ML040640736

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Calculation Cover Sheet, Calculation 02-E-0004-02, Rev. 0, Zone 98-J PSA Analysis for Operator Action SDP
ML040640736
Person / Time
Site: Arkansas Nuclear Entergy icon.png
Issue date: 03/14/2002
From: Fouts D, Lloyd M, Jacqwan Walker
Entergy Operations
To:
NRC Region 4
References
CR-ANO-1-2001-0723 CA 8, FOIA/PA-2003-0358 02-E-0004-02, Rev 0
Download: ML040640736 (95)


Text

ARKANSAS NUCLEAR ONE Page 4 E-DOCTITLE: . E-DOC NO. CHANGE NO.

CALCULATION COVER AND REVISION SHEET 5010.015-ArT-2 002-00-0 ARKANSAS NUCLEAR ONE -

CALCULATION COVER SHEET l Calc. No.:02-E-0004-02 Rev. No.: 0 CaIc. TItle: Zone 98-J PSA Analysis for Operator Unit: I Category: Non-Q Action SDP System(s):

CaIc. Type: NS Components: Topic(s): PRAS Comp Tag Suffix Comp Code Pit Area: Bldg. Elev.

N/A Room Wall Coordinates:

Config. Checklist (per 5010.004) completed? Y 0 N E Document Comment/Resolution Form completed? Y El N [

Abstract (Included Purpose/Results): This calculation provides the PSA Conditional Core Damage Probabilities for a fire in Zone 98-J. These values can be combined with the fire frequency values to determine the delta risk for the SDP evaluation.

Pages Revised and/or Added: All 1 -92 1 Purpose of Revision: initial submittal Initiating Document Resulting Document Key Design Input Document CR-ANO-1-2001-0723 CA 8 See Reference Section Verification Method: Design Review x Alternate Calculation _Qualification Testing Amends Calc(s):

Supersedes Calc(s) / CRN (s):

Computer Software Used: PRAQuant 3.3bx, ORecover 1.5x Preparer: Jessica Walker X / 3114/02 Reviewer: Michael Lloyd / al I .- /14 -O.-0a_

Vendor N/A ( I Approver J'~& We..I U).- ous P5 / 3- I-40 Reviewer:

V fldor Prepared (Print Name) (Initials) (Date) (Print Name) (Initials) (Date)

Calculaton Only Check if Additional Revisions: [3

ARKANSAS NUCLEAR ONE Page 1 E-DOC TITLE: E-DOC NO. CHANGE NO. I CONFIGURATION CHECKUST 5010.004-A 006-00-0 This Document Contains I Page(s) ak- eZ ,&a ' &dO Note:

The Configuration Checklist may pot be used instead of a 50.59 Review when a 50.59 Review is required by NMM U-101 or other governing procedures related to the affected documents.

Complete this form in accordance with the instructions provided in Procedure 5010.004, Attachment 3. For additional information, follow the 'Configuration Checklist link provided on EntergyNET's ANO Engineering home page.

PECTED?2 i L iIN S IiDlSW smoX r&BASISFOR CONC SION-CO OYes' gNo Any of the following: Evaluation of PSA results for fire SDP Issue has no

  • Technical Specifications impact on licensing basis.
  • Operating License
  • Confirmatory Orders
  • Safety Analysis Report I SAR Figures
  • Core Operating Umits Report
  • Fire Hazards Analysis
  • Tech Spec Bases
  • Technical Requirements Manual
  • NRC Safety Evaluation Reports
  • Ventilated Storage Cask Ucensing Documents
  • Quality Assurance Program Manual

'If "Yes," a 10CFR5O.59 Determination is required In accordance with NMM LI-101.

II "No." the basis for this conclusion must be documented (e.g.. LRS search criteria, LBD sectionslfigures reviewed. etc.)

AFi-ECTE0? il.n ri.:JiF,11

'4.iD SGOER.'iw

'-Il Nj'f;;THP > .:eDISPOSMION{I aE1`&Wi if ts;iiiiji:;"

[]Yes SNo Drawings/DRNsIDTS Database QYes 0DNo Component Database 0Yes SNo Vendor Tech Manuals I VTM Database

[Yes 0No Upper Level Documents (ULDs) jYes ONo Calculations I Code Stress Reports OYes ZNo Specifications OYes ONo Engineering Reports DYes ONo EQ Documentation OYes 0No Piping Class Summary DYes ONo Fire Barrier Penetration Log DYes ONo Cable, Raceway or Equipment Numbers (PDMS) 0Yes SNo ER Responses I Mods (in-progress only)

OYes CgNo Procedures

[Yes SNo Engineering Standards OYes ONo Component Labels 0Yes ONo Fuse Lists _

OYes SNo Repetitive Task Database (Yes SNo Preventive Maintenance Engineering Evaluations and Tasks

[Yes ONo Simulator DYes E0No Training I System Training Manuals (STMs)

OYes [gNo MMIS OYes [2No Engineering Programs

[Yes [DNo Lubrication Manual Completed By. Date: j_/_l_-

6'-

Zone 98-J PSA Analysis for Operator Action SDP Table of Contents Purpose ......... 2 2:.:

References .2 Assumptions .........  ;-2 Analysis .4 Results .7 Electronic Files .8 .9 .20 . 31 .42 .52 .......  ; 65 ........  : 72 .78 .85 0 .86 I.87 2 .88 3 .89 4 .91 Prepared By: Jessica Walker Initials. Date: 3 -/9O6a Reviewed By: Michael Lloyd Initials . Date: 3-/f-oi.

Prepared by J. M. Walker Page I Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

Purvose:

The purpose of this write up is to document the calculation of the conditional core damage probability (CCDP) for the ANO-1 model given a fire in zone 98-J.

The CCDP can then be used in combination with the fire ignition frequency to provide a total CDF for a fire in zone 98-J.

The secondary purpose of this write up is to provide the NRC review staff with the information they requested to perform their phase 3 of the Significance Determination Process (SDP)

(Reference 3).

The NRC has requested the following CCDP values for zone 98-J:

1. The CCDP with current assumed cable failures given NO operator action
2. The CCDP with red cables wrapped given NO operator action

References:

1. ANO Calculation 95-E-0066-02,Rev. 1, "ANO-l IPEEE Fire P2 Values".
2. ANO Calculation 98-E-0039-04,Rev. 0, "ANO-1 HUMAN RELIABILITY ANALYSIS WORK PACKAGE FOR THE ANOI PSA MODEL REVISION 2":
3. ANO Condition Report: CR-ANO-1-2001-0723 Corrective Action 8.

Assumptions:

1. The ANO-1 IPEEE fire model was used for this evaluation. This model was taken from Reference 1. All quantification files used in the present analysis were either taken directly from or based on files from Ref. I (e.g., MUTEXC. was converted to MUTEXC.txt). The method of quantification used in the IPEEE fire evaluation was adhered to for this evaluation. It is important to note that this method does vary from the current PSA practices seen in the base PSA model. For example: the fire model has HRA values directly in the fault tree with their nominal values. The fire model also conservatively takes no credit for the station blackout diesel. The only deviation from the IPEEE fire method was the truncation value. The new technology will allow truncation at IE-09 instead of the previous value of IE-07. The lower truncation was used to ensure greater completeness of the cutset results.
2. The fire protection engineers provided the failures in the zone listed in Attachment 1-3. For most valves and breakers, no attempt was made to establish failure mode. Rather, all components listed by fire protection were failed in all of their failure modes unless specifically stated otherwise in the fire protection component listing.
3. Based on Reference 1, the main feedwater system was assumed to fail as a result of a fire in zone 98-3. However, the PSA model requires an operator action to prevent overfill by main feedwater. Since the main feedwater system is assumed to fail, this failure mode was eliminated from the PSA model for fire zone 98-J. This was accomplished by setting the following events to FALSE: EXCESSMFWA, EXCESSMFWB, XSMFWTOA, XSMFWTOB, and SGOFREC.

Prepared by J.M.Walker Page 2 Calc 02-E.0004-02, Rev. 0 Reviewed by M.Lloyd

4. An operator action is placed in the model to manually stop overfill of the steam generators due to EFW. The recovery only appears with the P-7A pump. Since the P-7A pump will ONLY be operated and controlled with a local manual action, the operator action includes the requirement to prevent overfill and a secondary recovery is unnecessary. This was accomplished by setting the event SGOFREC2 to FALSE.
5. The EFW system has solenoid control valves that are normally open and are energized to close valves. Cables for the P-7B side control valves (CV-2646 and CV-2648) and the P-7A (CV-2645 and CV-2647) pass through zone 98-1. Based on the cables going through the zone, the fire could cause the either of the cables to short and cause it associated valve to go closed. The probability of this hotshort is considered higher than a typical hotshort probability for MOVs (6.8E-02, based on NUREG/CR-2258). A value of 0.25 has been used in this evaluation based on Attachment 12.
6. The NRC has requested an evaluation assuming green train cables are wrapped. However, the zone in question contains green train equipment. Since wrapping the green train cable would not protect the actual components in the zone, the components in the zone are considered failed when the green train equipment is wrapped. Therefore, the value for the green train wrapped would be equivalent to the value of the baseline case and is not calculated separately.
7. It is assumed that the NRC request for.the CCDP without operator action refers to operator action OUTSIDE of the control room. This assumption is based on the fact that the available staff for ex-control room action will be diminished due to the fire brigade manpower requirements. Therefore, only operator actions outside of the control room will be set to TRUE in the no operator action analyses.
8. Room 98-J is a long corridor. The fire sources are separated on the two sides of the room.

Fire protection engineering has divided the room into three scenarios for their analysis (98.3 East, 8-J West-i, and 8-3 West-2). Each scenario has specific equipment and cables that are unaffected by a fire in that area. Attachments I - 3 are the specific lists for the 3 scenarios.

The CCDP was calculated for each scenario.

9. Room 98-J contains a suppression system. Fire protection engineering has determined that multiple cables would be spared damage when the suppression system actuates; however the suppression system is assumed to have a failure rate of 0.05. This analysis takes credit for the suppression system where possible by using the Qrecover computer program to add a 0.05 factor to the failures associated with the cables mentioned above.
10. Attachment 13 discusses the recoveries used in the analysis. All operator actions were reviewed against the previous IPEEE analysis. QP7BMANREC was not credited in the original analysis because P7B was assumed to fail due to the fire. Fire protection engineering has determined the cables in 98-3 do not effect the operation of P-7B. Therefore, QP7BMANREC has been used in this analysis. MANEFWSTRT was also not used in the original analysis (i.e., it did not occur in the Ref. 1 98-J cutset file) because the control power for CV-2626 and CV-2670 is located in the zone. However, for the east end fire scenario, these cables would be undamaged and the in-control room recovery would work appropriately. The newly created QHFPWRSHT was also created in this analysis (see analysis section) and not used in the previous calculation. XHFIMEDXXX (OPERATOR FAILS TO BEGIN HPR FOLLOWING M-LOCA) was also not credited in the original analysis but this in control room action is not affected by the fire and can be used in this analysis.

Prepared by J.M.Walker Page 3 Calc 02-E-0004-02, Rev. 0 Reviewed by M.Lloyd

I1. Valves CV-1433 and CV-1432 are normally closed valves in the Decay Heat System. The PSA model needs these valves to remain closed. Based on discussions with system engineering and review of the system training manual, these valves would remain closed on loss of air and power. Therefore they were removed from the failure list provided from fire-protection as well as their associated solenoid valves (SV-1432 and SV-1433).

Analysis:

Fire. Protection provided lists of components either in 98-J or with cables in 98-J which are affected in each of three fire scenarios: 98-J East, 98-J West-1, and 98-J West-2.. These lists are provided as Attachments I - 3. Each attachment shows the components separated into 6 categories.

  • Blue - fire modeling has shown the cable will not be affected by a fire so the component does not need to be failed even though it has a cable in the zone.
  • Black - This component will fail regardless of which conduits are wrapped.
  • Red - These components are considered protected when the red train cables are wrapped in the zone
  • Green - These components are considered protected when the green train cables are wrapped in the zone.
  • Orange - These are swing components. They typically have redundant power supply or control cables and are considered protected with either red or green train wrapped cables.
  • Magenta - These are red train cables that would survive the fire assuming the suppression system activated appropriately.

Consistent with the NRC request specified in the Purpose, two cases will be evaluated:

1. All current failures: components coded Black, Red, Green and Orange will be failed
2. Red train wrapped: components coded Black and Green will be failed Once these two lists of components were created, the associated lists of basic events were created. The mapping file from Reference 1 (betagal.dbf) was used to create the list of basic events affected by a fire in zone 98-J. This mapping file relates a component with every basic event it affects in the model. Since the fire fault tree model also contains module events and since their constituent basic events have been pruned from the model, these module events are also listed in the mapping file.

A review of this information revealed that five fire scenarios must be evaluated:

I. a 98-J East fire scenario with red raceways not wrapped case,

2. a 98-J East fire scenario with red raceways wrapped case,
3. a 98-J West-] fire scenario with red raceways not wrapped case,
4. a 98-J West-2 fire scenario with red raceways not wrapped case, and
5. a 98-3 West-2 fire scenario with red raceways wrapped case.

Since the 98-J West-] scenario does not affect red cables or red equipment, there was no need to evaluate a 984J West-I scenario with red raceways wrapped.

Prepared by J. M.Walker Page 4 Calc 02-E0004-02, Rev. 0 Reviewed by M.Lloyd

Using the Ref. I fault tree model as a starting point, a unique fault tree was created for each fire scenario: 98-] East, 98-J West-i, and 98-J West-2. The not wrapped and wrapped cases of a given scenario used the same fault tree model. The basic events were manipulated to account for the effect of the fire wrapping. Attachments 4 through 8 list the basic events (including module events) which will be set to TRUE in the fault tree model for each of the above scenario cases.

Attachments 9 - 11 describe the changes made to the Ref I fault tree model to create the 98-J East, 98-J West-I, and 98-J West-2 models.

  • Prior to using them, each of the mapping files were reviewed for appropriateness. The following errors in the Reference I tag file were found as part of this process. The following maps were removed from Attachment 4 - 8 lists of affected events for the reason given below.
  • DMMIYIIIAC to B5141B, because breaker B5141B is actually a spare breaker with no function
  • SMV13641XK to CV3641, because CV-3641 has been changed to a manual valve
  • QMMIP7BTRF to CV2869, because valve CV-2888 is in the recirculation path for P-7B and failure of CV-2869 alone would not cause flow diversion and fail the pump.
  • QMM1P7ATRF to CV2870, because valve CV-2888 is in the recirculation path for P-7A and failure of CV-2870 alone would not cause flow diversion and fail the pump.
  • QCB 15231IR was set to B311 which does not exist. The basic event should have been set to A3 11 which is the correct breaker. Since A311 was identified by fire protection as a Blue cable (i.e., cable will not be affected by a fire) in all 98-J scenarios, QCB152311R was not affected by a fire.

For each scenario, a set of equivalence gates was created using the basic events in each basic event list. In this process, each basic event was set equal to ".T." in an equivalence gate. Events that could be saved by the suppression system and could create a success path if not trued were set to "SUP". (Note: some modules had failed events and events that were saved by the suppression system. -These modules were appropriately set to ".T.")

Each set of equivalence gates was then input into the Reference I ANO-I fire fault tree model to create 5 versions of the fault tree model. These models are then reviewed for possible recoveries or problems with the failed events. The various models required different model changes due to the difference in failed equipment. The changes as a whole are discussed below; Attachments 9 through 11 provide the detailed documentation of changes in each model.

For zone 98-4, many model changes had to be made to account for the number of hotshorts assumed in the fire analysis. CV-2800, CV-2670 and CV-2626 were assumed to fail due to a hotshort. New events were created for each of these events and then "OR"ed with the appropriate module. Since CV-2800, CV-2670 and CV-2626 are MOVs they will fail with the hotshort probability of 6.8E-2 as discussed in Assumption 5. CV-2645 and CV-2647 are the P-7A control valves that hotshort closed as discussed in Assumption 5. These valves are unrecoverable via manual operation of these valves, so a new event was placed above the P7AMANREC recovery to account for these hotshorts. Finally, CV-2646 and CV-2648 are the P7-B control valve that hotshorts closed and a separate event was created for it in the P-7B logic.

However the pre-fire plan calls for operations staff to deenergize CV-2646 and CV-2648 as part Prepared by J. M.Walker Page S Calc 02-E-W0004-02, Rev. 0 Reviewed by M.Lloyd

of the procedure following a fire in zone 98-J. Operator interviews were performed so that an operator recovery could be created using the format found in reference 2. Operations Procedure OP-I 106.006 rev 062-03-0 provides discussion of these valves and instructs the operations staff on which panel provides the capability to de-energize and open the valves. The pre-fire plan for zone 98-J directs the operators to deenergize these valves as part of the actions needed for a fire in this zone. A printout of the HRA spreadsheet output for QHFPWRSHT is provided in 4. The recovery QHFPWRSHT was given a value of 1.36E-1 (see Attachment 14) and "AND"ed with the hotshort probability for CV-2646 or CV2648 depending on the generator path. NOTE: That in making the above changes certain ".T." events were removed from the basic events representing the valve failures, because the failure causing them to be trued was the newly modeled hot short.

Once these changes were made, all remaining ".T." events were set to TRUE and each of the three trees were compressed. The PRAQuant software was then used to quantify the TOP gate in each scenario model at a truncation of IE-9. The Qrecover program was also utilized as discussed in Assumption 9 to account for the suppression system. The resulting cutsets then went through a short set of manipulations before the final answer was reached. The mutually exclusive file was then DELTermed from each of these cutsets. Then, all of the events discussed in Assumptions 3 and 4 were set to FALSE (i.e., EXCESSMFWA, EXCESSMFWB, XSMFWTOA, XSMFWTOB, SGOFREC, SGOFREC2). Finally, the recoveries not utilized in this analysis, which had been given values of 1 in the basic event file, were "TRUED" and the cutsets were subsumed.

The process followed was similar for all 4 models discussed above.

To generate the CCDP without credit for ex-Control Room operator recoveries, the recovery events listed in Attachment 13 were given a value of I in a new basic event file (98Jnrc.be). The fault trees were requantified using the NRC basic event file. Then these recoveries were set to TRUE in the cutsets and the.cutsets were subsumed. This process helped to ensure all valid cutsets were obtained with no ex-control room operator action.

Prepared by J. M.Walker Page 6 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Results:

The following table shows the final results from the analysis of zone 98-J and the associated cutset file.

Zone 98-J- EAST Fire CCDP w no recoveries ANO CCDP value with applied EFW recoveries applied ALL Current Failures 1.13E-2 2.18E-4 RED train protected 8.1 OE-3 1.97E-4 Zone 98-J- WEST I Fire CCDP w no recoveries ANO CCDP value with applied EFW recoveries applied ALL Current Failures 5.38E-04 1.39E-04 RED train protected 5.38E-04 1.39E-04 Zone 98-J- WEST 2 Fire CCDP w no recoveries ANO CCDP value with applied EFW recoveries applied ALL Current Failures 2.49E-03 1.85E-04 RED train protected 5.38E-04 i.26E-04 Prepared by J. M. Walker Page 7 Calc 02-E-0004-02. Rev. 0 Reviewed by M. Lloyd

Electronic Files:

The following files arc included with this document. They arc contained with this write up in a Winzip file called 98JSDP.zip.

= 4 g _

S8Jsdp.Zlp 3/1U402 Zip File containing the following 98J.QNT 5,051 3J13/02 05:2 9 p Ouantificatlon Fie 98JFIRE.BE 531,456 3/13/02 07:20a BE file created for Zone 98.J 02 28 98JFIRE.GT 1,111.040 3112102 . p GT file created for Zone 98-J 98JFIRE.TC 108,544 12120/95 06:34p TC file created for Zone 98-J S8JNRC.BE 531.456 3/13/02 07:21a BE file created for NRC no operator action evaluation 98JNRC.GT 1,111,040 2128102 10:52a GT file created for NRC no operator action evaluation 98JNRC.TC 108.544 12120/95 06: 3 4p TC file created for NRC no operator action evaluation 98rec.txt 145 3/14102 10:09a Recover file used with Orecover program Calc02-E-0004- 3/14/02 Calculation document 02R0 CommentSheet.doc 53.760 3114/02 09:41 a Calculation Comment Sheet DATABASEZIP 272,273 1 1/7101 03 :2 5p Zipped Database files from Refl DELTERM.CUT 350 1119/01 10:00a Deflerm file created from Ref 1.

E98JRED.CUT 868,426 3/13/02 04:12p Red Wrapped East cutset file ECOMP.xls 68,096 3/12102 02:55p Excel file with SuperC comparison of model changes for East side model EREDC.CAF 65.973 3/7/02 0S:4 8p East side red wrapped cafta file - with trues and falses compressed EREDNRC.CUT 2,363,306 3/13102 0 4 :2 2 p Red Wrapped East cutset filewith NRC operator action values ESTART.CAF 128,585 3/12102 02: 3 0p East side baseline cafta fault tree 3 1 ESTARTC.CAF 64.917 1 210 2 0 2 : 3 1p East side baseline cafta fault tree with trues and falses compressed ESTARTR.CAF 128,241 317/02 05:47p East side red wrapped cafta file E-all.cut 1,216,038 3f1 3/02 0 4 :1Op Baseline East cutset file E-nrc.cut 4,070,214 3/13/02 0 4 :1 9 p Baseline East cutset file with NRC operator action values MODELZIP 265,707 11/7/01 03:25p Zipped Model Files from ref 1 MUTEXC.txt 7,794 2/26/02 01:22p Text file of Mutually Exclusive used for PRAQuant QHFPWROFF.XLS 33,792 2111/02 04:05p QHFPWRSHT human recovery spreadsheet.

Wi COMP.xis 48,640 3/8/02 02 :3 4p Excel file with SuperC comparison of model changes for West 1 side model W1NRC.CUT 1,396,054 3/13102 0 4 :13 p West 1 cutset file with NRC operator action values W2ALLCUT 464,038 3/13/02 0 4:08p West 2 baseline cutset file W2ALLNRC.CUT 1,175,894 3/13102 04:14p West 2 baseline cutset tile with NRC operator action values W2comp.xis 39,424 3/8102 03 :03p Excel file with SuperC comparison of model changes for West 2 side model W2RED.CUT 436,386 313102 04:09p West 2 red wrapped cutset file W2REDNRC.CUT 1,112,054 3/13/02 04:15p West 2 red wrapped cutset file with NRC operator action values W2ALL.CAF 127,409 318/02 1 2: 2 5p West 2 baseline cafta fault tree W2_ALLC.CAF 72,881 3/8/02 12: 2 6p West 2 baseline calta fault tree - with trues and falses compressed W2 RED.CAF 127,393 318/02 12:32p West 2 red wrapped calta fault tree W2_REDC.CAF 73.429 381B02 12 :3 2p West 2 red wrapped calta fault tree - with trues and falses compressed WALL.CUT 570.634 3/13102 04:07p West 1 cutset file WSTART.CAF 127,441 317102 06:23p West I fault tree file WSTARTC.CAF 73.477 3/7/02 0 6 :2 4 p West I fault tree file with trues and falses compressed Prepared by J.M.Walker Page 8 Calc 02-E.0004-02, Rev. 0 Revicved by M.Lloyd

Attachment 1 East Scenario List of Components Categorized as Provided by Fire Protection The first column has been added to show the color of the cotnponent on a black and white print out This colum was not provided by fire protection EQUIPTAG Cables in Data Source Zone _

Blue Al Y Cables' Blue A102 Y Cables Blue A1 03 N Blue A1 05 N Blue A1 06 N Black A108 U _

Blue A109 N Cables Blue AllO N _

Blue AMll Y Cables Blue A112 Y Cables Blue A113 N Cables Blue A2 N Cables' Blue A202 Y Cables' Blue A203 N Blue A205 N Black A206 U Black A208 U Blue A209 N Cables Blue A210 N Blue A211 Y Cables Blue A212 Y Cables Blue A213 N Cables Blue A3 Y App R Blue A301 N App R Blue A302 Y App R Blue A305 Y App R Blue A306 Y App R Blue A307 Y App R Blue A308 Y App R Blue A309 N App R Blue A311 Y App R Blue A4 N _

Green A401 Y App R Green A403 Y App R Blue A405 Y App R Blue A406 Y App R Green A408 Y App R Blue A409 Y App R Orange A601 Y Cables Red A802 Y AppR Blue 80125 U Blue B1 N Prepared by J.M. Walker Pagc 9 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

Blue B11 N Cables Blue B112 N Blue B1145 N Blue 812 N Cables Blue B1205 U Blue B121 N Blue B1212 U Blue B1215 U Blue B1218 U Black B1232 U Black 81233 U Blue B1264 N _

Blue B131 N Blue B2 Y Blue B21 N Cables Blue B212 N Black B2145 Y Blue B22 N Cables Blue B221 N _

Blue 82214 N Cables Blue 8222 N Cables Black B2232 U Black B2233 U Blue B231 N Blue B25 N Cables Black B2553 Y Blue 83 N Black B311 U WMS Blue B312 N Blue B32 N Cables Blue B3213A N POMS Blue B3213B N PDMS Blue B322 N Blue B3255 N Blue 83256 N Blue B4 N Blue B412. N Blue 842 N Cables Blue B4213A N PDMS Blue B4213B N Blue 8422 N Blue 85 Y App R Blue B51 N AppR Blue 851105 N .

Blue 851112 N Blue B5114 N Blue B512 Y AppR Blue B5122 N Prepared by J. M. Walker Page 10 Calc 02-E-0004402, Rev. 0 Reviewed by M. Lloyd

Blue B5123 N App R Magenta B5124 Y App R Blue B5141A N App R Blue B5143 U Blue B5143A N Blue B5143B N _

Blue B5151 N Blue B5152 N l-Blue B5161 N Blue B5164 N Blue B5181 N Blue B5182 N Blue B52 N_ AppR Blue B521 N App R Blue B5213 N Blue B5214 N Blue B522 N App R Blue B5222 N Blue B523 N Blue B5231 Y Blue B5244 N Black B5254A Y Black B5254B .Y Blue B53 N Cables Blue B5311 N Blue B532 N App R Blue B533 N Blue B5334 N Blue B55 N App R Blue B56 N App R Black B5622B U Blue 85652 N Blue B5653 Y Blue B5731 N linked Blue B6 Y App R Blue 661 N App R Blue 861103 Y Black B61105 Y Blue B6114 N Blue B612 Y App R Green B6121A Y App R Green B6121B Y App R Green B6122 Y Green B6123 Y Green B6124 Y Blue B614 N Cables Green B6142 Y linked

  • Prepared by J. M. Walker Page I I Calc 02-E-004-02, Rev. 0 Reviewed by M. Lloyd

Blue B6143A N l_ l Blue B6143B N ___

Green B6151 Y Green B6152 Y Green 8B6164 Y linked Green 86166 Y linked Black B6182 Y Green 66183 Y linked Black B6194 Y linked Blue B62 N App R Blue B621 N App R Blue B6213 N Blue 86214 N Blue B622 N App R Black B6222 y Black B623 Y Cables Green B6231 Y Black B6252 Y Black B6254A Y Black B6254B y Blue B63 N Cables Black B633 Y Cables Blue B6331 N Blue 86532 N linked Blue C186 N Green C187 Y Cables Blue C20 N_

Blue C28A N Blue C28B N . -

Blue C2A N Access Black C2B Y Access Blue C30 N . -

Blue C3A N Black C3B Y Blue C46 N _

Blue C47 N . -

Blue CB6 N Blue C87 N Blue C88 N Blue C89 N Blue C90. N Blue C91 N Blue C92 N Green CVI000 Y App R Black CV1206 Y Cables Blue CV1219 N App R Blue CV1220 N App R -

Green CV1227 Y App R Prepared by J. M. Walker Page 12 Calc 02-E-0004 -02, Rev. 0 Reviewed by M. Lloyd

Green CV1228 Y App R Blue CV1275 N PDMS Blue CV1276 N App R Blue CV1277 N App R Blue CV1278 N App R Blue N

.CV279 AppR Blue CV1284 N App R Blue CV1285 N App R Black CV1300 Y PDMS Blue CV1301 N PDMS Blue CV1405 N App R Blue CV1406 Y App R Blue CV1407 N App R Blue CV1408 Y App R Blue CV1414 N Black CV1415 Y Cables Blue CV1428 N App R Blue CV1429 N App R Blue CV1432 N App R Blue CV1433 N App R Blue CV1436 N App R Blue CV1437 Y App R Black CV2228 Y POMS Black CV2241 U Green CV2613 rY App R Blue CV2617 Y App R Blue CV2618 Y Magenta CV2620 Y App R Black CV2624 Y Cables Black CV2625 Y Cables Blue CV2626 Y App R Magenta CV2627 Y App A Green CV2630 Y App R Blue CV2645 Y App R Magenta CV2646 Y_ App R Blue CV2647 Y App R Magenta CV2648 Y App R Magenta CV2663 Y App R Magenta CV2667 Y App R Magenta CV2668 Y App R Blue CV2670 Y App R Black CV2674 Y Cables Black CV2675 Y Cables Magenta CV2680 Y App R Magenta CV2800 Y App R Blt CY2802 Y App R Magenta CV2803 Y App A Blue CV2806 Y App R Prepared by J. M. WaLker Page 13 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Black CV2827 Y Cables Blue CV3617 N Blue CV3621 N Blue CV3625 N Blue CV3629 N Blug CV3640 N App R Blue CV3642 Y App R Blue CV3643 Y App R Blue CV3644 Y App R Blue CV3645 N_

Blue CV3646 N App R Blum CV3806 Y App R Green CV3807 Y App R Black CV3811 Y Cables Blue CV3812 N AppR Black CV3813 Y PDMS Blue CV3820 N Cables Groen CV3821 Y App R Blue CV3822 N App R Blue CV3840 N App R Green CV3841 Y App R Magenta CV3850 Y App R Green CV3851 Y AppR Blue CV5403A N Blue CV5420 N See SV5420 Black CV5422 Y See SV5422 Blue CV6227 u Valve has

__ been deleted Blue CV7470 N _

Blue CV7471 N Black CV7472 Y Cables Black CV7473 Y Cables Blue DO1 N App R Blue D0112 N App R Blue DOi21A N Blue D0122A N App R Blue D0122B N _

Blue D0123 N App R Blue D01 52A N App R Green D02 y App R Green D0212 Y App Green D0221A Y Green D0222A Y App R Green DO223 Y App R Green D0242A Y App R Blue 003 N App R Green D04 y App R Prepared by J. M. Walker Page 14 Calc 02-E-0004-02, Rev. 0 Revicwed by M. Lloyd

Black 005 Green 006 Y App R Blue 007 Y Cables Blue D11 N Blue D1101 Y Blue D1103 Y Blue D1104 Y App R Blue D1114 N App R Blue D1120 Y PDMS Blue D1124 Y POMS Blue DIS N App R Green D21 Y App R Black D2101 Y Black D2103 Y Green D2104 Y App R Green D2114 Y App R Green D25 Y App R Black EIP2622 Y Access Black E/P2623 Y Access Black E/P2672 Y Access Black E/P2673 Y Access Black Hi Y Access Black H13 Y Cables Blue H14 N Cables Blue HI5 N Cables Blue H2 N Blue H23 N Cables Blue H24 N Cables Blue H25 N Cables Blue IABO0A N Blue IA806B N____

Blue K2A N Access Blue K2B N Access Blue K4A Y App R Green K48 Y App R Black LT2613 Y App R Blue LT2617 Y Cables Blue LT2618 N App R Blue LT2620 N App R Blue LT2621 N Blue LT2622 Y App R Breen LT2624 Y App R Black LT2653 Y PDMS Blue LT2667 N App R Blue LT2668 Y Cables Blue LT2669 N App R Green LT2671 Y AppR Prepared by J. M. Walker Page 15 Calc 02-E-0004-02, Rev. 0 Revicwcd by M. Lloyd

Blue LT2672 N Green LT2673 Y App R Blue Pl6A N App R Blue P16B N AppR Blue P2A N Access Blue P2B N Access Blue P2C N Access Blue P33A N Access Blue P33B N Access Blue P33C N Access Blue P34A N App R Blue P34B Y App R Blue P36A Y App R Blue P36B Y App R Blue P36C Y App R Blua P3A N Access Blue P3B N Access Blue P3C N Access Blue P3D N Access Blue P4A Y App R Blue P4B Y App R Blue P4C Y App R Blue P75 Y Access Green P7A Y App R Blue P7B Y App R Black PDIS2228 Y Cables Black PDT2700 Y Cables Black JPDT2701l Cables Black PS2229 U Blue PS2230 N Blue PS2829 N Access Blue PS2830 N Blue PS2837 N Access Blue PS2842 N Blue PS2898 N Blue PS5408 N Blue PS5430 N Black PS5432 r Cables Blue PS5434 N blacK PS5436 r Cables BIY PSV541 8 IN jMechanicalVel Mack PT1 020 Y Cables Green PT1022 Y App R Blue PT1040 Y Access Blue PT2405 [ ICables Blue PT2406 Y Cables Prepared by J. M. Walker Page 16 Calc 02-E-0004-02, Rev. 0 Revicwcd by M. Lloyd

Blue PT2407 Y Cables Blue PT2617A Y Cables Blue PT2617B N Blue PT2618A N App R Green PT2618B Y App R Blue PT2633 Y Cables Green PT2667B Y App R Blue PT2668A Y Cables Blue PT2668B N Blue PT2683 Y Cables Blue RAI N App R Green RA2 Y App R Blue RSI Y App R Blue RS102 N PDMS Blue RS104 N POMS Blue RSI12 N _

Green RS2 Y App R Blue RS202 N PDMS Blue RS204 N PDMS Blue RS3 Y App-R Green RS4 Y App R Blue SG1 N App R Blue SG2 N App R Blue SG3 N App R Blue SG4 N App R Black SVO611 U Black SV0621 U Black SVO711 U Black SVO721 U Black SV1432 Y_ PDMS Magenta SVY433 Y PDMS Black SV2228 _

Black SV2229 Y Cables Blue SV2238 N Cables Blue SV2240 N Cables Black SV2250 Y Cables Blue SV2251 N Black SV2252 Y Cables Blue SV2253 N Black SV2254 Y Cables Blue SV2255 N Blue SV2645 N WMS Blue SV2646 N WMS Blue SV2647 N WMS Blue SV2648 N WMS Blue SV3814 N Acc Blue SY3815 Y Access Prepared by J. M. Walker Page 17 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

- - s Blue SV3840 N Cables Blue SV3841 Y Cables Blue SV5218 N Access Blue SV5233 N Access Black SV5237 Y Access Black SV5239 Y Access Blue SV5400 N Cables Blue SV5420 N PDMS Black SV5422 Y PDUS Blue SV7410 N Cables Blue SV7411 N Cables Black SV7412 Y Cables Black SV7413 Y Cables Black TBWE6B608 Y Access Black TBWE6620 Y Access Blue TS5400 N _

Blue TS5401 N Blue TS5402 N Black TS5403 Y Cables Blue TS5404 N Blue TS5405 N Blue TS5406 N _ _

Black TS5407 Y Cables Blue TS5410 N Blue TS7901 Y Cables Blue TS7902 y Cables Black TS7903 V Cables Black TS7904 Y Cables Blue TV7901A N App R Blue TV7901B N App R Blue TV7902A N App R Blue TV7902B N App R Blue VEFM24A N App R Blue VEFM24B N App R Green VEFM24C Y App R Green VEFM24D Y App R Blue VSF1A N Access Blue VSF1B N Access Black VSF1CC Access Black VSFID _Access Blue X03 Y Cables Blue X04 Y Cables Blue Xi N Plant

._ knowledge Blue X2 N Plant

____ __ _ ___ knowlad e Blue X3 Blue X4 Y Prepared by J.M. Walker Page 18 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue X5 N App R Blue 5 N Access Blue X6 N App R Blue Blue X51 X51 N N ___Amue

___Access Blue _YO_ _ N I Blue YO118 N POMS Blue Y02 N Black jY0209 IU [ICW pumps -C9 Blue Yl N App R I Green IY22 ___ A_pR[Al I I I - l Prepared by J. M. Walker Page 19 Calc 02-E-0004.02, Rev. 0 Reviewed by M Lloyd

Attachmcnt 2 West Scenario 1 (EJ20 12) list of Components Categorized as Provided by Fire protection

' The first column has been added to show the color of the conponent on a black and white print out. This colurmn was not provided by fire protection EQUIP TAG Cables inZone Data Source Blue Al Y Cables' Blue A102 Y Cables Blue A103 N Blue A105 N Blue A106 N Black AIOB U Blue A109 N Cables Blue A110 N Blue AMl1 Y Cables Blue A112 Y Cables Blue A113 NCables Blue A2 N Cables' Blue A202 YCables' Blue A203 N Blue A205 N Black A206 U Black A208 U Blue A209 N J Cables Blue A210 N Blue A211 YC ables Blue A212 Y Cables Blue A213 N Cables Blue A3 YApp R Blue A301 N App R Blue A302 Y App R Blue A305 Y App R Blue A306 Y App R Blue A307 Y App R Blue A308 Y App R Blue lA309 N App R Blue A311 YApp P Blue A4 N Blue A401 Y App R Green A403 Y App R Blue A405 Y App R Blue A406 Y App R Green A408 Y App R Blue A409 YApp R Blue A601 Y Cables Blue A802 Y App R Blue B0125 U Prepared by J. M. Walker Page 20 Calc 02-E.M4-O2, Rev. 0 Reviewed by M. Lloyd

Blue B1 N Blue B11 N Cables Blue B112 N Blue B1145 N Blue B12 N Cables Blue B1205 U Blue B121 N Blue 81212 U Blue B1215 U _

Blue B1218 U .

Black B1232 U Black B1233 U Blue B1264 N Blue B131 N Blue 82 Y Blue B21 N Cables Blue B212 N Black B2145 Y Blue B22 N Cables Blue B221 N Blue B2214 N Cables Blue B222 N Cables Black B2232 U Black B2233 U Blue B231 N Blue B25 N Cables Black B2553 Y Blue B3 N _

Black B311 U WMS Blue B312 N_

Blue B32 N Cables Blue B3213A N PDMS Blue B3213B N PDMS Blue B322 N Blue B3255 N Blue B3256 N Blue B4 N Blue B412 N _

Blue 342 N Cables Blue B4213A N PDMS Blue B4213B N Blue B422 N .

Blue 65 Y App R Blue B51 N App R Blue 351105 N Blue B51112 N _

Blue B5114 N Blue B512 Y App R Prepared by J. M. Walker Page 21 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue B5122 N Blue B5123 N App R Blue B5124 Y App R Blue B5141A N AppR Blue B5143 U Blue B5143A N Blue B5143B N Blue B5151 N Blue B5152 N Blue. B5161 N Blue B5164 N Blue B5181 N Blue B5182 N Blue B52 N App R Blue B521 N App R Blue B5213 N Blue B5214 N Blue B522 N App R Blue B5222 N Blue B523 N Blue B5231 Y Blue B5244 N Black 85254A Y Black 85254B Y Blue B53 N Cables Blue B5311 N Blue B532 N App R Blue B533 N Blue B5334 N Blue B55 NApp R Blue B56 N App R Black B5622B U_

Blue B5652 N _

Blue B5653 Y Blue B5731 Nlinked Blue B6 Y App R Blue 861 N App R Black 861103 Y Black B61105 _

Blue B6114 N Blue B612 Y AppR Green B6121A _ _ App R Green B6121B Y App R Green 86122 Y Green B6123 _

Green B6124 _

Blue B614 N Cables Green B6142 V linked Prepared by J. M. Walker Page 22 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue B6143A N Blue B6143B N Green B6151 y Green B6152 Y Green B6164 Y inked Green B6166 YInked Black B6182 Y Green B61B3 Y linked Black B6194 Yllnked Blue. B62 N___ _AppR Blue B621 N App R Blue B6213 N Blue B6214 N Blue B622 N App R Black B6222 Y Black B623 Y Cables Green B6231 Y Black B6252 Y Black B6254A Y_ =

Black B6254B Y____

Blue B63 NCables Black B633 YCables Blue B6331 N Blue B6532 N linked Blue C186 N Blue C187 Y Cables Blue C20 N Blue C28A N Blue C28B N Blue C2A N Access Black C2B Y Access Blue C30 N Blue C3A N Black C3B Y Blue C46 N Blue C47 N Blue C86 N Blue C87 N Blue C88 N Blue C89 N Blue C90 N Blue C91 N Blue C92 N Green CVIOOD Y App R Black CV1206 Y Cables Blue CV1219 N App R Blue CV1220 N App R Green CV1227 Y App R Prepared by 1. M. Walker Page 23 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

Green CV1228 YAPP I Blue CV1275 N PDIMS Blue CV1276 N . App R Blue CV1277 N_ AppR Blue CV1278 N App R Blue CV1279 N App R Blue CV1284 N App R Blue CV1285 N App R Black CV1300 YPDMS Blue CV1301 N PDMS Blue CV1405 N App R Green CV1406 Y App R Blue CV1407 N App R Green CV1408 Y App R Blue CV1414 N Black CV1415 Y Cables Blue CV1428 N App R Blue CV1429 N App R Blue CV1432 N App R Blue. CV1433 N App R Blue CV1436 N App R Blue CV1437 Y App R Black CV2228 Y PDMS Black CV2241 U Green CV2613 Y App R Green CV2617 Y App R lue CV2618 Y Blue CV2620 Y App R Black CV2624 Y Cables Black CV2625 Y_ Cables Green CV2626 Y App R Blue CV2627 Y App R Green CV2630 Y App R Green CV2645 Y App R Blue CV2646 Y App R Green CV2647 Y App R Blue CV2648 Y App R Blue CV2663 Y App R Blue CV2667 Y App R Blue CV2668 Y App R Green CV2670 Y App R Black CV2674 Y Cables Black CV2675 Y Cables Blue CV2680 Y App R Blue CV2800 Y App R Green CV2802 Y App R Blue CV2803 Y App R Green CV2806 Y App R Prepared by J. M. Walker Page 24 Calc 02-E-0004-02, Rev. 0 Rciewed by M. Lloyd

Black CV2827 Y Cabtes Blue CV3617 N Blue CV3621 N Blue CV3625 N Blue CV3629 N Blue CV3640 NApp R Blue CV3642 Y App R Blue CV3643 Y App R Blue CV3644 Y App R Blue CV3645 N Blus CV3646 N App R Blue CV3806 YApp R Green CV3807 Y App R Black CV3811 YCables Blue CV3812 N App R Black CV3813 Y POMS Blue CV3820 N Cables Green CV3821 Y App R Blue CV3822 N App R Blue CV3840 N App R Green CV3841 Y App R Blue CV3850 Y App R Green CV3851 Y App R Blue CV5403A N i0s-. Blue CV5420 N See SV5420 Black CV5422 Y See SV5422 Blue CV6227 U Valve has been deleted Blue CV7470 N Blue CV7471 N Black CV7472 Y Cables Black CV7473 Y Cables Blue DOI N App R Blue D0112 N App R Blue D0121A N Blue 00122A N AppR Blue D0122B N Blue D0123 N App R Blue D0152A N App R Blue D02 Y App R Blue D0212 Y _ App R Green D0221A Y Blue D0222A Y App R Blue D0223 YApp R Blue D0242A YApp R Blue 003 N App R Blue 004 Y App R Black D05 _

Prepared by J. M. Walker Page 25 Calc 02-E40004-02, Rev. 0 Reviewed by M. Lloyd

Blue 006 Y App R Blue D07 Y Cables Blue D11 N Blue D1101 Y Blue D1103 Y Blue 01104 Y App R Blue D1114 N App R Blue D1120 Y POMS Blue D1 124 Y POMS Blue D15 N App R Blue D21 Y App R Blue D2101 y Blue D2103 y Blue D2104 Y App R Green D2114 Y App R Green D25 Y AppR Black E/P2622 Y Access Black EIP2623 Y Access Black EIP2672 Y Access Black E/P2673 Y Access Black HI Y Access Black H13 Y Cables Blue H14 N Cables Blue H15 N Cables Blue H2 N Blue H23 N Cables Blue H24 N Cables Blue H25 N Cables Blue IA806A N Blue IABD6B N Blue K2A N Access Blue K2B. N Access Blue K4A Y App R Green K4B Y App R Black LT2613 Y App R Blue LT2617 Y Cables Blue LT2618 N App R Blue LT2620 N App R Blue LT2621 N Blue LT2622 Y App R Green LT2624 Y App R Black L12653 Y PDMS Blue LT2667 N App a Blue LT2668 Y Cables Blue ILT2669 N App R Green .T2671 Y App R Blue LT2672 N _

Green LT2673 Y App R Prepared by J. M. Walker Page 26 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue P16A N App R Blue P16B N App R Blue P2A N Access Blue P2B N Access Blue P2C N Access Blue P33A N Access Blue P33B N Access Blue P33C NAccess Blue P34A NApp R Blue P34B Y App R Blue P36A Y App R Blue P36B App R Blue P36C Y App R Blue P3A N Access Blue P3B NAccess Blue P3C N Access Blue P3D N Access Blue P4A YApp R Blue P4B Y App R Blue P4C Y App R Blue P75 Y Access Green P7A Y App R Blue P7B Y App R Black PD1S2228 Y Cables Black PDT2700 Y Cables Black PDT2701 Y Cables Black PS2229 U _

Blue PS2230 N Blue PS2829 N Access Blue PS2830 N Blue PS2837 NAccess Blue PS2842 N Blue PS2898 N Blue PS5408 N Blue PS5430 N Black PS5432 YCables Blue PS5434 N Black PS5436 Y Cables Blue PSV5418 N Mechanical I _ _Valve Black PT1 020 Y Cables Green PT1 022 Y App R Blue PT1 040 Y Access Blue PT2405 Y Cables Blue PT2406 Y Cables Blue PT2407 Y Cables Blue PT2617A Y Cables Prepared by 1. M. Walker Page 27 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue PT2617B N INI Blue PT2618A N App R Green PT2618B Y App R Blue PT2633 Y Cables Green mT2667B Y App R Blue PT2668A Y Cables Blue PT2668B N Blue PT2683 Y Cables Blue RAI N App R Blue RA2 Y App R Blue RS1 Y App R Blue RS102 N PDMS Blue RS104 N PDMS Blue RS112 N Blue RS2 Y App R Blue RS202 N POMS Blue RS204 N POMS Blue RS3 Y App R Blue RS4 Y App R Blue SG1 N App R Blue SG2 N App R Blue SG3 N App R Blue SG4 N App R Black SVO61I U Black SV0621 U Black SVO711 U Black SV0721 U Black SV1432 Y PDMS Blue SV1433 Y PDMS Black SV2228 Y.

Black SV2229 Y Cables Blue SV2238 N Cables Blue SV2240 N Cables Black SV2250 Y Cables Blue SV2251 N Black. SV2252 Y Cables Blue SV2253 N Black SV2254 Y Cables' Blue SV2255 N Blue SV2645 N WIMS Blue SV2646 N WMS Blue SV2647 N WMS Blue SV2648 N WMS Blue SV3814 N Access Blue SV3815 Y Acce Blue SV3840 N Cables Blue SV3841 Y Cables Blue SV5218 N AcCeSS Prepared by J. M. Walker Page 28 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

Blue SV5233 N Access Black SV5237 Y Access Black SV5239 Y Access Blue SV5400 N Cables Blug SV5420 N PDMS Black SV5422 Y POMS Blue SV7410 N Cables Blue SV7411 N Cables Black SV7412 Y Cables Black SV7413 Y Cables Black _TBWE6608 Y Access Black TBWE6620 Y Access Blue TS5400 N Blue TS5401 N Blue TS5402 N Black _TS5403 Y Cables Blue TS5404 N Blue TS5405 N Blue TS5406 N Black TS5407 Y Cables Blue TS5410 N Blue TS79D1 Y Cables Blue TS7902 Y Cables Black TS7903 y Cables Black TS7904 Y Cables Blue TV7901A N App R Blue TV7901B N App R Blue TV7902A N App R Blue TV7902B N App R Blue VEFM24A N App R Blue VEFM24B N App R Green VEFM24C Y App R Green VEFM240 Y App R Blue VSF1A N Access Blue VSF1 B N Access Black VSF1C Y Access Black VSF1D Y Access Blue X03 Y Cables Blue X04 Y Cables Blue Xi N Plant I_ knowledge Blue X2 N Plant knowledge Blue X3 Y Blue X4 Y Blue X5 N App R Blue X51 N Access BluB X6 N _ App "R Prepared by J. M. Walker Page 29 Calc 02-E-0004-02, Rev. 0 Revicwed by M. Lloyd

Blue X61 N Acces Blue O N Blue Y0118 N PDMS Blue Y02 N__

Black Y0209

  • U lCW pumps Bhle Yl1 IN App R Blue Y22 Y App R Prepared by J. M. Walker Page 30 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 3 West Scenario 2 (Remainder) list of Components Categorized as Provided by Fire protection

  • The first colurmn has been added to show the color of the component on a black and white print out This column was not provided by fire protection EQUIP TAG Cables in Data Source Zone Blue Al Y Cables' Blue A102 Y Cables Blue A103 N Blue A105 N Blue A106 N Black AIDS U Blue AI0S N Cables Blue AllO N Blue AMll Y Cables Blue A112 Y Cables Blue A113 N Cables Blue A2 N Cables Blue A202 Y Cables Blue A203 N Blue A205 N Black A206 U Black A208 U Blue A209 N Cables Blue A210 N Blue A211 Y Cables Blue A212 Y Cables Blue A213 N Cables Blue A3 Y App R Blue A301 N App R Blue A302 Y App R Blue A305 Y App R Blue A306 Y App R Blue A307 Y App R Blue A308 Y App R Blue A309 N AppR Blue A311 Y App R Blue A4 N Blue A401 Y App R Green A403 Y App R Blue A405 Y App R lue A406 Y App R Green A408 Y App R Blue A409 Y App R Blue A601 Y Cables Blue A802 Y . App R Prepared by J. M. Walker Page 31 Calc 02-E-000402, Rev. 0 Reviewed by M. Lloyd

Blue B0125 U Blue Bi N Blue B11 N Cables Blue B112 N Blue B1145 N Blue 612 N Cables Blue B1205 U Blue B121 N Blue B1212 U Blue B1215 U Blue B1218 U Black B1232 U Black B1233 U Blue B1264 N Blue B131 N Blue B2 Y Blue 821 N Cables Blue B212 N Black B2145 Y Blue B22 N Cables Blue B221 N Blue B2214 N Cables Blue B222 N Cables Black B2232 U Black B2233 U Blue B231 N Blue B25 N Cables Black B2553 Y Blue B3 N Black B311 U_ WMS Blue B312 N lue B32 N Cables Blue B3213A N POMS Blue B3213B N_ PDMS Blue B322 N Blue B3255 N Blue B3256 N Blue B4 N Blue B412 N Blue B42 N Cables Blue B4213A N PDMS Blue B4213B N Blue B422 N Blue B5 Y App R Blue B51 N App R Blue B51105 N Blue B51112 N Blue B5114 N Prepared by J. M. Walker Page 32 Calc 02-E-0004-02, Rev. 0 Reviewed by K Lloyd

Blue B512 Y App R Blue B5122 N Blue 85123 N App R Blue B5124 Y App R Blue B5141A N App R Blue 85143 U Blue B5143A N Blue B5143B N Blue B5151 N Blue B5152 N Blue B5161 N Blue B5164 N Blue B5181 N Blue 85182 N Blue B52 N App R Blue B521 N App R Blue 85213 N Blue B5214 N Blue B522 N App R Blue B5222 N Blue 8523 N Red 85231 Y Blue B5244 N __

Black B5254A Y Black 85254B Y Blue 853 N Cables Blue 85311 N Blue B532 N App R Blue 8533 N Blue B5334 N Blue B55 N App R Blue B56 N App R Black B5622B U Blue B5652 N Blue B5653 Y Blue B5731 N linked Blue B6 Y App R Blue B61 N App R Black B61103 y Black B61105 Y Blue B6114 N Blue B612 Y App R Green B6121A Y . App R Green. B61218 Y App R Green B6122 .y Green B6123 Y Green B6124 Y Blue B614 N Cables Prepared by J. M. Walker Page 33 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Green B6142 Y linked Blue B6143A N Blue B6143B N Green B6151 Y Green B6152 y Green B6164 Y linked Green B6166 Y linked Black B6182 Y Green B6183 Y linked Black B6194 Y linked Blue B62 N App R Blue B621 N App R Blue B6213 N Blue B6214 N Blue B622 N App R Black B6222 Y Black B623 Y Cables Green B6231 Y Black B6252 Y Black B6254A Y Black B6254B Y.

Blue B63 N Cables Black B633 Y Cables Blue B6331 N Blue B6532 N linked Blue C186 N Blue C187 Y Cables Blue C20 N Blue C28A N Blue C28B N Blue C2A N Access Black C2B Y Access Blue C30 N Blue C3A N Black C3B Y Blue C46 N Blue C47 N Blue C86 N Blue C87 N Blue C88 N Blue C89 N Blue C90 N Blue C91 N Blue C92 N Green CVI1OO Y App R Black CV1206 Y Cables Blue CV1219 N App R Blue CV1220 N AppR Prepared by J. M. Walker Page 34 Calc 02-E-0004-02, Rev. 0 Reiewed by M. Lloyd

Green CV1227 Y _ App RA I Green CV1228 Y App R Blue CV1275 N PDMS Blue CV1276 N App R Blue CV1277 N_ App R Blue CV1278 N_ App R Blue CV1279 N App R Blue CY1284 N App R Blue CY1285 N1 App R Black CV1300 Y_ PDMS Blue CV1301 N POMS Blue CV1405 N App R Green CV1406 Y_ App R Blue CV1407 N App R Green CV1408 Y App R Blue CV1414 N Black CV1415 Y Cables Blue CV1428 N App R Blue CV1 429 N App R Blue CV1432 N App R Blue CV1433 N App R Blue CV1 436 N App R Blue CV1437 Y App R Black CV2228 Y POMS Black CV2241 U Green CV2613 Y App R Green CV2617 Y App R Blue CV2618 Y Blue CV2620 Y App R Black CV2624 Y Cables Black CV2625 Y Cables Green CV2626 Y App R Blue CV2627 Y App R Green CV2630 Y App R Blue CV2645 Y App R Blue CV2646 Y App R Blue CV2647 Y App A Blue CV2648 Y App R Blue CV2663 Y App R Blue CV2667 Y App R Blue CV2668 Y App R Green CV2670 Y App R Black CV2674 Y Cables Black CV2675 Y Cables Blue CV2680 Y App R Blue CV2800 Y App R Green CV2802 Y App R Blue CV2803 Y App R Prepared by J. M. Walker Page 35 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Green CV2806 Y AppR Black CV2827 Y Cables Blue CV3617 N Blue CV3621 N Blue CV3625 N Blue CV3629 N Blue CV3640 N App R Blue CV3642 Y App R Blue CV3643 Y App R Blue CV3644 Y App R Blue CV3645 N Blue CV3646 N App R Red CV3806 Y App R Green CV3B07 Y App R Black CV3811 Y Cables Blue CV3812 N App R Black CV3813 Y PDMS Blue CV3820 N Cables Green CV3821 Y App R Blue CV3822 N App R Blue CY3840 N App R Green CV3841 Y App R Blue CV3850 Y App R Green CV3851 Y App R Blue CV5403A N Blue CV5420 N See SV5420 Black CV5422 Y See SV5422 Blue CV6227 U Valve has been deleted Blue CV7470 N Blue CV7471 N Black CV7472 Y Cables Black CV7473 Y Cables Blue DOI N App R Blue D0112 N App R Blue D0121A N Blue 00122A N App R Blue D0122B N Blue D0123 N App R Blue D01 52A N App R Blue D02 Y App R Blue D0212 Y App R Green D0221A Y Blue D0222A Y App R Blue D0223 Y App R Blue D0242A y App R Blue D03 N App R Blue D04 Y App R Prepared by J. M. Walker Page 36 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Black 005 Blue D06 Y App R Blue 007 Y_ Cables Blue D11 N Blue D1101 Y_ _

Blue D1103 Y Blue D1104 Y_ App R Blue D1114 N App R Blue D1120 y_ PDMS Blue D1124 Y PDMS Blue D15 N App R Blue D21 Y App R Blue D2101 Y Blue D2103 y Blue D2104 V App R Green D2114 Y App R Green D25 V App R Black EIP2622 Y Access Black E/P2623 Y Access Black E/P2672 Y Access Black E/P2673 Y Access Black HliY Access Black H13 V Cables Blue H14 N Cables Blue H15 N Cables Blue H2 N Blue H23 N_ Cables Blue H24 N Cables Blue H25 N Cables Blue IA806A N Blue IA806B N Blue K2A N Access Blue K2B N Access Blue K4A V App R Green K4B V App R Black LT2613 Y App R Blue LT2617 Y Cables Blue LT2618 N .App Blue LT2620 N App R Blue LT2621 N Blue LT2622 Y App R Green LT2624 Y App R Black LT2653 Y PDMS Blue LT2667 N App R Blue LT2668 Y Cables Blue LT2669 N App R Green LT2671 Y App R Blue LT2672 N Prepared by J. M. Walker Page 37 Calc 02-E-0004-02, Rev. 0 Rcvicwcd by M. Lloyd

Green LT2673 Y App R Blue P16A N App R Blue P16B N App R Blue P2A N Access Blue P2B N Access Blue P2C N Access Blue P33A N Access Blue P33B N Access Blue P33C N Access-Blue P34A N App R Blue P34B Y App R Blue P36A Y App R Blue P368 Y App R Blue P36C Y App R Blue P3A N Access Blue >3B N Access Blue P3C N Access Blue M3 N Access Blue P4A Y App R Blue P4 Y App R Blue P4C Y App R Blue P75 Y Access Green P7A Y App R Blue P7B Y App R Black PDIS2228 Y Cables Black PDT2700 Y Cables Black PDT2701 Y Cables Black PS2229 U Blue PS2230 N Blue PS2829 N Access Blue PS2830 N Blue PS2837 N Access Blue PS2842 N Blue PS2898 N Blue PS5408 N Blue PS5430 N Black PS5432 Y Cables Blue PS5434 N Black PS5436 Y Cables Blue PSV5418 N Mechanual

___ ____ _ _ ___ ___ V alve Black PTIO20 Y Cables Green PT1022 Y App R Blue PT1 040 Y Accss Blue PT2405 Y Cables Blue PT2406 Y Cables Blue PT2407. Y Cables Prepared by J. M. Walker Page 38 Calc 02.E-0604-02, Rev. 0 Rewewed by M. Lloyd

Blue PT2617A Y Cables Blue PT2617B N Blue PT2618A N App R Green PT2618B _ App R Blue PT2633 Y Cables Green PT26678 __Y App R Blue PT2668A _ _Cables Blue PT2668B N Blue PT2683 Y Cables Blue RAI N App R Blue RA2 Y_ App R Blue RSI Y App R Blue RS102 N PDMS Blue RS104 N PDMS Blue RSI12 N Blue RS2 Y App R Blue RS202 N POMS Blue RS204 N POMS Blue RS3 Y App R Blue RS4 Y App R Blue SG1 N App R Blue SG2 N App R Blue SG3 N App R Blue SG4 N App R Black SVO611 U Black SVO621 U Black SVO711 U Black SV0721 U Black SV1432 Y PDMS Blue SV1433 Y PDMS Black SV2228 _

Black SV2229 Y_ Cables Blue SV2238 N Cables Blue SV2240 N Cables Black SV2250 Y Cables Blue SV2251 N Black SV2252 V Cables Blue SV2253 N Black SY2254 V Cables Blue SV2255 N Blue SV2645 N WMS Blue SV2646 N WMS Blue SV2647 N WMS Blue SV2648 N WMS Blue iSV3814 N Access Blue SV3815 N Access Blue SV3840 N Cables Blue SV3841 V Cables Prcparcd by J. M. Walkecr Pagc 39 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue SV5218 N_ Access Blue SV5233 N Acass Black SV5237 Y_ Access Black SV5239 Y Access Blue SV5400 N Cables Blue SV5420 N_ PDMS Black SV5422 Y_ PDMS Blue SV7410 N Cables Blue SY7411 N Cables Black SV7412 Y Cables Black SV7413 Y Cables Black TBWE6608 Y Access Black TBWE6620 Y Access Blue TS5400 N Blue TS5401 N Blue TS5402 N Black TS5403 Y Cables Blue TS5404 N Blue TS5405 N Blue TS5406 N Black TS5407 Y Cables Blue TS5410 N Blue TS7901 Y Cables Blue TS7902 Y Cables Black TS7903 Y Cables Black TS7904 Y Cables Blue TV7901A N App R Blue TV7901B N App R Blue TV7902A N_ App R Blue TV7902B N App R Blue VEFM24A N_ App R Blue VEFM24B N App R Green VEFM24C Y App R Green VEFM24 Yr App R Blue VSF1A N_ Access Blue VSF1B N_ Acess Black VSF1C Y Access Elack VSF1D Y Access Blue X03 Y Cables Blue X04 Y Cables.

Blue Xi N Plant knowledge Blue X2 N Plant knowledpe Blue X3 y Blue X4 Y Blue X5 N App R Blue X51 N Access Prepared by J. M. Walker Page 40 Caic 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Blue X6 . . N App R Blue X61 N Access Blue YOI N Blue Y0118 N PDMS Blue I02 N Black Y0209 U ICW pumps.

__ _ __ C09 Btue . Y1l N App R Blue Y22 Y . App R Prepared by J. M. Walker Page 41 Calic 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 4 List of affect events for 98-J East End of the Room Baseline Case L SMWPATI6N_____

B tPT1020 AMM1AITBIF j B I D2101 DCD12101XR

_ I ___!

B D2103 DCD12103XR l B D05 DMMIOOOD05 i B D05 DMMIOOODOS B B5622B DMMI000D05 D 1 r

iH13 B EMMlCB13XX i B l H13 EMM1CB13XX S I.  :

B SV5237 EMM1DG2SAC I .______ _ _______

I B81 SV5239 , EMM1DG2SAD J.

l __ __*.-_

B H1 EMMIH1XXXXX3 B H1 EMM1H1XXXX i B TS7903l EMMIRMCLCA l a B I TS7904 EMM1RMCLDA B H13 ERE113SRXR I I ___ I ___ I . _

B H1 ERE1H1IUXE B I H1 I EREiH11XUE B Hi j ERE1H1LXXK-a___ _, . _.I B B1232 FCB1Bl232R j f B B1233 B FCB1B1233R t

_ _ _ . __ a... ___ __.

. B I B2232 FCB1 B2232R j B 82233 FCB1 B2233R ,

BP2622 FMMICV2622 I B 85254B FMM1CV2624 i I.___lB _C24 CV2624 FMM1CV2624 B JCV2624 FMM1CV2624 I B I B6254A FMMIC jFMM1CV2625 V 6 Prepared by J. M. Walker Page 42 Calc 02-E-0004 -02, Rev. 0 Reviewed by M. Lloyd

OEM jB C j. FMMlCV2625 1 B CV2625 FMM1CV2625 1 B -, E/P2672 FMMlCV2672 I B B6254B FMM1CV2674 I B CV2674 FMM1CV2674 t I B CV2674 jFMM1CV2674 j B CV26 FMMlCV2675 j B B5254A FMM1CV2675 5- B -- CV2675 ...

I FMM1CV2675 B TBWE6620 FMM1FWP1AF B 5 TBWE6620 FMMIFWP1AF

,.........__ 1__ .......... ___ . _ __ __. _

B PDT2700 FMM1FWP1AF 3 __ ._ _ _ _,

B PDT2701 FMMIFWPIBF B TBWE6608iFMMIFWP1BF B 'TBWE6608 FMM1FWPlBF I B PDT2700 FMMICSCOM

____j._.!B , PDT2700 _j__ 3 FMM1ICSCOM .___ '

t ___

B LT2653 j

-______! FMM1ISGASUC I B I E/P2623 j FMMISGASUC ,

F_______I1,GASUC B LT2653 FMM1SGASUC j r B LT2613 FMMISGBSUC-5 B - LT2613 FMM1SGBSUC 5 EIP2673 BCi5 ' FMM1SGBSUC

_ ..3 B I CV2827  ! FMM1XTIEVF 5t B

!CV2827

-- ' -1 ' - -- .-- -:-. ___

FMM1XT1EVF B *, B2553 5 FMM1XTIEVF B_ i___________!

GMM1TRAN2M CV3813 I I B CV3813 GMMITRAN2M B j B623 GMMlVSFICM j I__._ I..........................__ _.__ __

Prepared by J. M. Walker Page 43 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B j B6222 , GMMIVSFICM

_ _ _ _ _ II _ __ _ _ _ _

B SV7412 GMM1VSFICM B C7472 I GMM1VSF1CM i VSF~c __ _ _ _ __ _ _ _

i B jVSF1C GMM1VSF1CM B VSF1C 5GMM1VSF1CM B SV7412 GMM1VSFIM I wI. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

B VSF1D l GMM1VSF1DM B B6252j GMM1VSFIDM 5 B SV7413 A GMM1VSF1DM B i VSF1D iGMMIVSFiDM1 B j CV7473 GMM1VSF1DM B B633 GMM1VSF1DM SCV41300 GMM1VSF1DM

____ ___ ____I ______

B i CV1206 jHMM1CV1206 a _ _ _ .__ .I ._ ___ ___ _ _ .

i B . B6194 HMM1CV13002 B CV1300 4HMM1CV1300 5 ________ ___5____.

B 55B6194 'HMM1CV13005 I B 5C10 HMMlCV13005 B

__ __ _ _ _ _ I CV5422 I _

IMM1PMPC2B B 5 TS5403 IMM1PMPC2B I-. 98 B

B i__ ___

61105 PS5432 1 IMM1PMPC2B tIMM1 PMPC2B

  • _______5 55
  • B IC2B ' IMM1PMPC2B 5 B

_ B C2B  ! __

IMM1PMPC2B l B iSV5422 5IMM1 PMPC2Bi B _ _ _ _ _ _

B jCV1415 LMM1 CV1406i

_ !_ _ ' _ . -I l B PS5436 MMM1 PMPC3Bl i

5_B i5C3B j ___

  • MMM1PMPC3B B IC3B !MMM1PMPC3B i B 82145 MMM1PMPC3B i L _______L_.__ ____ . I _

Prepared by J. M. Walker Page 44 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B TS5407 MMM1PMPC3B B 1 A108 QCD172tO8R  !

B l A206 I QCD172206R

______ii____ ___________-

B A208 QCD172208R B lCV2645 QMM12645OF B __SV0611 j QSV1006I1C B j SV0621 QSVI00621C B SVO711 I QSV100711C l B j SV0721 l QSV100721C I _ __

I B CV3811 SMM1S2ICWH B B6182 SMM1S21CWH B CV3811 SMM1S21CWH I B CV3811 ' SMV103811K B iCV2241 l XAV102241K B SV2252 XMM1CWC2BF B SV2254 , XMM1CWC2BF I __ _ __ _;

B SV2254 XMMlCWC23F I B SV2252 XMM1CWC2BF j I _ _ _ _ _ ___ i B SV2250 XMM1CWC3BF B SV2250 XMM1CWC3BF i _ __ _ _ _ .__

B i PS2229 F XMM1TKBLVL r i B

I I

SV2229 I

XMM1TBNLVL B CSV22298 XMM1TKBLVL I B SV2228 i XMM1TNKLVL l B CV2228 i XMM1TNKLVL I

^ _ __ i___ Ii_ __ _ I B CV22280 Y XMMlTNKLVL j I i_B ;_ PSV2228

_ _I_

XMM1TNKLVL B i PDIS2228 i XMM1TN'KLVL i B§2 i Y0209

  • XMM1TRNBPC i l G a.PT1022 i' AMM1A2TBIF l~~~~_ ___. . . _

_ . ..1 .....

Prepared by J. M. Walker Page 45 Caic 02-E40004-02, Rev. 0 Reviewed by M. Lloyd

G RS2 DB410ORS2F G D02 DBD100D02F G I D21 DBD10OD21F G D06 DBT1OOD6F G D06

  • DBTIDSCD06

_ G i _D2104 DCD12104XR h___

G D2114 DCD12114XR j i____

G I D06 DCF100D06R G j D0212 DCF1D0212R G D04 !DMM1OOD04}

l G j*D04 DMM1000D04 r G D0222A DMM1000D04.

r G j D25 ,DMM1000D25 i _ G_ ._ ,D0221A

___ _ j __DMM1000D25i I_ _ G_ _ _ _ RA2 _ _ I _ DMM1000RA2

_ _ _ _ _ 1 I G !tI RA2 ,. DMM1000RA21 I G D0223 DMM1000RA2 G Y22 1 DMM1000Y22 G  ! Y22 I DMM1000Y22 I G l Y22 lDMM1000Y22

_. . ....__.___._._. II _ _ _ _ _

G Y22 } DMM1000Y22

  • G Y22 I DMMIY22AAC i G t B6121A j DMMIY22AAC l G__Y22_DMMIY_2AAC G Y22 I DMM1Y22AAC t G '. Y22 i DMM1Y22AAC G

G I Y22_____I Y22 DMM__Y221AC DMM1Y221AC j Y22!DMMY221AC G Y22 I DMM1Y221AC .

G , Y22 DMM1Y221AC~

I G

Y22

_ _I_

L _ _ _ _ _

DMM1Y221AC i

_ __ _ _ _ __ _ _._ _._._ i Prepared by J. M. Walker Pagc 46 Calc 02.E.0004-02, Rev. 0 Reviewed by M. Lloyd

-m B6121B DMM1Y221AC G

_M_M_

D0242A DMM1Y221DC I G Y22 I DMM1Y221DC i G Y22 l DMM1Y221DC j G ' Y22 DSI100Y22F G Y22 DSI100Y22X G l K4B l EDG1A4XXXO. l G K4B l EDGIDG2XXA G K48 i EDG1DG2XXF tAO ._ _1__

G A401 I EMM1B6XXXX G CV3807 j EMM1DG2SWC j I. ._ ! __- -i--_.________ .I G CV3807 I EMM1DG2SWC I i-G B6231 EMM1DG2SWG G 1 B6122 l M M1RMCLCA-G , VEFM24C EMM1RMCLCAI G VEFM24C 1 EMM1RMCLCF G B6123 EMM1RMCLDA G VEFM24D , EMM1RMCLDA G . VEFM24D EMM1 RMCLDF G K4B EREEDG2LXK

_ _ _ _ _ _ . , . _ _ _ _ _ _ _ _ _ _ _ I G I K4B EREIDG2UXK I L !____ I G i RS4 tFMMINNIYPO

- G  ! RS4 FMMINNIYPO I I G RS4 FMMINNIYPO G I RS4 i FMM1NNIYPO

,_.__ ij __ .

  • G j CV2630 FMM1SGBBVC; CV2630 I _ _G _ ___. _ FMM1SGBBVC G CV1227 I HMM1MU1214 G CV1227 jHMMM214 G I B6151 i HMM1MU1214 Prepared by J. M. Walker Page 47 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

iG

_.__ i CV1228j HMMIMU1215 1_ __ _ __ _

]

G I CV1228 i HMM1MU1215 G B6152 HMMlMU1215 I __ _ __ _ .. ' _

G B6166 LMMICV1406; G B6166 j LMM1CV14D6

_____ G j _B6164 .___1 ________*

LMM1CV1408 I

-G B6164 LMMICV1408 G C187 QBI1L2618N l G C187 , QBII L2622N I G C187 i BIL2667N G I C187 QB11L2671N G

C87 QLCIINAPXD I

G C QLC1INAXXD G i C187 , QLC1 INBPXD G I C187  ! QLC1 INBXXD I. G I

_L____ C187.___ ._._ IQLC11NCPXD __ ... i G

.s jt C187 _  !* , LC11NCXXD_ _ __._

j G I C187 QLCIINDPXD

_ ___ G .. __. C187 ._._. _____ QLCIINDXXD G j C187 ..QMMt26450A W G ._._____. C187 jQMM126450A j G !C187 QMM126470A G iLT2673 IQMM1 26470F

_ _ _ _. _._ I _ _ _ _

G G . 'j LT2671 C187 j QMM126470F QMM1L2617HA t

- C 187. !___.__

G

___________ .1

___ .}

C187 _

QMM12617H0i G C187 QMM1L2618H I C187 I QMM1L260 I G I C187 i QMMIL262OH i

_ I__ ;I _ _ _ _ _ _ I Prcpared by J. M. Walker Page 48 Calc 02-E 0004-02, Rev. 0

  • Reciwed by M. Lloyd

N l G jC187 j MM1 L2621 H j G C187 j QMMIL2621H I G C187 QMM1L2622H G

  • LT2624 _MML2624H G J C187 QMMIL2624H I jC187 QMM1L-2668H G j C187 QMM1L2668H I G 0187 C QMM11L2669H G i LT2671 I QMM1L2671H I G C187 QMM1L2672H G 0187 C 1 QMM11L2672H G 1 L8_LTQMMIL2673H .i I G I C187 j MM1L2673H t
j. ________ ,_ __________ _ I G C187 QMM1 MSAATP l G . C_.87__.MIMSB P G j C187 QMM1MSABTP1 I~G ____ I __ _.____!

I, 0187 QMM1MSBBTPj j G B6124 QMM1MSLIBA G j CV2630 i QMM1MSLIBA i I G G

I i

CV2630 C187 QMM1MSLIBF QMM1P2617A i G C187 QMM1P2617A G

G C187 187 j

!QMM1P2617B _____________B G C187 QMM1P2617B j G C187 QMMIP2618 G C187 IQMM1P2618A G PT0187 QMM1P2618B 1,,8__

G ;C187__ 7 _

QMM1P2618B Il f G 1 PT2618B

!QMM1P2618B I

. _ _ __I I

G j 01871 0 MM1P2667A k ___.__.._ t_. .j Prepared by J. M. Walker Page 49 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G C187 C__87__MMP266-A QMM1 P2667A G i C187 QMM1P2667B 5 G C187 QMMIP2667B G I PT2667B QMM1P2667B

__ _ _ _ __ _ _ _ __ _ _ _ _ _ __ j __ _ _ _ _ _ _ _ _ _ _ _ _

__G _ ___7__ QMM1P2668A I

_ _ G__ __ _ _ C187 QMM1P2668B .1 G I C187 QMM1P2688B G C187 QMM1P266B l G P7A QMM1P7ATRAi G j P7A QMMIP7ATRF I G I CV2613 8 QMM1TBSADM i I _ ___

G i CV2613 8 QMM1TBSADM

_ _ _____ i G  ! C187 C17,3lMB *

QMMITMAEFW G , C187 QMM1TMAEFW3 G ' C187 QMMITMBEFW 3 I C187_ ,3QMTME 5~~~ G I_ .. _ C187

_ QMM1TMBEFW

_ ._ . 3_ . ._..........

_ i .....

G C187 iQMMITMBEFW

___ G -___ _____ B6C187 _ RQMM1YMBAOR _ O _

G C187 QMM1VMAORD

! G C187 lQMM1VMBORC j G .5 C187 1.QMM1VM\BORC l G 3CV2613 l SY102613N i G

,CV2613 I QTD1C2613F 3

__ _ _ __ _ _ __ _ _ _ __ . S G I CV1000 I RMM1B1000C I

jI CV1000 i. RMM1BV1000 R

I G 614 _____-.

, CV000 ,RMM1CV1000 '

  • _ _ _
  • _ _ I l G 186142  ! RMM1CV1000  !

Prepared by J. M. Walker Page 50 Ca'c 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G A403 ' SCB1A403XR GCV3841_ S MIlA384 G CV3841 SMM1AV3841i G l CV384t SMM1AV3841 G B6183 SMMI E35BSW G CV3821 SMM1E35BSW G CV3821 SMM1E35BSW I B6183 SMM1E35BSW G l A403 j SMM1P4BXXA o ° A802 r HMM1P36BFR I _

O _

l, A802-_

M1P36BFiS

___ _ _ .l 0 A601  ! SCBIA601XR S I CV2680 j FMM1SGABVC 7 S CV2680 I FMM1SGABVCE l

~I__ __._--- ...

S - CV2668 QAV102668C I i S CV2680 QMM1MSLIM ,

rs 85124 QMM1MSLIAA CV2680 i QMM1 MSLIAF S I CV2800 QMM1P7BTRA'

  • S , CV2627 QMM1SGAP7A ,

S 7 CV2627 QMM1SGAP7A

__ __ I -__._ _4__ -_

___S__ CV2646 IQMM1SGAP7B I S , CV2667 ,7QMM1SGASTM I

S CV2620 QMM1SGBP7A 1 S CV2620 ,QMM1SGBP7A CV2648 QMMISGBP7B I

_ _ _ _ I7__ __ _ .. ___ _ _ _ _ __

S CV2663 I QMM1TASADM S CV2663 i QMM1TASADM

___.C_ __,_

S CV2663i QSV102663N s CV2663 QTD1C2663F Prepared by J. M. Walker Page 51 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

Attachment 5 List of Basic Events for 98-J East End of the Room Red Train Wrapped rg-EOUIP-4 TAG ~BNA

! 8 PT1020 AMM1AITBIF j G 0AMMIA IF G j RS2 DB4100RS2F G D02 l DBD100D02F G D21 DBD100D21F jG _ DBT10OD06F

_D06_

G D06 i DBTIDSCDO6 B 02101 D I DCD12101XR B i. .O __:_

D2103 _.___ _3___

DCD12103XR GD2104 DCD12104XR G D2114 ' DCD12114XR i GD06 DCF100D06R L-___'. __ 1____________

G D0212 DCF1 D0212R G D04 DMM1000D04 D ]

D04 DMMI 000D04 G D0222A DMM1000D04 D

B I B5622 j DMM1000D05

_i _ __ .. .........

I B D05 I DMM1 000D05 B D05 DMM1000DO0 5 Prepared by J. M. Walker Page 52 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

G I D25 j DMM1000D25

_t G

j D0221A i DMM1000D25 I G i RA2 DMMI1OORA2 I _ _ _ _ I_ _ _ _ _ _ _

G D0223 DMMIODORA2 t _ _ _ _ _ _ _ I . ... I G RAZ DMMIOOORA2 G

I Y22

_ _ I DMM 00022_

DMM1000Y22 G I Y22 y IDMM1000Y22 Y22 DMM1000Y22 G - 221*-

Y22 i DMM1Y22AAC I.

  • G Y252 i DMM1Y22AAC '

! _G !_ B6121A  ! DMM1YZ2AAC

  • Y22 ~DMM1Y221AC G t Y22 DMM1Y22AAC G

GG!B5121BIDMM1I t____._._._.________________. Y22 DMMIY221AC Y221ACI

_____ I L_.

G i _ _L._ __

Y22 I DMM1Y221AC __i_ __ ft G Y22 I DMM1Y221AC GG I, Y22 DMM1Y221AC DMMIY221AC iI

. I .__DY_ ___C __.

l G i Y2Z l DMM1Y221DC I G I Y22 I DMM1Y221DC i G I YO242A DMM1Y221DC G I Y2 MIY2D I I !_ _ _ ._ ' I............

Prepared by J. M. Walker Page 53 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G i Y22 DSI100Y22F  !

G I Y22  ! DSI100Y22X G K4B EDG1A4XXXO G _ K4B

  • EDGIDG2XXA I_ G I K4B I EDG1 DG2XXF I I _ _

G I

A401 j ___

EMMI BBXXXX I

B 1 H13 lEMMICB13XXI 3

B i _____

I H13 EMM1CB13XX I_____

I 1G 1A408 5EMMICB408X B SV5237 EMM1DG2SAC i B I SV5239 EMMlDG2SAD G

G CV80 CV3807 j

_E EMM1DG2SWC G

l CV3807 jEMM1 DG2SWC 4

j G B6231 EMMIDG2SWC B Hi I EMM1H1XXXX j .4 B-Hi - MMllxx-HXXX--

B TS7903 j EMM1RMCLCA G B6122 EMM1RMCLCA  !

G j VEFM24C EMM1RMCLCA I _ _ _ ._

G VEFM24C EMM1RMCLCF i B TS7904 I EMM1RMCLDA G VEFM24D EMM1RMCLDA i Prepared by J. M. WValker Page 54 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G r fIB6i23 EMM1RMCLDA G VEFM24D ' EMM1RMCLDF 1 B H13 ERE113SRXR G j K4B EREI DG2LXK G K4B I ERE1DG2UXK B r HI- ERE1 Hi UXE B ' Hi _ ERE1HI1XUE B Hi ERE1H1LXXK B B1232 FCBiB1232R B j B1233 FCB1B1233R

  • _____ _ _} - - __ ______

B 8B2232 1 FCB182232R I j B B2233 FCBiB2233R l B E/P2622 FMMlCV2622 B B5254B FMM1CV2624 B CV2624 FMM1CV2624 i.

B i

CV26254 FMMCV2625 B I CV2625 FMM1CV2625 1 B 8VB6254A FMM1CV2625  !

I B E/P2672 FMMICV2672 B j CV2674 _

_ _ _ I L _

FMMICV2674 B ' CV2674 FMM1CV2674

'i , I Prepared by J. M. Walker Page 55 Calc 02-E-0004-02, Rev. 0 Rcvicwd by M. Lloyd

IB iB FMM1CV2674 CV265j FMMICV2675 B CV2675 FMM1CV2675

__ . ............. a _ _.

B, CV2675 ,FMMl CV2675 B B5254A FMM1CV2675 B I PDT2700I FMMIFWP1AF I

B

_I

_ II _

TBWE6620 i

FMM1FWP1AF 1B I TBWE662O FMM1FWP1AF B , PDT2701 I FMMWP11BF B i TBWE6608, FMM1FWP1BF

_ _ _ _ i _ _ I__ _ _ _ i__

  • B ' TBWE6608 I FMMIFWP1BF a

. . J ..- _.......... _w IE- Oi B I .PDT2701 .. .........

FMM1ICSCOM T2700 j FMM1ICSCOM i, G RS4 . FMM1NNIYPO G RS4 FMM1NNIYPO G IRS4 FMMINNIYPO B !EP2623 I FMM1SGASUC B LT2653 j FMM1SGASUC l

_ J_. I .____ aj LT2653 FMM1SGASUC G FMM1SGBBVC j CV2630 CV2630 j.

t1 FMM1SGBBVC T .. . __ _ ___ _S__

B , LT2613 l . FMM1SGBSUCi

  • , ,t Prepared by J. M. Walker Page 56 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B E/P2673 FMM1SGBSUC B LT2613 i FMM1SGBSUC I B CV2827 FMMI)TIEVF B CV2827 FMMIXTIEVF I B B2553 FMM1XTIEVF B ' CV2827 i FMM1XTIEVF

__ __ _  ! I__ _ _ I B CV3813 GMM1TRAN2M 1 B

i----

I CV3813

! GMM1TRAN2M I

i B B623 GMM1VSF1CM B SV7412 GMM1VSFICM B B 86222 j GMM1VSF1CM

__B __ _ GMM;VSF1CM B SV7412 GMM1VSF1CM I VSF1C GMM1VSF1CM r B I CV7472 GMM1VSFICMI

__I __________

_._.___ ~~

I B VSF1D i GMM1VSF1DM I _ _ i__ _ _ I!__ _ _ _ _ _ _ I B , VSF1D GMM1VSF1DM I iB B633 IGMM1VSF1DM I 2

B - CV7473 GMM1VSF1DM B B6252 GMM1VSF1DM B SV7413 GMM1VSF1DM B ,j SV7413 I GMM1 VSF1 DM i ______ __--

_ ___  ! j_______________

Prepared by J. M. Walker Page 57 CaIc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B CV HMM1CV12D6 I I B I B6194 HMM1CV1300 B CV13'0 IHMMlCV130D B I CV1300 t HMM1CV1300 B B6194 I HMM1CV1300 Gr! G I B6151 HMMlMU1214 L G t CV1227 HMMlMU1214

- _ _ I _ _ ._ _ _ _ _ _ _ _

G CV1227 j HMM1MU1214 G i B6152 I HMM1MU1215 i

_CV1228G H I 1 G CV1228 HMM1MU1215 j

' G  ! CV1228 HMM11 B j SV5422. IMM1PMPC2B B B61105 I IMM1PMPC2B B CV5422 i IMM1PMPC2BI L_

i. L_.__B

!TS5403 iIMM1PMP2 I

B PS5432 IMM1PMPC2B B i 5C2B IMM1PMPC2B I.______.__;B C2B IMM1PMPC2B I

.1_

G  : B6166 LMMICV1406 i CV1415 I LMMICV14D6 BM G B6166 LMM1CV1406 G

I___

B6164 I......

LMM1CV1408

._ _..L___

Prepared by J. M. Walker Page 58 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G 1 86164  ! LMMlCV1408i B PS5436 MMM1PMPC3B B j TS5407 MMM1PMPC3B I B B2145 ' MMM1PMPC3B 1

__ I _ __ _ _ I 8B C38 MMM1PMPC3B I B I C3B I MMMI PMPC3B 1 G C187 1Q831-2618N

_ __ I G C187 Q811L2622N I G C187 0B11L2667N l G C187 QBI1L2671N A 108 QCD172108R I

0 B - A206 0QD172206R I B A208 I QCD172208R G I 17 CI Aa~-

G C187 QLC11NAPXD

_ G ___. ...........

! G i C87l iQLC11NA)(XD r G I Ci 87 QLC1 INBPXD jI G C187 C QLCI INCPXD G 087 C QLCI INDXXD G l C187 1 QMMl12450/

Prepared by 1. M. Walker . Page 59 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

G f C187 l QMM126450A G LT2624 , QMM126450F l GC8 _ MM126470A G C187 i QMM126470A G 2C1873 QMM126470A.

_ _ ___ i _ _ _ _ _ _ _ _ _I _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ I G LT2673 QMM126470F G j LT2671 QMM126470F G C187 QMM1L2617H G , C187 QMM112618H G t C187 QMM1 L2618H I. ,

G .... __ ___._

C187 I.......

QMM1L2622H -

_ __  ; a G C187 QMM1L2626H I G C187 QMM1L2621H I G t C187 1..

QMM1L2622H 1

G  ; C187 QMM1L2624H i G l LT2624 ' QMM1 L2624H I

..______________ ______. _________________________ I..

G G C187 LT2671 ' QMM1L2668H QMM1L2671H C187 QMM1L2668H G , C187 I QMM1L2669H

___ . __ t _ _ __

G l LT2671 j QMM1L2671H i G .j C187 i *QMM1 L2672H I

--- >- -!.1 G C1 87 QMM1 L2672H G C187 tQMMIL2673H

___ I___ .__

Prepared by J. M. Walker Page 60 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

G 1LT2673 QMM1L2673H  !

G C187 MMIMSAATP G ,C187 I QMMIMSABTP i C187 I QMM1MSBATP G C187 _l QMM1MSBBTP G B6124 QMMIMSLIBA ]

G CV2630 QMM1MSLIBA G CV2630! QMM1MSLIBF j I iI G C187 QMM1P2617A G C187 QMM1P2617A

_______ _ __ i__

G I C187 QMM1P2617B _

G C187 QMM1P2617BA CG 187 QMM1P2618A G C187 QMM1P2618A G P 0187 QMM1P2618B G i C187 jQMMlP2618B G jPT218B QMM1P2618B 6 G 0TC187 QMM1P2667A

_ _ _ _ _ _ i

  • i _ _ _ _ _ _ _ _

C187 CMM1P2667BA Q

i , Q667B I I G iPT2667B IQMM1P2667B i G 0187 ,QMM1 P2667B Prepared by J. M. Walker Page 61 Ca'c 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

G C187 i QMMIP2668A G C187 C I QMM1P2668A

__ t G. C187 I QMM1P266B

__ _ _ _ _ . _ _ .. _ . _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ I C187 CG QMM1P2668B Q I G P7A QMMI P7ATRA G P7A QMM1P7ATRF G CV2613 QMM1TBSADMi G

.__________.__ CV2613

________ i QMM1TBSADM __J__________

G C187 QMM1TMAEFW I _ ~j

G l C187 QMM1TMAEFW G C187 ' QMM1TMBEFW I

' _G C187 _QMM1TMBEFW G

_ -1 C187 , QMM1TMBEFW I G ji 87 IIQMM1TMBEW I G C187 , QMM1VMAORD G C187 QMM1VMBORD r__ _* __ _._____.__

G C187 QMM1VMBORC G* ,

l0187  ! QMM1VMBORC  ;

i B B SVO611 SO618 j1 QSV100611C SVIVD621C B I SV0621 QSV100621C I L.___ l B SV0711 QSV100711C I

B lSV0721 lQSV100721 C*'

._ _ _ _ _ _._ . I.. .

Prepared by J. M. Walker Page 62 Calc 02-E-0004 -02, Rev. 0 Reviewed by M. Lloyd

jCV2613 QSV1O2613N G j CV2613, QTD1C2613F G B6142 jRMMI B1000C l G jvoo RMM1*iO0iC I G CVI000 RMMIBIOOOC I t .

G RMM1CV1000

.' _ _ _ _ _ _ _ _ _ ... I...

G B6142 RMM1CV1000 CV000 IMM1CVI 000 R 1 G A403 SCB1A403XR G 1. CV3841 I SMMIAV3841 G i CV3841 SMM1AV3841 G I CV3821 ,SMMIE35BSW i I !V G  ! CV3821 SMM1E35BSW I _

G B6183 SMM1E35BSW G B6183 SMM1E35BSWI

-- _. ....... LL _ _ ....._____ ____ .. ........ __I G j A403 SMM1P4BXXA B j CV3811 SMM1 S21CWH B i CV3811 I SMM1S21CWHi B I B6182 SMM1S21CWH F B CV3811 j SMV103811 K i~ "I.I B  ; CV2241 XAVI2241K B - SV2252 XMM1CWC2BFj Prepared by 1. M. Walker Page 63 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

B i SV2254 XMMICWC2BF

_ _ _ i _ __ _ __ I B SV2252 XMM1CWC2BF B _ SV2254 } XMMICWC2BF B SV2250 XMMI CWC3BF I _ _

B

_ I!SV2250 _ _

XMM1CWC3BF

_ I B  ; SV2229 XMMITKBLVL i

.. _ __ SV22 29_ ..

SV2229 XMMITKBLVL

-I B i B PPS2229 XMM1TKBLVL B I SV2228 I XMM1TNKLVL T B}PDIS228

!XMM1TNKLVL

, *1 B i SV2228 XMMlTNKLVL l

_; C ____KV t B CV2228 I XMMITNKLVL iB I CV2228 XMM1TNKLVL B Y0209 I XMM1 TRNBPC T

____ I _ __-____

Prepared by J. M. Walker Page 64 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 6 List of Basic Events for the 98-3 West End (I -EJ0212) of the Room Baseline

, ra X

_______________.7. E ;2I v .AAa -91i-i-g--2 B j PT1020 AMM1A1TBIF G PT1022 AMMIA2TBIF G D2114 DCD12114XR

-, B B5622B DMM1000DO5 B D05 DMM1000D5 l B D05 DMM1000D05 G 1 D0221A DMM1000D25 G D25 DMM100OD25 G B6121A DMM1Y22AAC G I B6121B DMM1Y221AC L G j K4B EDG1A4XXXO I G K4B EDG1DG2XXA G , K4B EDG1DG2XXF

_. . EMMCB1 __...

B H13 EMM1CB13XX i H13 EMMlCB13XX i I _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

G A408 EMM1CB408X G A408 EMM1CB408X:-

B I SV5237 EMMIDG2SAC B SV5239 EMM1DG2SAD I . . . _ __ _ _ __ _ _ _ . . . __ __ __ ____ - ..._.

G j B6231 EMM1DG2SWC G CV3807 EMM1DG2SWC I

  • G 1CY3807 EMM1 DG2SWC ...

B H1 EMM1H1XXXX B H1 EMM1H1XXXX G B66122 EMMIRMCLCA

, _________ I-_ _____ ____._____ _ _ _

1 B I TS7903 EMM1RMCLCA G VEFM24C EMM1RMCLCA L _ _ _ _ __ _ _ _ _ _ _ __ _ _

Prepared by J. M. Walker Page 65 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

I G j VEFM24C EMM1RMCLCF G G B6123 EMM1RMCLDA B TS7904 EMM1 RMCLDA G VEFM24D EMM1RMCLDA G I VEFM24D EMMIRMCLDF B H13 ERE1i3SRXR G K4B EREDG2LXK G K4B ERE1DG2UXK B

  • HI EREIH11UXE B j HI ERE1H11XUE B Hi ERE1HiLXXK B B1232 FCB1B1232R j B B1233 FCBiB1233R B B2232 FCBiB2232R B B2233 FCBlB2233R B E/P2622 FMMICV2622 B .B5254B FMMlCV2624 ICV2624 . FMMICV2624 B CV2624 FMMlCV2624 B CB6254A FMMICV2625 B CV2625 l FMMICV2625 B CV2625 MFMMlCV2625 I B ECP2672 FMMICV2672 B B6254B FMMlCV2674 I CV2674 FMMlCV2674 B CV2674 FMM1CV2674

_ _ _ _ _ _ _ _ I _ _ _ _ _ _ _ _

B B5254A FMM1CV2675 C__V6 __1 _Fl_ ._2 B , CV2675 FMMlCV2675 B P DT270 FMM1CV2675

__ ... _.I . __ __._ ___.

B IPDT2700 FMM1FWP1AF '

Prepared by J. M. Walker Page 66 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

B TBWE6620 FMM1FWP1AF B , _ _ _ _ _ _ _

B TBWE6620 FMM1FWP1AF B PDT2701 FMM1FWP1BF B TBWE6608 FMM1FWP1BF

........ I _ _ _......._ ,,_

B J TBWE6608 FMM1FWP1BF B  ! PDT2700 . FMM1ICSCOM I B l PDT2701 FMM1ICSCOM B

  • E/P2623 FMM1SGASUC B ,LT2653 FMMISGASUC B LT2653 FMM1SGASUC

,2 ,F l1 G ' CV2630 FMM1SGBBVC G _ CV2630 FMM1SGBBVC C B ,EP2673 FMM1SGBSUC <

B I LT26t3 FMM1SGBSUC B B L2553 FMM1XTIEVF B l CV827 FMM1XTIEVF B CV2827 FMM1XTIEVF I B CV2827 FMM1XTIEVF  !

B I B61103 GMMITRAN2M

!_B I CV3813 GMMTRAN2Mi

.. ____.__ B I____ CV3813 ______ GMM1TRAN2M __ _,_,

IB 3B6222 GMM1VSF1CM B B6232 GMM1VSF1CM B I

.. _ CV7472

___ _ GMMIVSF1CM B lV7412 S GMM1VSF1CM B SV7412 GMM1VSFICM I____ B jVSF741 _ ____ GMMIVSFICM _

B VSF1IC GMM1 VSF1 CM

_ B ____________i VSFIC

.___________________ GMMIVSFICM B B6252 GMM1VSF1DM

_ _ _ j _ _ .. . - _ _ _ _ _ J Prcpared by J. M. Walker Page 67 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B l B633 GMM1VSFIDM B  ! CV7473 GMM1VSF1 DM j B . SV7413 GMM1VSFIDM B S413 GMM1VSF1DM B jVSFID GMMVSFIDM B VSF1D GMM1VSF1DM j B CV1206 HMMICV1206 B B6194 HMM1CV1300 B

________..... 5B61 94

_~-

HMMICV1300

_..~.__________

_ _B l CV1300 HMMlCV1300 _

j B I CV1300 HMM1CV1300  !

G B6151 HMM1lMU1214 G CV1227 HMMlMU1214 l G jCV1227 HMMlMU1214 G Ii..... B6152

.__.__.__________.._______._, .. _______________________ HMM1MU1215 G 5 CV1228 HMM1MU1215

' G CV1228 HMM1MU1215

}______________.______________L__

B B61105 IMM1PMPC2B i_. _. __._ _ ____ ____._

I B C2B IMM1PMPC2B

,.~~~~~~~~~~~~~~__. ___....... ____

B G , C2B IMM1PMPC2B 8

BCB CV5422 IMM1PMPC2B IMMIPMPC2B l B SV52B IMM1PMPC2B i B i PS5432 IMM1PMPC2B

___ B_ _ TS5403 _ IMM1PMPC2B B j SV1432 LMM101432R

! G 1 B6166 LMM1CV1406 j

_,_._ GB6166 __ _ .1 ._ LMM1CV1406 _.,__ __ 1 G CV1406 LMM1CV1406 G I CV1406 LMM1CV1406 I_ CV1_ 5 _. _ _._

B ICV1415 i LMM1CV1406 i

__ __;__ _ I _ _ _ _ _ _ _

Prepared by J.M. Walker Page 68 Cafc 02-E-0004-02, Rev. 0 Reviewed by M. lUoyd

G B6164 LMMICV1408 G T B616i LMM1CV1408 G I CV1408 *LMMlCV1408 G CV1408 LMM1CV1408 I _ B24_ ___J_____

B B2145 MMMIPMPC3B B j C3B I. MMM1 PMPC3B B j C3B MMM1PMPC3B B j PS5436 MMM1PMPC3B B TS5407 MMM1PMPC3B I A108 QCD172108R l B A206 QCD172206R

~______._ . ____ _4_ _ __ _ _

B A208 QCD172208R I_ ... .___.__

G CV2645 QMM126450F G jLT2624 QMM12645OF G CV2647 i QMM126470F l G LT2671 QMM126470F r __________________________

f G  !

LT2673

?_________

QMM126470F

______?_____________________

G i LT2624 QMM11L2624H G I LT2671 QMM1 2671 H G LT2673 QMM112673H G B6124 QMM1MSLIBA G 1CV2630 QMM1MSLIBA

________ _______.___ E ___________

G I CV2630 QMM1MSLIBF

  • G PT2618B QMM1P2618B
_ __ _ ._ __ _ _____ -_ ---- 3 G  ? PT2667B - QMM1P2667B G CV2802 QMMIP7ATRA G I P7A QMM1P7ATRA G P7A QMMiP7ATRF G CV2645 QMM1SGAP7A G 1 CV2670 QMM1SGAP7B I _..._...___ _ ___ _ _ _ _ _ -__ __ _ _ _ _ _

Prepared by J. M. Walker Page 69 Calc 02-E-0004-02, Rev. 0 Re-dewed by M. Lloyd

G CV2670 QMM1SGAP7B f -. _ _ _- _ _______. _________________

G CV2647 QMMtSGBP7A G CV2626 QMM1SGBP7B G CV2626 QMM1 SGBP7B =

G CV2617 QMM1SGBSTM

.G ' CV2613 QMM1TBSADM G CV2613 QMM1TBSADM r B i SVO611 QSV100611C B SV0621 QSV100621C B SV0711 QSV100711C B . SV0721 QSVIO0721C G I CV2613 l QSV1O2613N G CV2613 - QTD1 C2613F B6142 RMM1B1000C G CV1000 RMM1B1000C G

G

, CV1000 142 I............... RMM1B1OOC RMM1CV1000 G MCV 000 j RMMlCV1000 G , CVIO00 RMM1CV1000 G A403 SCB1A403XR _

_ _G l CV3841 SMMIAV3841 G CV3841 SMM1AV3841

,_ _ _ _ _ _ I ._ __ _ _____.___ _____

G I B6183 SMM1E35BSW G_ . SMM1E35BSW G B6183 SMM1E35BSW i~_ ._ _ _ ._._

.I................ . _ ___

G j CV3821 SMM1E35BSW G CV3821 SMM1E35BSW G i A403 SMM1P4BXXA B B6182 SMMIS2lCWH i

, _ _I__ _ __ _ _ .__

B CV3811 SMM1S21CWH B j CV3811 SMMlS2l Prepared by J. M. Walker Page 70 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

L iB CV3811 SMV103811 K B CV2241 XAVI02241 K B SV2252 XMM1CWC2BF B SV2252 XMMICWC2BF B SV225- XMMICWC2F J B SV2254 XMM1CWC2BF

.. SV2250 _ _ _ _ _ __ I B SV2254 XMM1CWC2BF .j B SV2250 XMM1 CWC3BF B SV2250 XMMICWC3BF B PS2229 XMM1TKBLVL B I MMTKV B ICI-2 SV2229 XMM1TKBLVL I,

B CV2228 S _ XMM1TNKLVL ._..

B CV2228 XMM1TNKLVL L l CVPI2228 L_______

Y20_____ XMM1TNKLVL i i^ .___,______

i B jSV2228 l XMM1TNKLVL.

L B _ SV2228 l l

XMM1TNKLVL XMM1TRNBPC t B 1 Y0209 Prepared by 1. M. Walker Page 71 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 7 List of Basic Events for the 98-J West End (2 - Remainder) of the Room Baseline I B _ j A108 j QCD172108R B A206 I QCD172206R B A208 QCD172208R B I B1232 tFCB1 B1232R B B 81233 I FCB1B1233R B B2145 j MMMIPMPC3B B B2232 1 FCB1 B2232R B B2233 FCBI B2233R B 82553 8  ! FMM1XTIEVF B B5254A FMM1CV2675 B B5254B FMM1CV2624 B B5622B , DMM1000D05

.L_____ __ ____....._ _._ __ _ .I 8 B61103 GMM1TRAN2M B B61105 IMM1PMPC2B B B6182 SMM1S21CWH

- B  ! B6194 HMM1CV1300 B  ; B6194 . HMM1CV1300

~~i_ __ ___ .__ .. ..............

1 8 ' B6222 . GMM1VSF1CM B

t~~~~~~

B623 X._

GMM1VSF1CM I L B B6252 GMM1VSF1DM 3 B I B6254A  ! FMM1CV2625 B B6254B i FMMICV2674 I B B633 GMM1VSF1DM B C2B1 IMM1PMPC2B B C2B IMM1PMPC2B

_MM ___. __ _ ._____ l

__ . 3 B C3B MMM1PMPC3B B i C3B , MMM1 PMPC3B I r_____.___ I _ _ __ . ___ _ _ _ __ _ _ _ ___=____

B CV1206 - HMMICV12D6 I B CV1300 I HMM1CV1300 8 CV1300 i HMM1CV1300 B , CV1415 I LMM1CV1406 B CV2228 j XMM1TNKLVL B CV2228 XMM1TNKLVL Prepared by J. M. Walker Page 72

  • Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B CV2241 __ XAV102241K.

B j CV2624 FMMICV2624 .

B CV2624 FMMICV2624 I B CV2625 FMMICV2625 j B ' CV2674 . FMM1CV2674 B 1CV2674 FMM1CV2674 B CV2675 FMM1CV2675 B CV2675 FMMICV2675 j B j CV2827 FMMIXTIEVF B CV2827  ! FMM1XTIEVF B CV2827 FMM1XTIEVF B

I r CV3811

_W__ ___

SMM1S21CWH

_ _ __ _ _ I B I CV3811 SMM1S21CWl B CV3811 SMV10381I1 K B CV3813 GMM1TRAN2M B t CV3813 GMMITRAN2M B CV5422 IMM1PMPC2B B l CV7472 I GMMlVSF1CM B CV7473 GMM1VSF1DM I. j B..__ _ I _._ D5 _ j . _ DMMlIOOOD05

- ___ _ f B ' D05 i DMM1000D05

- B E/P2622 FMM1CV2622 i B E/P2623 i FMM1SGASUC B E/P2672 FMMICV2672 B jE/P2673 FMM1SGBSUC B I H1 i EMM1HIXXXX I

..L_ _ ----._ -'

I B H1 EMM1H1XXXX I _B i Hi . ERE1H11UXE B f H1 ERE1H11XUE

B H EREIHILXXK B H13 j EMM1CB13XX -

V B j H13 t EMMlCB13XX B H13 ERE113SRXR I B LT2613 j FMM1SGBSUC j B

BLT2653 A .MM1_GAC LT2613 FMM1SGBSUC I

i B LT2653 i FMM1SGASUC

-B LT2653.-- FMM1SGASUC -_ ____

_____ L_ _____ ____ - .  ; _._

Prepared by J. M. Walker Page 73 Calc 02-E-0004-02, Rev. 0 Rcviewved by M. Lloyd

B PDIS2228, XMM1TNKLVL '

B PDT2700 I FMM1FWP1AF iPDT2700 FMM1 ICSCOM B ,_PDT2701 FMMIFWPIBF

[ _ _-___,

B ._PDT2701 __FMM11CSCOM

_ _ I B PS2229 i XMM1TKBLVL B PS5432 IMM1PMPC2B B I PS5436 j MMM1PMPC3B B PT1020 AMMIA1TBIF B SVO611 QSV1006I1 C 1' B iSV0621 QSVi 00621 C i B SV711 QSV1007161 C B SV721 QSV100721C B SV1432 LMM101432R rB I SV2228 _ _XMM1TNKLVL_!

  • __._ B _____ SV2228 _.______ XMM1TNKLVL ____ 7 I B _ SV2228 XMMITKBLVL 1 B i SV2229 XMM1TKBLVL B ' SV2250 , XMM1CWC3BF B SV2250 XMM1CWC3BF B SV2252 XMM1CWC2BF B SV22521 XMM1CWC2BF I B SV2254 XMM1CWC2BF I

B SV2254 I XMM1CWC2BF B j SV5237

  • EMM1DG2SAC r SV5239 EMMIDG2SAD j B , SV5422 I IMMIPMPC2B B SV7412 GMM1VSF1CM I_ _ ._ _ _. ._ ...

B !SV7412 GMM1VSFICM B ' SV7413 j GMM1VSF1DM I B SV7413 GMM1VSFIDM i

-_ i TBWE6608 FMM1FWPBF B i TBWE6608 FMMIFWPIBF IB I TBWE6620

__WE60 . _ F_

FMM1FWPIAF

____i B TBW6620, FMM1FWP1AF B 1TS5403 I IMM1PMPC2B B TS5407 i MMM1PMPC3B I I B I TS7903 EMMIRMCLCA I

__ _ _ _ _ _ ___ __ _ I Prepared by J. M. WaLker Page 14 Calc 02-E13O004-02, Rev. 0 Reviewed by M. Lloyd

B ,TS7904 . EMMIRMCLDA B  ! SF1C GMM1VSF1CM j B VSF1C GMM1VSF1CM_ _

B VSF1D j GMMIVSF1DM B j VSFID j GMMIVSFIDM B Y0209 I XMM1TRNBPC G I A403 , SCBIA403XR G A403 SMM1P4BXXA G  ! A408___

A408  !

_EMlC EMM1CB408X X_ _

G i A408 , .EMM1CB408X G B6121A DMMIY22AAC G B6121B DMM1Y221AC G B6122 , EMM1RMCLCA G B6123 I EMMiRMCLDA I IG B6124 QMM1MSLIBA G B6142 RMMIBI1OOC

' BG 6142 RMM1CV1000 G 88151 HMM1MU1214 G B6152 HMM1MU1215

. G I B6164 LMM1CV1408 G= BLMM1CV1408 G B6166 I LMM1CV1406 G B6166 I LMM1CV1406 G B6183 SME35BSW G B6183 SMM1E35BSW G B 86231 I EMM1DG2SWC

'S. -s_*_-__-___

G j CV1000 RMM1BIOOOC G CV1000I RMM1B1000C G CV1000  ! RMM1CV1000 G ' CV1000 ' RMM1CV1000 G C1227 1 HMM1MU1214 G i CV1227 HMM1MU1214 G i CV1228g HMM1MU1215 G CV1228 HHMM 1MU1215 i G CV1406 , LMMlCV1406 G *' CVl406 - LMMlCV1406 1

_ G _ _CV1408, LMMlCV1408

, 4 MI G_______ , _______

CV1408____j_,' __MM1CV1408____

__. .. __________________ ________________________J____________________

  • Prepared by J. M. Walker Page 75 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

i G

I CV26131l QMM1TBSADM I G CV2613 QMM1TBSADM G j CV2613 QSVI02613N G CV261 3 TD1C2613F G  ! CV2617 QMM1SGBSTM G CV2626  ? QMM1SGBP7B

! G CV2630  ! FMM1SGBBYC G iCV2630 FMM1lSGBBVC

_ G j _CV2630_l QMMIMSLIBA f G  ! CV2630 QMM1MSLIBF G l CV2670 QMMISGAP7B G CV2802 QMM1P7ATRA

___ ___  !. _._ 4 _ _ _ _ _ _ _

G .- CV3807 f EMM1DG2SWC G CV3807 , EMM1DG2SWC G CV3821 SMM E35BSW i G

______________________-_,. i CV3821-. I SMM1 E35BSW I G - CV3841 SMM1AV3841 G j CV3841 SMM1AV3841 G D0221A , DMM1000D25

? G D2114 t DCD12114XR G D25 i DMM100OD25 I~~~~ ________..._____________________

i_________

G K4B EDGIA4XXXO G j K4B EDGIDG2XXA G K4B  ! EDG1DG2XXF G , K4B I EREIDG2LXK j G K4B1 ERE1DG2UXK G LT2624 QMM126450F G LT2624 QMM1L2624H1 i___ __;_

_ I....

G LT2671 j QMM126470F G LT2671 j QMMlL2671H G ILT2673 QMM126470F j G LT2673 QMMIL2873H i G P7A QMM1P7ATRA G P7A QMM1 P7ATRF i

G PPTi0 AMMIA2TBIF I G PT2618B j QMM1P2618B G PT2667B QMM1P2667B G___ VEFM24C EMM1R_ _

i G iVEFM24CI~ EMM1RMCLCA .

Prepared by J. M. Walker Page 76 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

[ G . VEFM24C I EMM1RMCLCF m I G I VEFM24D i EMMIRMCLDA I I I L

_G IV EFM24D EMM1RMCLDF j R l B5231 EMM1DG1SWC

._Ri CV3806 j EMM1DG1SWC i

[ _R CV3806 EMMlDG18WC L _ _ .1 Prepared by J. M. Walker Page 77 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 8 List of Basic Events for the 98-J West End (2 - Remainder) of the Room Red Train Wrapped B j A108 I QCD172108R B A206 QCD172206R B A2 08 , QCD172208R 1

_- _ . _ ___i__ _. __ _ . __ _ . I B B1232 FCB1B1232R j B I B1233 I FCB1B1233R B B2145 MMMIPMPC3B j B

i _____________

B2232 L. . 1 .-

FCB1B2232R j B j B2233 FCB1B2233R B I B2553 FMM1XTIEVF B I B5254A FMM1CV2675 B B5254B FMM1CV2624 B B5622B DMM1000D05 F _ I B B61103 GMMITRAN2M B I, B61105 IMM1PMPC2B B 86182 B j SMM1S21CWH

._.B614HMM _______.____ IC 0:

B I B6194 HMM1CV1300 B B6194 HMM1CVI300 i B I B6222 GMM1VSF1CM l-B - B-623 GMM1VSF1CM B f B6252 i GMM1VSF1DM B T B6254A FMM1CV2625 1 I _ _ _ _ .. _ I i__ _ _ _ _ _

B B6254B - FMM1CV2674

  • B . B633 GMMIVSF1DM B C2B IMMIPMPC2B B 1 C2B IMMlPMPC2B B I C3B MMM1PMPC3B B C3B MMM1 PMPC3B B T CV1206 . HMM1CV1206

____._.._._L________ __________

Prepared by J. M. Walker Page 78 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B CV1300 l HMM1CV1300 j B CV1300 HMM1CV1300 B CV1415 LMM1CV14D6 B CV2228 XMM1TNKLVL B jCV2228 XMM1TNKLVL B CV224 XAV1O2241K i

. B I CV2624 f FMMlCV2624 B CV2624 T FMM1CV2624 B l CV2625 l FMM1CV2625 I B CV2625 FMM1CV2625

_ .7FMlC CV -267 B CV2674 FMMICV2674

,I ___ _ ... __L___'___.,_

B 6 CV26745 FMM1CV2674 r

B CV2675 FMM1CV2675 j

6 _ __. . _ _ __ _ _ __ _ _ _ __ _

B CV2675 , FMM1CV2675 j i __ B __ ,,_ CV2827

!. __ FMM1XTIEVF B I CV2827 I6 FMM1XTIEVF B l CV2827 FMM1XTIEVF B I CV3811 , SMMIS21CWH

  • I _ _- _ . _ _ _ __ _ _..__ _ __ _ _ _ ._

B CV3811 SMMIS21CWH B CV3811 I SMV103811K B CV3813  ! GMMITRAN2M B __!CV3813 GMM1TRAN2M r B I CV5422 l IMM1PMPC2B B CV7472 GMMIVSFCM B CV7473 I GMMIVSF1DM L. .________ _________

B D5b,

0. DMM1000D05 B D05 DMM1000D05 B E/P2622 j FMM1CV2622
  • B ,EIP2623 FMM1SGASUC B E/P2672 f FMMlCV2672 B ,-E/P2673 I FMM1SGBSUC I i .___ . . . _ _ ___

Prepared by J. M. Walker Page 79 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

B J H1 EMM1H1XXOX l B H1 EMMIHI)O1XX B i H1 j ERE1H11UXE B  ! HI i EREIHI1XUE B H1 ERE1H1LXXK B H13 EMM1CB13XX B H13 E EMM1CB13XX B H13 ERE113SRXR B LT2613 FMM1SGBSUC B LT2613 I FMM1SGBSUC i B I LT2653 l FMM1SGASUC

~ _ __ _ . .. _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _

B LT2653 l FMM1SGASUC B I PDIS2228 XMM1TNKLVL B , PDT2700 FMM1FWPIAF B  ; PDT2700 FMM1iCSCOM iB ;PDT2701 1 FMM1FWP1BF I _ _ _i, _ _ _ _ _ _ _ _ _ _ _ _ _ _

B PDT2701 I FMM ICSCOM

____; _ _ I ______ _ !__

B j PS2229 XMM1TKBLVL B j PS5432 , IMM1PMPC2B B I PS5436 MMMIPMPC3B B PT1020 AMM1AITBIF F- __ _ _ _ _____ . . _ __--:

  • B I SVD611 QSV100611C B SV0621 QSV100621 C B I SVO711 I QSVI00711C

_ _ _ _ i _ _ _ _ I _ _ _ _ _ _ I, B j SV0721 QSV100721C-B SV1432 j LMM101432R F--- *;rlNK_

B ISV2228 I XMM1TNKLVL B SV2228 I XMM1TNKLVL B

B SV2229 SV2229 I

XMM1TKBLVL XMM1TKBLVL -i B SV2250 I XMMICWC3BF Prepared by J. M. Walker Page 80 Calc 02-E-0004-02, Rmr. 0 Reviewed by M. Lloyd

B - SV2250 j XMM1CWC3BF I _ _ SV2252 _ , _ . . .. . .... .. ..

B i SV2252 XMM1CWC2BF I

J i1 _ _ I _ _ _ _ _ _ _

SV2252  ! XMCCB B SV2254 1 XMMICWC2BF I . _ ,_ . _I_ .__

B SV2254 XMM1CWC2BF

. B SV5237 EMM1DG2SAC

  • . ___ __ _ l. _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ __ _ _ _ _

I B SV5239 EMM1DG2SAD B SV5422 i IMM1PMPC2B B SV7412 GMM1VSF1CM B SV7412 GMM1VSF1CM I B SV7413 1 GMM1VSF1DM

. ~~_._ __ _,.__ _ ____

B SV7413 GMM1VSF1DM B T TBWE6608 FMM1FWP1BF B TBWE6608 FMM1FWP1BF B ITBWE6620 j FMMIFWP1AF B TBWE620 FMM1FWP1AF i B I TS5403 IMM1PMPC2B

~~~~~~)____.__._ __.................. ._..........___ ___._________

B

  • TS5407f MMM1PMPC3B B i TS7903 EMM1RMCLCA.

B TS7904 EMM1RMCLDA r -- _ _ ____._._ _

VSF1C GMMIVSFICM i B I VSF1C GMM1VSFICM B j VF1 t GMM1VSFIDM

  • B IVSF1D GMM1VSFIDM B Y0209 j XMM1TRNBPC G ' A403 SCB1A403XR I _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ____ _ __

G A403 SMM1P4BXXA G A408 EMM1CB408X G A408 l EMM1CB408X G l B6121A I DMM1Y22AAC G B6121B I

DMM1Y22IAC  !

i__

Prepared by J. M. Walker Page 81 Calc 02-E.0004-02, Rev. 0 Reviewed by M. Lloyd

G B6122 EMM1RMCLCA G 66123 I EMMIRMCLDA G i B6124 QMM1MSLIBA i _. -__ 1 __ ___ __ _ _ _ _ _ _ _ _ _ _ _ _ _

G B6142 RMM1B1OOOC G B6142 RMMICV1000

_- G 7, B6151

14. __________________

HMMlMU1214

. G B6152 HMM1MU1215 G 86164 B l LMM1CV1408 G B6164 LMM1CV1408 G 66166 B I LMMlCV1406 G 66166 B LMM1CV1406 G r B6183 , SMMIE35BSW G B6183 ., SMMIE35BSW G B6231 1 EMM1DG2SWC G

G j_CV1000 CV1000 i

_ LMM1_

RMM1BIOOOC RMM1 B1000C

__ ___ _ I __ ._ __ _ _ _!__ _

G CV1000 RMM1CV1000 GCV RMM1CV1214 G I CV1227 ' HMMIMU1214

  • G I CV1227 I HMM1MU1214 G CV1228 HMMlMU1215 G CV1228 HMM1MU1240 L

i_ _ _ _ .__ _ _ _ _ _ I _ _ _ _ _ _ _ _

G CV1406 I LMM1CV1406 I G CV1408 LMM1CV1406 G CV1408 I LMM1CV1408 L. ._,_____ ..

G e.CV1408 i LMM1CV1408 j r-G tCV2613 ! QMM1TBSADM j I _

G -CV2613 QMM1TBSADM

__ _ _ _ _ _ __ _ _ _ _ _ _ _ __.. _ _ _. _ _ _ I..

G CV2613 QSViO2613N G CV2613 j QTD1C2613F

! G G -i!

CV261 CV2617 l

QMM1SGBSTM j Prepared by J. M. Walker Page 82 Calc 02-E-0004.02, Rev. 0 Reviewed by M. Lloyd

CV2626 QMMISGBP7B 1 G CV2630 FMMISGBBVC G CV2630 , FMM1SGBBVC G CV2630j QMMIMSLIBA I G . CV2630 QMMIMSUBF G CV2670 QMM1SGAP7B CV2802 QMM1P7ATRA G CV3807 EMMIDG2SWC G I CV3807 I EMMIDG2SWC

_ _ _ _!_ _ _ I rG G

, CV3821 CV3821 i,

I SMMtE35BSW SMM1E35BSW -

G CV3841 SMM1AV3841 G i CV3841 i SMMIAV3841 G D0221A , DMM1000D25 G D2114 DCD12114XR i G i D25 DMM1O0D25 G K4B I EDGIA4XXXO G K K4EB EDGb1DG2XXA I I _

G j K4B I EDG1DG2XXF J

G i K4B ERE1 DG2LXK G K4B1 ERE1DG2UXK I

- --- LT2624- - MM126450F G LT2624 I QMMIL2624H G  ! LT2671 QMM126470F G LT2671 QMM1L2671H i----

LT2673 QMM126470F

_,....__J._____ ..... _~

G LT2673 QMM1L2673H G i P7A j QMM1 P7ATRA b__

G P7A

_ _ _ _ I i

QMM1P7ATRF G PT1022 AMM1A2TBIF i,__ _ ___ MM P26B_-

i G i PT2618B QMMIP26I8B Prepared by J. M. Walker . Page 83 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

I G

I PT2667B i QMM1P26678 G i VEFM24C I EMM1RMCLCA I

_ _ _ I _ _ _ _ _ _ _ I i G )VEFM24C I EMM1 RMCLCF i G I VEFM24D EMM1RMCLDA I .

X I .I__

G I VEFM24D EMMIRMCLDF i LI _ I I Prepared by J. M. Walker Page 84 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

III -II ATTACHMENT 9 Super C listing of Model Changes for 98-J East Side Model 30060 OR 30062F 30110 QCV1FW56AN HSCV2800 30P7B.AMAN CNTVLV2 1880 INSERT(NEW) 1754 I

30060 OR 30062F 30110 QCVIFW56AN 30P78AMAN 1881 DELETED(OLD) 1754

.D CNTVLV2 AND QHFPWRSHT HSCV2646 1891 INSERT(NEW) 1763 30090 OR 30092F 3Q110 , QCV1FW56BN 30P78-BMAN HSCV2800 CNTLVLV 1892 INSERT(NEW) 1764 30090 OR 3Q092F 3Q110 QCV1FW56BN 3QP78.BMAN 1893 DELETED(OLD) 1764 CNTLVLV AND HSCV264648 QHFPWRSHT 1899 INSERT(NEW) 1770 Prepared by J. M. Walker Page 85 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 10 Super C listing of Model Changes for 98-J West Side (1) Model 30070 OR 30080OPP4 300700PF2 30070NOPR HSCV2645 1670 INSERT(NEW) 1608 D 30070 OR 300800PF4 3Q0700PF2 3QO70NOPR 1671 DELETEO(OLD) 1608 30080 OR 300800PF4 303000PF2 3Q080N0PR HSCV2647 1797 INSERT(NEW) 1720 D 30080 OR 300800PF4 300800PF2 30080NOPR 1798 DELETE0(OLD) 1720 30060 OR 30062F 30110 QCV1 FW56AN 3QP7B-AMAN HSCV2670 1835 INSERT(NEW) 1754

.00 30060 OR 30062F 30110 QCVI FW56AN 3OP7B-AMAN 1836 DELETE0(OLD) 1754 .

30090 OR 30092F 30110 QCVIFW5s6BN 30P78BSMAN HSCV2628 145 MNSERT(NEW) 1784 1

30090 OR 30092F 30110 QCVIFW56BN 30P78-BMAN 1848 DELETEO(OLD) 1764 Prepared by J. M. Walker Page 86 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 11 Super C listing of Model Changes for 98-J West Side (2 - Remainder) Model I - 30060 OR 30062F 30110 OCVIFW56AN 3OP78.AMAN HSCV2670 1836 INSERT(NEW) 1754 D e 30060 OR 30062F 30110 QCVIFW56AN 30P78-AMAN 1837 OELETEO(OLD) 1754 I

  • 30090 OR 30092F 30110 QCV1FW56BN 3QP7B-BMAN HSCV2626 1846 INSERT(NEW) 1784 D - 30090 OR 30092F 30110 QCV1FW56BN 3QP78.BMAN 1847 DELETED(OLD) 1764 Prepared by J. M. Walker Page 87 Calc O2-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 12 Estimation of the Probability that a Hotshort will Close CV-2645, CV-2646, CV-2647 or CV-2648 CV-2646 and CV-2648 are both normally-open solenoid-operated valves (SOVs). The inadvertent closure of either valve will cause the loss of flow from one EFW pump to one Steam Generator. The control power cables for CV-2646 and CV-2648 both run through zone 98-J.

The motive power cables for these valves are conservatively assumed to be unaffected by the fire, since loss of its motive power will cause these valves to fail open. The control cable for each valve contains two conductors (FI and F2). The two conductors form a current loop through the valve controller. The current flow in the loop modulates the valve position. When the current is 4 ma or less, the valve is fully open; when the current is between 4 ma and 20 ma, the valve is partially open; and, when the current is 20 ma, the valve is fully closed.

The fire is assumed to independently affect the cables and, as such, they are treated separately.

In addition, it is assumed that one outcome is possible as a net effect of the fire. Given this, there are six possible outcomes of the fire on the conductors of a given valve.

I. [Fl and F2 are not in contact] and [FI is not grounded (i.e., normally energized) and F2 is not grounded (i.e., normally energized)]. For this case, the fire has no effect on the conductors and the valve remains fully open.

2. [Fl and F2 are not in contact] and [fF1 is grounded and F2 is not grounded (i.e., normally energized)]. For this case, the yalve closes.
3. [F1 and F2 are not in contact] and [F1 is not grounded and F2 is grounded]. For this case, the valve remains fully open or opens, if closed or partially closed.
4. [Fl and F2 are not in contact] and [Fl is grounded and F2 is grounded]. For this case, the valve remains fully open or opens, if closed or partially closed.
5. (FI and F2 are in contact] and [F1 is not grounded and F2 is not grounded]. For this case, the valve remains fully open or opens, if closed or partially closed.

6: [Fl and F2 are in contact] and [Fl is grounded and F2 is grounded]. For this case, the valve remains fully open or opens, if closed or partially closed.

Given that the probability associated with each case is not known, it is assumed that each is equally likely. Since only Case 2 results in the valve going closed due to the fire, the probability that the valve will close is estimated to be I in 6 (i.e., 0.167). This value is rounded up to 0.25 for conservatism. It is noted that the assumption that only one outcome is possible as a net effect of the fire is conservative, since most states drive the valve to an open state.

Prepared by J. M. Walker Page 88 Calc 02-E-0004-02, Rev. 0 Rcvicwed by M. Lloyd

Attachment 13 Recoveries The following recoveries were used in the original IPEEE analysis:

AFWFEEDREC OPERATOR FAILS TO START AND ALIGN AFW PUMP P75 AFTER LOSS OF EFW MANESSTART OPERATOR FAILS TO START ES UPON ACTUATION AT PROPER SETPOINT.

QHFI HPITR1 OPERATOR FAILS TO THROTTLE HPI TO PREVENT RCS PRESSURE RELIEF QHF1 HPITRD OPERATOR FAILS TO THROTTLE HPI TO PREVENT SRV LIQUID RELEASE QHFI RCPTRP OPERATOR FAILS TO TRIP RCPS ON 30 MINUTES SGOFREC OPERATOR FAILS TO PREVENT SG OVERFILL DUE TO EXCESSIVE MAIN FEEDWATER FLOW SGOFREC2 OPERATOR FAILS TO PREVENT SG OVERFILL DUE TO EXCESSIVE EFW UHFITHPIAD OPERATOR FAILS TO ATTEMPT HPI COOLING XHF1 SMALLX OPERATOR FAILS TO BEGIN HPR FOLLOWING S-LOCA ICWCLGISO OPERATOR FAILS TO ISOLATE ICW AFTER AUTO SW ISO. FAILS ON ES; MANDREC OPERATOR FAILS TO OPEN BRKR LOCALLY AT Al FROM UAT (A212 OR A21 1)

MANEDGREC OPERATOR FAILS TO MANUALLY CLOSE BREAKER 152-308 OR 152-408 P7AMANREC OPERATOR FAILS TO START AND CONTROL P7A MANUALLY WHEN OFFSITE POWER IS AVAIL.

Note that Section 4.6 of Reference I listed only some of these recoveries; the others were located in the cutset file associated with zone 98-J.

The following post-initiator recoveries were not found in the original IPEEE cutsets for zone 98-J and were set to true in our analysis as well.

OPER-13 OPERS FAIL TO RE-ENERGIZE Al/A2 FROM ST2 GIVEN TRANS EVENT RHF1 BLOCKD OPERATOR FAILS TO CLOSE BLOCK VALVE AFTER PRESS. RELIEF SWECPREC OPERATOR FAILS TO ALIGN SW PUMPS TO ECP UPON LOSS OF SW SUCTION FLOW SWSWINGREC OPERATOR FAILS TO START AND ALIGN OP SW PUMP INCLUDING AVAILABLE POWER SOURCE OPER-15 OPER DOES NOT XFER TO DOI BACKUP CHRGR (D03) W/ENERGIZED SRC OPER-1 6 OPER DOES NOT XFER TO D02 BACKUP CHRGR (DO5) W/ENERGIZED SRC SWEDGMOV OPERATOR FAILS TO MANUALLY OPEN SW CLG JKT VALVES UPON AN MOV SIGNAL FAILURE OPER-F1 OPERATOR FAILS TO CLOSE SW CROSSOVER VALVES TO PREVENT FLOW DIVERSION RHFIB1000X OPERATOR FAILS TO OPEN CV-1 000 OPER- 13H OPERS FAIL TO RE-ENERGIZE H1/H2 FROM ST2 GIVEN TRANS EVENT Prepared by J.M.Walker Page 89 Calc 02-E.0004-02, Rev. 0 RCviCwed by M. Lloyd

As discussed in assumption 8 of the calculation the following post initiator recoveries were credited in our assessment but notin the original IPEEE analysis.

QP7BMANREC OPERATOR FAILS TO START AND CONTROL P78 MANUALLLY DURING FIRE MANEFWSTRT OPERATOR FAILS TO OVERRID FALSE EFW SIGNAL AND MANUALLY OPEN P7B ISO VLVS XHF1 MEDXXX OPERATOR FAILS TO BEGIN HPR FOLLOWING M-LOCA QHFPWRSHT Operator Fails to deenergize CV-2646 and 2648 Of the recoveries listed above the following are ex-control room recoveries and were set to true in order to provide the numbers needed for the NRC reviewer.

ICWCLGISO MANDREC MANEDGREC P7AMANREC QP7BMANREC QHFPWRSHT Prepared by J. M. Walker Page 90 Calc 02-E-0004-02, Rev. 0 Reviewed by M. Lloyd

Attachment 14 BIRA Spreadsheet for QHFPWRSHT I

Prepared by J. M. Walker Page 91 Calc 02-E0004-02, Rev. 0 Reviewed by M. Lloyd

Ex-Control Room Model

1. EVENT QHFPWRSHT
2. EVENT IDENTIFICATION 2.1 Descriptor Operator fails to switch power off to CV-2646 and CV-2648 2.2 Comment Pre-Fire Plan
3. EVENT CATEGORIZATION 3.1 Event type post-initiator recovery 3.2 Location of action(s) ex-control room 3.3 Failure mode mistake
4. METHOD USED SAIC TRC system S. INPUT PARAMETERS 5.1 Mean response time (min), ml no default 10 5.2 Additions to response time default is 0 0 5.3 Model error factor, El generic is 4.3905 default 5.4 Adjustments to error factor default is 0 1 5.5 Model uncertainty error factor, fU generic is 1.68 default 5.6 Available time (min), t no default 36
6. CALCULATED PARAMETERS 6.1 Adjusted mean response time, mean 10.0 6.2 Adjusted error factor, fR 6.332 6.3 Median response time, m 9.5
7. EVENT OCCURENCE PROBABILISTIC ESTIMATES 7.1 Mean (explicitly includes associated equipment 1.4E-0l failures) 7.2 95th percentile 2.4E-0l 7.3 5th percentile S.6E-02 7.4 Error Factor 2.08
8. ASSOCIATED EQUIPMENT RELIABILITY TREATMENT 8.1 Human reliability event mean failure probability l.4E-Ol 8.2 Associated equipment reliability limited (l1yes,0=no) 1 8.3 Associated equipment failure probability (see E49) 8.4 Combined human and equipment failure probability 1.36E-0l Prepared by J. M. Walker Page 92 Caic 02-E.XO4-02, Rev. 0 Reviewed by M. Lloyd

1@ NUCLEAR QUALIrTYRELATED AD.103 REV.No.2 1 Enter MANAGEMENT Y*MAULADMIlNISTRATIVE PROCEDURE ;Page 32 Of 33' ATTACHMENT 9.10. . .. HARD COPY STORAGE FORM

[TyplcaU RECORD/DOCUMENT TO BE RETAINED IN HARD COPY FORM REMOVED FROM FILE 5

HARD COPY NUMBER -y OC5\ a a REMOVED FROM RECORD?DOCUMENT NUMBER C'LC - cvX - C5A-z)a ITEM IDENTIFICATION \ CL)

NUMBER OF PAGES V WHEN POSSIBLE, REFERENCED RECORDSIDOCUMENTS HAVE BEEN OPTICAL IMAGED FOR INFORMATION ONLY. HARD COPY RECORDIDOCUMENT CAN BE RETRIEVED FROM RECORDS VAULT OR OFF-SITE STORAGE.

. .. . S. 4 -