scenerlo Time To 280 or i 4.0 Mours ' Bee Annutes I;
- 1. REACTMTY CONTROL -
Neutron Flux 9 567 CPS = 11 AMPS 0 02 % Baron Conc. 36 PPM Generated MoDowetts 0 q
. (NI-1) (NI-3) (NI-5)
CRD Postson 0 0- 0- 0 0 0 0 30 % Withdrawn (Gp 2) (Gp 4) (G 6) (Gp 7) ( 8) ('G{ 1) i (Gf 3)
- 11. ' COOLING 3 13 ' . .
ancesautY LOOP A LOOPB Loop A Loop B OTSO Lowl(WR) 273 e6 Inchee 33 78 inches
- Th (WR) 303 96 V 303 92 Y OT80 Level (OP) 67 63 % 3 82 %
Ts (Wt) 303to V . 302 91 V OTSO Pvessure 20680 Psio its31 PelG RC Flow 36 88 E6 puse) 36 79 E6 mesir) Feed Pimw (Ibnuhr) 0 00 E6 0 10 E6 RC Pmesure $12 4 PSIG
. Tube.8hes DeNe T 6 84 V 19 61 Y Pressunser tessi 207 4 inches Condensate Tenh Lowel 12 42 Ft 12 67 Ft RCP Opereben RCA1A RCA1B ' RC-P.1C RCAir CN OFF OFF A Turbme Bypees Velve Poemon 30 87 % 100 00 %
PresoungerHostafs ' (Operatee') YES Condenser Pfessure 29 92 inches Hg (Absolute) Incese SCM i 40 35 V Av s H,neseincere 3 2 23 Y contABangur RCS Makeup Flow 200 GPM Purge Velve A closed B Closed C Closed D Closed RCS Letdown Flow 0 OPM RB Pressure 14 43 P8IA Temperature 107 78 V Make up Tank Level 84 4 inches RS Water Sump 0 00 inches Floor 0 00 inchee
~;T_1_
RB Hydrogen 0 % SAFETY SYSTEMS RBFANS AME1A Fest AHE1B Past AHE1C Feet i HF1 Flow (GP A 00 B C0 C. 00 D Jo__ RB 8 prey Flow Loop A 0 00 GPM Loop B 0 00 GPM BWet to.i 63 es Pt -1;m m LPI Fine A 0 00 OPM B 0 00 OPM RAD WASTE
- Core Flood Lovel A 4162 Pt B 19 62 Ft Mac. Weste 6 90 Ft Core Flood Pressure A 004 46 PSIG B 004 48 P810 Aist. Skig. Sump to 33 %
Emergency PW Flow A 0 00 OPM B C 00 GPM A1- 87 f
[ opennonaiossa DrM 9904 This is BACMUP data for the ECC, TSC and EOF.' Clock Time a '2015 hours Scenario Thne To 206 or 4.0 Hours 046 tunutes L REACTMTYCONTROL NeutronFlux 9228 CPS 11 ' AMPS 0 04 % Baron Cone. 36 PPM Generated MoDowetts 0 (NI-1) (NI-3) (Ni-5) - CRO P0siten 0 0' 0 0 0 0 0 30' % Withdrawn (Gp 1) - (Gp 2) (Gp 3) (Gs 4) G5 (Gp 6) (Gp 7) (Go 8)
- 11. C00UNG
. gia asCONDARY LOOP A LOOP 8 Loop A . Loop B OTSO Lewi(WR) ' Mit 21 inches 33 74 inches Th (WR) 30121 V 30118 Y OTSO Lowl(OP) 75 72 % 3 79 %
Tc (WR) 30112 V 300 20 V 0700 Pressure 200 61 P840 134 es Psio RC Finw 36 to E6 DnWhrt 36 42 E6 pseset Feed Flow (!brothr) 0 00 ' E6 0 03 E6
. RC Psecoure ~~402 8 PSIO Tum Dette T 4 63 V 11 80 V Pressuriser Level 218 8 inches Condensele Tank Level 12 33 Ft 12 67 Ft RCP Operaten ' RCA1A R%18 RC P 1C RCA1
_O_N OFF OFF ON Turtune Bypees Velve Poemon 30 67 % 100 00 % _ - Messere . (operennt) . . vEs Condenser Pressure 29 92 Inchee Hg(Abeslute) Incers SCM 74 40 V Avg 6 Hghestincore 300 04 V CONT M RCS Makeup Flow 213 OPM PurgeVolvo - A Closed 8 Closed C Closed D Closed RCS Letsman Flow 0 Optt RS Pressure 14 43 PSIA , Temperature 107 76 V Mene up Tank Lewi SS $ inches R8 Water ' Bump C 00 inches Floor 0 00 inches RS Hydrogen 0 % SAFETY SYSTEMS Rs FANS AME1A Feet AME1B Feet AHE1C Feet HPi Finn (oP A 00 s 00 C 00 0 00 Re sprey Fiow . Loop A 0 00 opu Loop e 0 00 opu BWSTLowl 63 42 Ft.
. LPI Flow A 0 00 GPM 8 0.00 OPu RAD WASTE Core Flood Level + A 1102 Ft 8 1182 Ft thee. Wesse 6 90 Ft Cone Flood Pressure A 004 47 PeeG S 804 47 P88G Anet Bldg. Sump 80 33 %
Emergency FW Flow A 0 00 GPu 8 0 00 OPM A190 1 l l
)
Operational Data 3 Dril19904 I This is BACKUP data for the ECC, TSC and EOF. Clock Time s 2020 hours scenario Time T= 290 or 4.0 Hours OSO Minutes
- 1. REACTMTY CONTROL Neutron Flux 8 978 CPS 11 AMPS 0 04 % B0ron Conc. 36 PPM Generated Megawatts 0 1
(NI 1) (Ni-3) (Ni-S) l CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp 2) (Gp 4)
, . _ . .(Gp 1) ~_
(Go 3)
-._g..
(Go 5) - - - - - (Gp 0) (Go 7) 9pygm (Gp 8)
)
- 11. COOLING Bfg1 SECONDARY LOOP A LOOPB Loop A Loop B 0730 Loves (WR) 314 90 inches 33 71 inches Th (WR) 389 60 4 389 44 V '
4 OTSG Level (OP) 84 38 % 3 77 % Tc (WR) 389 32 Y 388 43 *F 07S0 Pressure 198 69 PSIO 182 44 PSIG RC Flow 36 92 E6 (amWhr) 36 84 E6 lawneir) Feed Flow (Ibm /hr) 0 00 E6 0 07 E6 RC Pressure 474 7 PSIG Tube Shell Defts T 4 96 Y 12 27 Y Pressunger Level 220 $ inches Condensale Tank Level 12 26 Ft 12 48 FL RCP Operation RC P 1A RGP18 RGP.tC RCP.1 ON OFF OFF ON Turtme Bypass Vstve Poseon 30 67 % 100 00 % Pressenter Healers (Opersbie') YES Condenser Pressure 29 92 inches Hg (Absolute)
~ ~ ~ ~ ~ ~ ~
incere SCM 75 48 Y g was umssws.42 4msggy;" #:MNM Avg 5 Highest incere 388 93 Y CONTAINMENT RCS Makeup Flow 189 OPM Purge Valve A Closed B Closed C Ckmd D Closed RCS Letoown Flow 0 QPM RB Pressure 14 38 PSIA Tempemture 107 74 Y Make Up Tank Levet 66 0 inches RB Water Sump C 00 inches Floor 0 00 inches Mgienzwaw"mxwmmg;mwe-mrM"" R8 Hydrogen 0 % SAFETY SYSTEMS RB FANS AMEIA rse AME1B Fast AHE1C Fast HPI Flow (GP A 00 8 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Levei 53 24 FL !"Ex urnernac m zz % m i mMEMT&MMWKma LPI Flow A 0 00 GSM B C 00 GPM RAD WASTE Core Flood Level A 1162 Ft 8 1162 Ft Mac Weste 6 90 Ft Core Flood Pressure A 604 46 PSIG B 604 46 PSIG Aur Bldg Sump 80 33. % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1. Es J l 1 l l l l I
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2025 hours Scenario Time Tu 295 or to Hours 055 Minutes L REACTMTYCONTROL Neutron Flux 8 74 CPS 11 AMPS 7E 04 % Boron Conc 36 PPM Generated Megawatts 0 (N11) (NI-3) (NI-5) CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (GP 1) (Go 2) (Go 3) (Gp 4) (Go 5) (Go 6) (Go 7) (Go 8) l lL COOLING BCE SECONDARY LOOP A LOOPB Loop A Loop B OTSG Level (WR) 34167 inchee 33 68 inches Th (WR) 388 52 V 388 47 4 OTSG Level (OP) 93 02 % 3 76 % Tc (WR) 388 35 4 387 47 Y OTSO Pressure 196 59 PSIG 180 34 PSIG RC Flow 36 53 E6 anman) 38 85 E6 (Itunihr) Feed Flow (Ibm /hr) 0 00 E6 0 08 E6 RC Pressure 456 5 PSIG Tube Shell Delta T 6 16 V 12 94 V Pressurizer Lowel 218 4 inches Condensats Tank Lowel 12 16 FL 12 39 Ft RCP Operation RC P-1A RC-P 1B RC P 1C RC.P.1 ON OFF OFF ON TurtHne Bypass Valve Poston 30 67 % 100 00 % Pressuruer Heaters (OperaDie7) YES Condenser Pressure 29 92 inches Hg (Absolute) incere SCM 72 99 V Avg 6 Haghest incore 387 96 4 CONTAIN44ENT RC8 Makeup Fitw 189 GPM Purge Valve A CM B Closed C Closed D Cloomi RCS Letdown Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 73 V Make Up Tank Level 86 0 inches RB Water Sump C 00 inches Floor 0 00 inches am.L rm- _ m% -_ ma eswww.wat _ _ RS Hydrogen 0 % S AFETY SYSTEMS RB FANS AHE1A Fast AME18 Fast AME1C Fast HPI Flow (GP A 00 8 00 C 00 0 0 RB Spray Flow Loop A 0 00 GPM Loop B C 00 GPM BWST Level 53 06 Ft " 'e-m e-- MJ XM LPI Flow A 0 00 GPM B 0 00 GPM 7+ 6 RAf) WASJE Core Flood Level A 1162 Ft 8 1182 Ft h Mec. Waste 5 90 Ft Core Flood Pressure A 604 45 PSIG B 604 45 PSH3 .{. j Aur Bldg. Sump 80 33 % 0 00 GDM 0 00 GPM e Emergency FW Flow A B .M ff A1 80 l l 1 l l l l t C
7 l Operational Data I Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Tirne = 2030 hours Scenario T6me Tm 300 or 5.0 Hours 0 eBnutes L REACTMTYCONTROL Neutron Flux 8 519 CPS -11 AMPS O 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NI-1) (Ni-3) (NI-5) CRO Posdion 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Go 3) (Gp 4) 5) - (Gp 6) (Go 7). (Go 8)
. (Gf 2).
n IL COOUNG ? Bfd .8ECONDARY LOOP A LOOPB : Loop A Loop B "OTSG Lovet (WR) 364 82 leches 33 68 inches Th (WR) 387$6 V 387$2 V y 0T80 Level (OP) 100 00 % 3 75 % Tc (WR) 387 39 9 386 63 V
- OTSG Pressure 194 96 PSIG 178 50 PSIG RC Flow 36 93 E6 lawneu) 36 85 E6 ptwneel Feed Flow (Ibmmr) 0 00 E6 0 08 E6 RC Pressure 439 4 PSIG Tut +Shell DestaT 6 31 V 13 43 V Presouruer Level 217 8 inches
-.Condensats Tank Level 12 08 FL 12 30 Ft RCP Operaten RCA1A RCA1B RC P 1C RM it !
oN OFF OFF g Turbem Sypass Vahe Poston 30 67 % 100 00 % Proesuruar Heaters (Operable?) YES Condenser Pressure 29 D2 inches Hg (Absolute) Incore SCM 7010 V
-1 Avg 6 Highestincore 38710 V ;CONTAMENT RCS Makeup Flow 179 GPM Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Fkne 0 GPM - R8 Pressure 14 42 PSIA Temperature 107 72 V Make Up Tank Level 86 0 inches RB Water Sump C 00 inches Floor 0 00 Inches
[ _s_ RS Hydrogen 0 % SAFETY SYSTEMS - RB FANE AME1A Fast AME18 Fast AHE1C Fast MPI Flow (GP A 00 B C0 C 00 0 g. RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 62 89 Ft Lpl Fion A 0 00 GPM B 0 00 GPM . RAD WA$TE Core Flood Level A 1162 Ft B' 1162 Ft Mac. Waste 6 90 Ft Flood Pressure A 604 44 PSIG B 604 44 PSiG BAur Bado sump 80 33 % Emergency Fw Piow A 0 00 GPM S 0 GPM . d ai et i l l l l
Operational Data DriN9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2035 hours Scenerlo Time Ta 305 or 5.0 Hours 05 heinutes l
- 1. REACTMTY CONTROL Neutron Flux 8 315 CPS - .11 AMPS Boron Conc. 36 PPM Generated Megawatts 0 l 0 04 , %
(Ni-1) (NI-3) (NI-5) CRO Position 0 0 _0_ 0 0 0 0 30 % Withdrawn (GP 1) . . (Gp 2) (Go 3) . (Gp 4) . Gp 5) (Gp6) . (Gp 7) . (Go 8) II. COOUNG gg s5CONDARY LOOP A LOOPB Loop A Loop B OTSG Levet (WR) 388 72 inches 33 65 inches Th (WR) 386 75 V 386 71 9 OTSG Level (OP) 100 00 % 3 75 % Te (WR) 386 68 Y 371V OTSG Pressure 193 64 PSIG 176 74 PSIG RC Flow 36 93 E6 qauwho 36 86 E6 aumho Feed Flow (ibm /hr) 0 00 E6 0 07 E6 RC Pressure 423 8 PSIG TutMhell DetteT 6 38 4 13 92 4 Pressunrer Level 217 7 inches Condensate Tank Level 11 99 FL 12 71 Ft RCP Operanon RC-P 1A RC P 18 RCA1C RCA1 ON OFF OFF ON TurtHne Bypass Valvo Position 30 67 % 100 00 % Pressurser Hesters (Operable?) YES Condenser Pressure 29 92 inches Hg (Absolute) incere SCM 67 32 V Avg _ s Highestincore 386.37 9 CONTAJM RCs Mohoup Flow 171 GPM Purge Valve A Cioned B Closed C Ciceed D Cioned RCS Latdoum Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 71 Y Make Up Tank Level as 1. Inches RB Water Sump 0 00 inches Floor 0 00 inches R8 Hydrogen 0 % SAFETY SYSTEM $ RB FANS AME1A Fast AHE18 Fast AME1C Fast HPt Flow (GP A 00 8 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop 8 0 00 GPM BWST Levei 62 73 Ft LPi Foa, A 0 00 GPM e 0 00 GPM MAD WASTE Coes Flood Level A 1162 Ft 8 1162 Pt Mac. Waste 6 90 FL Core Flood Pressure A 604 43 PSIG B 604 43 PSIG Aux. Sidg Sump 80 33 % Emergency FW Flow A 0 00 GPM 8 0 00 GPM l n 82 I 1 i l
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2040 hours Scenario Time To 310 or 5.0 Hours 010 Enutes L REACTMTYCONTROL Neutron Flux 8127 CPS 11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (Nl-5) CRO PosIDon 0 0 0 0 0 0 0 30 % Withdrawn f .b $xrmmamwrmwmmm memw II. COOLING BQ3 SECONDARY LOOP A LOOP 8 Loop A Loop B CTSG Level (WR) 412 83 inches 33 68 inches Th (WR) 386 05 V 388 00 V i OTSG Levet (OP) 100 00 % 3 73 % Tc (WR) 38587 4 385 01 V CTSG Pressure 193 63 PSs0 175 33 PSIG RC Flow 36 94 E6 (twwhr) 36 87 E6 lituwht) Feed Flr (ItmVht) 0 00 E6 0 02 E6 RC Pressure 410 4 PSIG Tube. Shen Detta T 6 40 V 14 67 4 Pressurtzer Level 217 8 inches j Condensats Tank Level 11 90 Ft 12 13 Ft j RCP Operanon RC-P 1A RC A18 RC P.1C R%1 ) ON OFF OFF Turtune Bypass Valve Posmon 30 67 % 100 00 % Pressunzer Heaters (Operapie?) YES Condenser Pressure 29 92 Inches Hg (ADsolute) incore SCM 64 si V ==;;;;: . ~- - --- ===s:xmnwsm:swrx:wn Avg 5Hghestincere 385 72 V CONTAINMENT RCS Makeup Flow 164 GPM Purge Vane A Closed B Closed C Closed D Closed RCS Letdown Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 70 V Make Up Tank Level 66 2 Inches RB Water Sump 0 00 inches Floor 0 00 inches mawxw_mwwwararmemuewrm:ssenere, -x==;;;;>;a e _.. - R8 Hydrogen 0 % SAFETY SYSTEMS R8 FANS AME1A Fast AME1B Fast AHE1C Fast l l HPI Flow (GP A 00 8 00 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM ' BWST Level $2 57 Ft +xe~~ -.:c e mcox6x m :4*w -- w w m 'Wwame2 LPI Flow A 0 00 GPM B 0 00 GPM th RAD WASTE y g Core Flood Level A 1162 Ft B 1162 Ft Z Mac. Waste 5 90 Ft Core Flood Pressure A 604 42 PSIG B 604 42 PSIG 7; Aa Bldg Sump 80 33 % 0 00 GPM net Emergency FW Flow A S 0 00 GPM E!M A4 83 _a
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2045 hours Scenario Time Tm 315 or 5.0 Hours 015 Minutes
- 1. REACTMTYCONTROL Neutron Flux 7 953 CPS 11 AMPS 0 02 % Baron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (Ni-5) l CRO Posmon 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Gp 2) (Go 3) (Gpd) (Go 5) (Gp 6) (Go 7) (Go 8)
- 11. COOLING BQ{ _ SECONDARY LOOP A LOOPB Loop A Loop B
_ OTSO Level (WR) 438 42 Inches 33 56 inches Th (WR) 385 40 4 385 3e V
- OTSO Level (CP) 100 00 % 3 76 %
Tc (WR) 385 22 4 384 38 V OTSO Pressure 194 82 PSIG 173 27 PSIG RC Flow 36 94 E6 (twwhrt 36 67 E6 Obnwhr) Food Flow (IDmihr) 0 00 E6 0 14 E6 RC Pressure 397 5 PSIG : i I Tut +Shell Delta T 1 13 V 16 16 V Pressuruer Levei 217 4 inches Condensate Tank Level 11 87 Ft 12 04 Ft RCP Opersoon RC-P 1A RC-P 18 RC P 1C RC-P 1 ON OFF OFF ON Turtune Bypass Valve Posthon 30 67 % 100 00 % Pressuruer Hesters (Operable 7) YES Condenser Pressure 29 92 inches Hg (Absolute) Incore SCM 62 43 V Avg 6Hghestincore 38512 V -_. CONTAl q RCS Makeup Flow 156 GPM Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 70 V Make Up Tank Level 86 3 inches RB Water Sump 0 00 inches Floor 0 00 Irches RB Hydrogen 0 % S AFETY SYSTEMS RSFANS AME1A Fast AHE18 Fast AMC1C Fast HPi Flow (GP A 00 8 00 C 00 0 00 RB 6 pray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 52 di Ft --- LPI Flow A 0 00 GPM B C 00 GPM M NASTE Cue Flood Level A 1162 Ft 8 1162 FL .Mac Waste 6 90 Ft Core Flood Pressure A 604 41 PSIG B 604 41 PA' Aux Biog. Sump 80 33 % Emergency FW Ficnv A 0 00 GPM B C 00 GPM ! A1 e4
Operaticnal Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 20$0 hours Scenario Time Tm 320 or 5.0 Hours 020 Mnutes
- 1. REACTMTY CONTROL NeutronFlux 7781 CPS -11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NI1) (Ni-3) (NI-5)
CRD Position 0 0 0 0 0 0 0 30 % Withorawn (Gp 1) (Gp 2) (Go 3) (Go 4) (Gp 5) (Go 6) (Go 7) (Gp 8)
- 11. COOLING Bfr.2 afCONQARY LOOP A LOOPB Loop A Loop B OTSG Lowl(WR) 463 65 inches 33 57 Mches Th (WR) 384 79 4 384 78 Y OTSG Level (CP) 100 00 % 3 45 %
Tc (WR) 384 60 4 383 72 4 OTSG Pressure 196 28 PSIG 171 77 PSIG RC Flow 36 93 E6 (ItwWhr) 36 88 E6 (ewwhr) Feed Flow (IbmMr) 0 00 E6 0 10 E6 RC Prosaure 386 8 PSIG Tutml Dens T o 09 v 15 38 Y Pressuruer Level 2176 inches Cormsensate Tank Level 11 74 Ft 11 95 Ft RCP Operaten RC-P-1A RC-P 18 RC-P-1C RC# 1 ON OFF OFF ON Turtune Bypass Valve Posamn 30 67 % 100 00 % Pressuruer Heaters (Operable?) YES Condenser Pressure 29 92 inches Hg (Absolute) incere SCM 60 48 4 *= *~mAv: Mew = w.wwAwarMrs.&2Kw qmm.we :as 4 Avg 6 Hgl hest incore 384 48 4 5'ft)! 5-- : CONTAfNR4ENT RCS Makeup Flow 151 GPM A Closed B Closed C Closed D Closed h..p/ ' Purge Valve RCS Letdown Flow 0 GPM .
- RB Pressure 14 42 PSIA Temperature 107 70 4 Make Up Tars Levei 86 4 inches
[ RB Water Sump C 00 inches Floor 0 00 inchee n;3%A;:m%%wnM&Mu&uMt;MSMM4%rA6::W" :AWAw:: . RB Hydrogen 0 % SAFETY S_yJTEMS RB FANS AHE1A Fast AME1B Fast AHEIC Fast HPI Flow (GP A 00 B 00 C 00 D 00 . RB Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM B591351 BWST Level 82 26 Ft _ _ _ . e-.;; ;= --- -- .M ::;~--~;2execemRazm;zn LPI Flow A 0 00 GPM B 0 00 GPM N RAD WASTE , Core Flood Level A 1162 Ft B 1162 Ft , Masc. Waste 6 90 Ft Core Flood Pressues A GOA 40 P310 B 604 41 PSIG ' ; Aux Blog Surep 80 33 %
;5 '
i Emergency FW Flow A 0 00 GPM B 0 00 GPM .. A1 sS I i a
l l Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2055 hours scenario Time To 325 or 5.0 Hours 025 Minutes
- 1. REACTMTY CONTROL Neutron Flux 7 618 CPS -11 AMPS 002 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (NI-5)
CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (Gp 2) (Go 3) (Gp 4) (Gp 5) (Gp 6) (Go 7) (Go 8)
- 11. COOLING M SFCONDARY LOOP A LOOPS Loop A Loop B OTSG Level (WR) 488 19 inches 33 75 Inches Th(wR) 384 08 V 384 Os V OTSO Level (OP) 100 00 % 3 78 %
Tc (WR) 383 91 V 383 08 4 OTSG Pressure 202 02 PSIG 170 99 PSIG RC Flow 36 ed E6 phrwhrt 36 89 E6 abmavl Feed Flow (IbnVhr) 0 00 E6 0 11 E6 RC Pressure 386 3 PSIG Tutphell Dona T 0 52 4 16 00 4 Pressuruer Levet 217 0 inches Condensate Tank Level 11 66 Ft 11 86 Ft RCP Operatr,n RC.P 1A RC P.18 RC P 1C RC-P 1 ON OFF OFF ON Turbine Bypass Varve Positen 30 67 % 100 00 % Pressuruer Heaters (Operable?) YES Conderner Pressure 29 92 inches Hg (Absolute) incwe SCM 6103 V MM Wpl# N m f Avg 6 Hsghest incore 383 82 V CONTAIP M RCS Mskeup Flow 146 GPM .4 Purge Vane A Closed 8 Closed C Closed D Closed RCS Letdown Flow 0 GPM - RB Pressure 14 42 PSIA Temperature 107 69 Y Make Up Tank Level 86 4 inches R8 Water Sump 0 00 inches Floor 0 00 inches M-. e - R8 Hydrogen 0 % S AFETY SYS*1MI, M RBFANS AHE1A Fast AHE18 Past AHEIC Fast HPl Flow (GP A 00 8 00 C 00 D 00 R8 6 pray Flow Loop A 0 00 GPM Loop B 0 00 GPM SWST Level 6212 Ft a - wy - ?# - . . . - - - . LPI Flow A 0 00 GPM 8 0 00 GPM RAD WASTE Core Ficod Level A 1162 Ft 8 1162 Ft ' Mac. Waste 6 90 Ft Core Flood Pressure A 604 40 PSIG B 604 40 PSIG ' Aux. Bulg Sump so 33 % Emergency FW Flow A 0 00 GPM 8 0 00 GPM A1- 04 l l
Operathmal Data Dre ssos This is BACMUP data for the ECC, TSC and EOF. Clock Time = 2100 hours Scenerlo Time T= 338 or 5.8 Hours 838 h8nutes L REACTMTYCONTROL Neutron Flux 7 522 CPS -11 AMPS 0 04 % Baron Conc. 36 PPM Generated Mogenetts 0 (NI-1) (NI 3) (NI-5) CRO Poestion 0 0 0 0 0 0 0 30 % Withdrawn 5 (Gp 7) (Gp 8) (Gf 1) (Gf 2) (g 3) (g4) ( 6)
- 5. COOUNG BGE ancomuty tooP A Loop 8 Loop A Loop 8 oTSO Lowel(WR) . 612 14 inches 33 si anches Th (WR) 383 60 V 303 40 V or80 LewM (op) 100 00 % 3 71 %
Tc (WR) . 343 34 V 342 61 V orso penesure ses es Psio 174 as Psio RC Fisw 38to E6 lbanen 36 90 E6 ! jasese Feed Flow (itwnmr) 0 00 ES 0 07 E6
' RC Pressure 308 0 PSiG '
Tut >$ hell - Dens T -0 64 V 16 76 V Praesuruer Level 218 6 inches Condensate Tenk Level 11 69 Ft - 11 78 Ft
. RCP Opefaten RC-P.1A RCA18 RC P-1C RCA1 ON OFF ' CFF ON Tunune Bypass Velve Peseon 0 00 % , 100 00 %
- Pressunter Hesters (operablet) . VES Condenser Pressure 29 92 inches Hg (Absolute)
Incore SCM 60 to V Avg 6Hghestincere 386 97 Y CONT M RCS Mahoup Flow 11 GPM Purge Vehe A Cloemd B Cleged C Cleged D Ciceed RCS Leopown Fine - 0 GPM R8 - Pressure 14 42 PSIA temperature 107 80 V Mene up Tank Level e7 e inches R$ Water Sane 0 00 inches Floor 0 00 Inches R8 Hydrogen 0 % SAFETY SYSTEMS R8 FAN 8 AME1A Fest AME18 Fast AHE1C Feet HPl Fion (OP .A 00 8 00 C 00 D 00 RB Spray Flow Loop A 0 00 GPM Loop 8 0 00 GPM BWST Level - 62 00 Ft LPI Flow A 0 00 GPM B C 00 GPM RAD WASTE Core Flood Level A 1182 Ft 8 J(Ft Mac.Weste 6 to Ft C=e Fioca Preneu e A sod 39 PslG 8 404 39 P88G Aux. Biog. Sump 80 33 % emr8ency Fw Fion A 0 00 oPM . 8 0 00 GPM A107 e
Operational Data Dril19904 This is BACKUP data for the ECC, TSC and EOF, Clock Time = 2105 hours Scenario Time T= 335 or 5.0 Hours 035 Minutes
- 1. REACTMTYCONTROL Neutron Flux 7 523 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (Ni-1) (NI-3) (NI-5)
CRO Position 0 0 0 0 0 0 0 30 % Withdrawn G 1 Gp2 (Gp 3 G4 (GD 5) Go 6) IL COOLING B23 SECONDARY LOOP A LOOPB 3 Loop A Loop B
.OTSO Level (WR) 52902 inches 33 59 inches Th (WR) 386 63 V 386 62 Y OTSG Level (OP) 100 00 % 3 72 %
Tc (WR) 386 61 V 385 45 9 OTSG Pressure 38079 PSIG 183 84 PSIG RC Flow 36 84 E6 (mmmt) 36 86 E6 titwWhr) Feed Flow (Ibmthr) 0 00 E6 0 08 E6 RC Pressure 396 3 PSIG Tut +Shell Delta T 4 96 'F 17 83 Y Pressuruer Level 2316 inches Condensate Tank Level 11 51 FL 11 70 Ft RCP Operston RC P-1A RC P 18 RC P-1C RCA1 ON OFF OFF ON Turtune Bypass VaNo Poss! ion 0 00 % 100 00 % Pressuruer Hesters (Operabiet) VE8 Condenser Pressure 29 92 inches Hg (Absolute) ggy sg gn op magmmmsmsvwazmzwK66snwweens ww ?Xfig Avg 6 Hghestincare 390 11 4 .MAINMENT RCS Mahoup Flow 0 GPM - Purge Valve A Closed B Closed C Closed D Closed RCS Letdown Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 70 V Make Up Tank Level 67 7 inches RB Water Sump 6 00 inches Floor 0 00 inches RB Hydrogen 0 %
}AFETY SYSTEMS -RBPANS AME1A Fast AHE18 Fast AHE1C Fast HPt Flow (GP A 00 8 00 C 00 D 00 RB Spray Flon Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 61 97 FL -
LPl Fkiw A 0 00 GPM B 0 00 GPM Bap WASTE Core Flood Level A 1162 FL 8 1162 FL Mac. Waste 6 90 Ft Core Fked Pressure A 604 38 PSIG B 604 38 P$aG ' Aur Bldg Bump 80 33 % Emergency FW Flow A 0 00 GPM B 0 00 GPM A1- M I
p Operational Data DriH 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2110 hours Scenerlo Time T= 340 or - 5.0 Hours 840 unutes L - REACTMTY CONTROL
. Neutrori Flux 7 492 CPS -11 AMPS 0 04 % Baron Conc. 36 PPM Generated Megawatts 0 (NM) (NI 3) (NI.5)
CRD Postion 0 0 0 0 0 0 0 30 % Withdrawn f.. . . , , ' ,L : f T f H. COOUNG Rfit SECONDARY
- LOOP A LOOP B Loop A Loop B OTSG Level (WR) 61016 inches 33 es inctws Th (WR) 300 61 4 390 61 Y OTSG Level (OP) 100 00 % 3 76 %
Te (WR) 300 46 4 38930 V OTSG Proesure 391 00 PSIG 190 21 PSIG RC Flow . 3s 79 E6 lbnwhr) 36 82 E6 (lhmAv) Food Flow (Ibm /ht) 0 00 E6 0 06 E6 RC Pressure 4024 PSIG Tub +8 hell Dene T 10 ao V 19 04 Y Pressuruer Level 262 7 inches Condenoste Tank tevel 11 43 Ft 11 61 Ft RCP Operaten RC P-1A RC P 1B RC.A1C RC-A1 ON OFF OFF ON TurlHne Bypees Valve Poeshon 0 00 % 100 00 % Pressunger Heelers (Operable?) YES .Condeneer Pressure 29 92 inches Hg (Absolute) incere SCM 66 34 4 Avg 5 Hs0 hest incore 393 38 4 CONTAlfMEliT RCS Makeup Flow 0 CPM Purge Velve A Closed B Ciceed C Ciceed D Closed I RCS Letdown Flow 0 GPM RB Pressure 14 42 PSIA Temperature 107 70 4 Make Up Tank Level 87 7 inches RB Water Burep C 00 inches Floor 0 00 inches RS Hydrogen 0 %- SAFETY SYSTEMS RSFANS AME1A Fast AME1B Fast AME1C Fast HPl Flow (GP .A 00 0 00 C 00 D 00 RB Sprey Flow . Loop A 0 00 GPM Loop B 0 00 GPM BWST Level 61 94 Ft LPl Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Pt 8 1162 Pt Mec. Weste 6 90 Ft Core Flood Pressure A 604 37 PSIG B 604 37 PSIG Aux Badg Sump 80 33 % Emergency FW Flow A 0 00 GPM B C 00 GPM A1.te l I
s ! l i l i 1 Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2115 hours ; Scenario Time Te 345 or 5.0 Hours 045 Minutes l L REACTIVITYCONTROL { Neutron Flux 7 449 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI 1) (NI 3) (NI4) CRD Position 0 0 0 0 0 0 0 30 % Withdrawn 0 -1 GP2 (GP 3 (G.
. - D 4)
(Gp 5) (Gp 6) (Gp 7, (Gp B) lL COOLING Eg1 : SECONDARY LOOP A LOOPB Loop A Loop B OTSO Level (WR) 630 29 inches 33 73 inches Th (WR) 390 40 V 392 89 V OTSG Level (OP) 100 00 % 3 79 % Tc (WR) 390 97 V 39134 V OTSG Pressure 409 37 PSG 192 78 PSG RC Flow 0 00 E6 lanwhr) 37 88 E6 (Runhr) Psed Flow (Ibm /hr) 0 00 E6 0 10 E6 RC Pressure 399 3 PSIG Tub >8het! Derts T 12 13 V 19 26 V Pressuruer Level 266 2 inches Concensate Tank Level 11 35 Ft 11 53 Ft RCP Operston RCAt1A RC P-1B RC P 1C RG.P-1 OFF OFF OFF ON Turbme Bypass Valve Posmon 0 00 % 100 00 % Pressuruer Heaters (Operacle?) YES Concenser Pressure 29 92 inches Hg (Absolute; 6354 V incere SCM - Avg 6 Highestincore 394 43 V CONTAINMENT RCS Makeup Flow 0 GPM ' Purge Vahe A closed B Closed C Closed D Closed RCS Letdown Flow 58 GPM RB Pressure 14 42 PSIA Temperature 107 70 V Make Up Tank Lowel 90 6 inches RB Water Sump 0 00 inches Floor 0 00 inches
. RB Hydrogen 0 %
S AFETY SYSTEMS RB FANS AHE1A Fast AME1B Fast AHE1C Fast HPl Flow (GP A 00 8 00 C 00 D 1 RB 3 pray Flow Loop A 0 00 GPM Loop B 0 00 GPM BWST Lowel $194 Pt .
. . - ' ' m o -. .- -
LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft Mac. Waste 6 90 Ft Core Flood Pressure A 604 36 PSIG B 604 36 PSIG Aux. Sidg. Sump 80 33 % Emergency FW Flow A 0 00 GPM B 0 03 GPM Av F9
Operational Data Drit! 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time s 2120 hours Scenario Time To 350 or 5.0 Hours 050 Minutes
- 1. REACTIVITYCONTROL Neutron Flux 7 407 CPS -11 AMPS 7E 04 % Boron Conc. 36 PPM Generated Megawatts 0 (NI-1) (NI-3) (NI-5)
CRO Position 0 0 0 0 0 0 0 30 % Witt> drawn
,., g (Go5) (Gp 6) (Go 7) (Go 8)
II. COOLING ILQ.1 - = SECONDARY LOOP A LOOP B Loop A Loop B OTSO Level (WR) 630 35 inches 33 72 inches Th (WR) 39156 Y 393 79 4 4 OTSO Level (CP) 100 00 % 3 80 % Tc (WR) 302 06 V 392 42 V
'OtsO Pressure 436 76 PSIO 19515 PSIG RC Flow 0 00 E6 StwWhr) 37 87 E6 tehndv1 Feed Flow (Ibm /hr) 0 00 E6 0 03 E6 RC Pnsesure 472 2 PSIG Tune Shell Dana T 13 48 V 19 29 Y Pressuruer Level 263 8 Inches Condensate Tank Level 11 27 FL 11 44 Ft RCP Operation RC P 1A RC-P 18 R M 1C RC 81 OFF OFF OFF ON Turbane Bypass Valve Postion 0 00 % 100 00 %
Pressurlast Heatets (Operable?) YES Condenser Pressure 29 92 inches Hg (ADsolute) { incore SCM B7 93 V - ' - ' 'E l Avg 5 Highest incore 396 41 Y < CONTAINMENT RCS Makeup Fion 0 OPM Purge VaNo A Chwed B Closed C Closed D Closed RCS Letdown Flow 64 OPM . .RB Pressure 14 42 PSLA Temperature 107 71 V j Make up Tank Level 88 6 inches RB Water Sump 0 00 inchos F6cor 0 00 inches \ 9 0+ RS Hydrogen 0 % l l SAFETY SYSTEMS RsFANS AHE1A Fast AME18 Fast AHE1C Fen HPl Flow (OP A 00 B C0 C 00 0 00 RB Spray Flow Loop A 0 00 GPM Loop 8 0 00 GPM BWST W 61 94 Ft - LPI Flow A 0 00 GPM B 0 00 GPM , RAD WASTE Core Flood Level A 11 f2 Ft 8 1162 Ft. Mac Waste 6 90 FL Core Flood Pressure A 604 35 PSIG B 604 35 PSG Atat BNfg. Sump 80 33 % Emergency FW Flow A 0 00 GPM B C 00 GPM Al- F1 l l l l 1 l
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF. Clock Time = 2125 hours Scenario Time To 355 or 5.0 Hours 055 Minutes L REACTIVITY CONTROL NeutroriFlux 7 297 CPS -11 AMPS 0 04 % Boron Conc. 36 PPM Generated Megawatts 0 (Ni 1) (NI-3) (NI-5) CRO Position 0 0 0 0 0 0 0 30 % Withdrawn (Gp 1) (GP 7 (Gp 3) (Gp 4) (Go 5) Go6 (Go 7 (Go 8) IL COOUNG gg) SECONDARY Loop B LOOP A LOOPB Loop A 0T80 Lowl(WR) 930 39 h:hes 33 70 inches Th (WR) 392 58 Y 394 70 4 OTSG Level (OP) 100 00 % 3 80 % Tc (WR) 393 01 T 393 37 V OTSG Pressure 481 OS PSIG 173 75 PSG RC Flow 0 00 E6 mwnert 37 87 E6 pxwhrt Feed Flow (tbmmt) 0 00 E6 0 60 E6 RC Pressure 450 6 PSIG TutMnell Delta T 14 46 V 19 29 4 Pressurtzer Level 259 3 inches Condensate Tank Level 11 19 Ft 11 35 Ft RCP Operation RC P 1A RC.P-1B RC P1C RC.P-1 OFF OFF OFF ON Turtune Bypass Velve Posmon 0 00 % J010% Pressunrer Heaters (Operable 7) YES Condenser Pressure 29 92 inches H2 (Absolute) incore seu 67 to w Avg 6Hghestlncore 39194 Y CONTAINMENT RCS Makeup Flow 0 GPM . Purge Vahe A Closed B Closed C Closed D Closed RCS Letdczn Flow 65 GPM RB Pressure 14 42 PSIA Temperature 107 71 T atake Up Tank Level 82 7 inches RB Water Sump C 00 inches Floor 0 00 inches RB Hydrogen 0 % SAFETY SYSTEMS RB FANS AHE1A Fast AHEiB Fast AHE1C Fast A 00 B 00 C 00 D 00 R8 Spray Flow Loop A 0 00 GPM Loop 8 0 00 GPM HPI Flow (GP BWST Level 61 94 FL . LPt Flow A 0 00 GPM 8' 0 00 GPM RAD WASTE Core Flood Level A 1182 Ft 8 1162 Ft Mac. Wasie 6 90 Ft Core Flood Pressure A 604 34 PSIG B 604 34 PSG auk Bldg. Sump 80 33 % Emergency FW Pbw A 0 00 CPM S 0 00 GPM A1- 72 l f
Operational Data Drill 9904 This is BACKUP data for the ECC, TSC and EOF, Clock Time e 2130 hours Scenado Time T. 360 or 6.0 Hours O Minutes
- 1. REACTMTY CONTROL Neutron Flux 7 297 CPS 11 AMPS 0 04 % Boron Conc 36 PPM Generated Megawatts 0 (NI 1) (NI-3) (NI-5)
CRO Positai 0 0 0 0 0 0 0 30 % Wahdrawn (Gp 1) (Gp 2) . , . .(Go
. . ,3)- . . ~ _ (Gp 4) _ - - - (Go 5) (Op 6) (Go 7) (Go 8)
._ = , , ._n.... _.:- m II. COOLING EER SECONDARJ LOOP A LOOPB Loop A Loop B
'0T80 Level (WR) 530 70 inches 115 52 Inches Th (WR) 390 44 Y 38914 V OTSO Level (OP) 100 00 % 18 12 %
Tc (WR) 386 69 Y 386 29 Y OTSO Pressure 453 65 PSIG 165 30 PSIG RC Flow 0 00 E6 (swWhr) 37 98 E6 4twWhrl
, Feed Flow (ibm /hr) 0 00 E6 0 66 E6 RC Pressure 467 9 PSIG Tube 4 hen Delta T 8 21 V 48 12 V Pressuruer Lowei 237 6 inches Condensate Tank Level 11 08 Ft 11 23 FL RCP Operaten RC-P 1A RC P 18 RC.P 1C RCA1 OFF OFF OFF ON TurtHne Bypass Valve Posluon 0 00 % 100 00 %
Pressuruer Hesters (Operable 7) YES Condenser Pressure 29 92 inches Hg (Absolute)
. . < o -PM lacote SCM _801_0 V . -
Avg 6 Hghest incore 383 06 Y CONTAINMENT RCS Makeup Flow 0 OPM Purge Valve A Closed S Closed C Closed D Closed RCS Letomwn Flow 0 GPM RS Pressure 14 42 PSIA Temperature 107 69 Y Make Up Tank Lowei 76 8 inches R8 Water Sump 0 00 inches Floor 0 00 inr.hes _=:::-maemmni.mx a:mmn.mwn:negu mgxxx.va> xm- R8 Hydrogen 0 % SAFErTY SYSTEMS R8 FANS AHE1A Fast AHE18 Fast AME1C Fast HPI Flow (GP A 00 8 00 C 00 0 00 R8 Spray Flow Loop A 0 00 GPM Loop B 0 00 GPM SWST Leel 5t 64 Ft M, LPI Flow A 0 00 GPM B 0 00 GPM RAD WASTE Core Flood Level A 1162 Ft B 1162 Ft 'Mac Waste 6 90 Ft Core Flood Pressure A 604 33 PSIO 8 604 33 PSIG ' Aux. Bidg Sump 80 33 % Emergency FW Flow A 0 00 OPM S 0 00 GPM A143 l l I l
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