Text

Calculation Submittal Sheet, Calculation 02-E-0004-01, Rev. 1, Zone 99-M PSA Analysis for Operator Action SDP
	ML040680541
Person / Time
Site:	Arkansas Nuclear
Issue date:	02/15/2002
From:	Ashley K, Fouts D, Jacqwan Walker; Entergy Operations
To:	; NRC Region 4
References
	CR-ANO-1-2001-0723, FOIA/PA-2003-0358 02-E-0004-01, Rev 1
	Download: ML040680541 (60)
	v • d • e

ARKANSAS NUCLEAR ONE Pace I E-DOC TITLE:

E-DOC NO.

CHANGE NO.

CALCULATION SUBMITTAL SHEET 5010.015-ATT-S 002-00-0 This Document Contains 1 Page(s)

Arkansas Nuclear One CALCULATION SUBMITTAL SHEET TO: ADMINISTRATIVE SERVICES DATE:

FROM:

Jessica Walker CALCULATION NO.:

02 REV. NO.:

1 STATUS:

A

-E-0004-01.

I iThe purpose of this submittal is to identify the status of the I calculation as of this date.

Remarks:

Status Codes P

(Pending)

Not Currently Installed, awaiting a Technical Specification change or design change implementation A

(Active)

Qualified Existing Installed Condition H

(Historical)

Historical Record, not replaced with a revised or new calculation and can be used as a reference.

Provide remarks if classification of the cakulaton into one of these status codes needs further clarification. Also, for status of P provide remarks that identify when calculation status Is expected to change (i.e., what actions are planned-design change package number, Condition Report and Action item number etc.). It should be understood that any schedule information provided will be preliminary.

cc: Calc File It

-is Id ARKANSAS NUCLEAR ONE Page 5 E-DOC TITLE:

E-DOC NO.

CHANGE NO.

CALCULATION COVER AND REVISION SHEET 5010.015-ATT-2002-00-0 ARKANSAS NUCLEAR ONE CALCULATION REVISION SHEET Check If Additional Revisions:

C Caic. No.: 02-E-0004-01 Rev. No.: I Caic.

Title:

Zone 99-M PSA Analysis for Unit:

I Category:

Non-Q Operator Action SDP Config. Checklist (per 5010.004) completed?

Y 0 N a

.Document Comment/Resolution Form completed? Y 0 N D Components:

Special changes to IDEAS: None Comp Tag Suffix Comp Code N/A Abstract (Complete only if Abstract is changed by this revision):

Pages Revised and/or Added: Pages 1 - 31 revised, pages 32-53 added Revl Information provided on a new disk both RevO and Revi disks must be maintained with current calculation.

-Purpose of Revision: Revision I incorporated a new transient fire scenario for Zone 99-M.

Initiating Document Resulting Document Key Design Input Document CR-ANO-1-2001-0723 See Reference Section Verification Method:

Design Review X Alternate Calculation Qualification Testing Amends Calc(s):

Supersedes Calc(s) I CRN (s):

Computer Software Used:

PRAQuant 3.3bx QRecover 1.5x Preparer:

Jessica M Walker NVN)

/d'.1-0 Reviewer. Kathy Ashley

/ A~

1/ S/2 0z Vendor Reviewer~

Wndor Propared Calculta1fs Onuly N..

./

I v I I

I NIA II Approver (P. in). FoNa (InQ ti

/als) /(

a zt (Print Name)

(Initials) (Date)

(Print Name)

(Initials)

(Date) c

ARKANSAS NUCLEAR ONE Page I E-DOC TiTLE:

E-DOC NO.

ICHANGE NO.

CONFIGURATION CHECKUST 5010.004-A 006-00-0 This Document Contains I Page(s)

Note:

The Configuration Checklist may not 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.

iW C1;14 i l%--

i3ii==lCn~

ENSWQ:i 1W'32BAglST i33Fh-I i;!9DS iN iF CON LUI 9

iAitECTE?5i~i'!nDISPOSITOW IASSOR

?4CLUSIONPV OYes' ONo2 Any of the followin A revision to this calculation has no Impact on licensing Technical Specifications basis documents.

Operating License Confirmatory Orders Safety Analysis Report I SAR Figures Core Operating Limits Report Fire Hazards Analysis Tech Spec Bases Technical Requirements Manual NRC Safety Evaluation Reports Ventilated Storage Cask Licensing Documents Quality Assurance Program Manual Emergency Plan

'lrYes, a ICFR50.59 Determination is required In accordance with NMMLI-101.

It "No," the basis for this conclusion must be documented (e.g.. LRS search criteria. LBD sectionsltigures reviewed. etc.}

OYes ONo DrawingsIDRNsIDTS Database OYes 0No Component Database

[]Yes N No Vendor Tech Manuals / VTM Database 0Yes NNo Upper Level Documents (ULDs)

OYes INo Calculations I Code Stress Reports OYes 0DNo Specifications OYes I3No Engineering Reports OYes NNo EQ Documentation OYes 0ONO Piping Class Summary 0Yes NNo Fire Barrier Penetration Log OYes 0No Cable, Raceway or Equipment Numbers (PDMS)

OYes 0No ER Responses / Mods (in-progress only)

EYes lNo Procedures OYes NNo Engineering Standards

[Yes ONo Component Labels OYes lsNO Fuse Lists OYes NNo Repetitive Task Database OYes lNO Preventive Maintenance Engineering Evaluations and Tasks DYes ONO Simulator

[Yes [sNO Training / System Training Manuals (STMs)

OYes IONo MMIS DYes l2No Engineering Programs OYes NNo Lubrication Manual Completed By, Jessica M WalkerCW r

DtC Date:

4/25/02

ARKANSAS NUCLEAR ONE CALCULATION COVER SHEET Calc. No.:02-E-0004-01 Rev. No.: 0 Caic.

Title:

Zone 99-M PSA Analysis for Unit:

I Category:

Non-0 Operator Action SDP System(s):

Calc. Type:

NS Components:

Topic(s):

PRAS Comp Tag Suffix Comp Code Pit Area:

Bldg.

Elev.

AJ Room Wall Coordinates:

Config. Checklist (per 5010.004) completed? Y 1i N El Document CommentlResolution Form completed? YP7 N 0 Abstract (Included PurposelResults): This calculation provides the PSA Conditional Core Damage Probabilities for a fire in Zone 99-M. 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 -31 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, QRecover 1.5x Preparer:

Jessica Walker l

t 3/1/02 i.i I Reviewer:

Vendor Reviewer:

Vendor Prepared Calcutfttons OnIy MA)/

Michael Lloyd

/ (/fY, /3/11/02

}.@-Soues s2j> /US//02 Approver:

(Print Name)

(Initials)

(Date)

(Print Name)

(Initials) (Date)

I Check if Additional Revisions:

-' `9

Zone 99-M PSA Analysis for Operator Action SDP Table of Contents Purpose..........

.'.2 References

.2 Assumptions........

.2 Analysis

.3 Results.........

6:

6 Electronic Files........

7.10

.15.20.25.29.........

30........

31.33.34 0.40 1.

46 2.50 Prepared By: Jessica Walker Initia L

Date:..iL,[i Reviewed By: Kathy Ashley Initials:_

Date:5/z./oz Prcparcd by J. M. Walker Page I Calc 02-E.0004-01, Rev. I Reviewed by K. Ashley

Purpose:

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 99-M.

The CCDP can then be used in combination with the fire ignition frequency to provide a total CDF for a fire in zone 99-M.

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 99-M:

1. The CCDP with current assumed cable failures given NO operator action

2. The CCDP with red cables wrapped given NO operator action

3. The CCDP with green cables wrapped given NO operator action Revision one of this calculation added a new scenario based on an increase transient fire in zone 99-M.

The new scenario files are referred to as the transient case files throughout this calculation.

References:

1. ANO Calculation 95-E-0066-02,Rev. 1, "ANO-1 IPEEE Fire P2 Values".

2. ANO Calculation 98-E-0039-04,Rev. 0, "ANO-1 HUMAN RELIABILITY ANALYSIS WORK PACKAGE FOR THE ANO I PSA MODEL REVISION 2":

3. ANO Condition Report: CR-ANO-1-2001-0723 Corrective Action 8.

Assumptions:

1. The ANO-I IPEEE fire model was used for this evaluation. This model was taken from Reference 1. 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 BRA 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 I and attachment 9 for the transient scenario. 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 ione 99-M. 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 Prejared by J. M. Walker Page 2 Calc 02-E.0004-01, Rev. I Reviewed by K. Ashley

eliminated from the PSA model for fire zone 99M. This was accomplished by setting the, 4

following events to FALSE:

EXCESSMFWA, EXCESSMFWB,

XSMFWTOA, XSMFWTOB, and SGOFREC.

4. An operator action is placed in the model to manually stop overfill of the steam generators Jo,

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 e

the requirement to prevent overfill and a secondary recovery is unnecessary.

This was i

accomplished by setting the event SGOFREC2 to FALSE.

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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) pass through zone 99-M. 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 6.

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 raceways are wrapped.

7. It is assumed that the NRC request for the CCDP without operator action refers to operator Amp action OUTSIDE of the contrnl 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 requiremients. Therefore, only operator actions outside of the control room will be set to TRUE in the no operator action analyses.

8. With the exception of the post-initiator operator recovery events QHFPWRSHT (Operat6r Fails to deenergize CV-2646 and 2648), XHFIMEDXXX (OPERATOR FAILS TO BEGIN HPR FOLLOWING M-LOCA), and XH`F SMALLX (OPERATOR FAILS TO BEGIN HPR FOLLOWING S-LOCA), post-initiator operator recoveries were credited only if the recoveries were-also credited in the ANO-1 IPEEE fire analysis, Reference 1. Recovery QHFPWRSHT is described in the Analysis Section, below; XHFIMEDXXX and XHF1 SMALLX are in-control room responses that are not affected by the fire.

Analvsis:

Fire Protection provided the list of components either in 99-M or with cables in 99-M. These lists are provided as Attachment I and Attachment 9. Attachment 1 & 9 show the components are separated into 5 categories.

+'

Blue (blank in Column 1) - 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 (B in Column 1) - This component will fail regardless of which conduits are wrapped.

Red (R in Column 1) - These components are considered protected when the red train cables are wrapped in the zone

Green (G in Column 1) - These components are considered protected when the green train cables are wrapped in the zone.

l Prepared by J. M. Walker Page 3 Calc 02-E-000401, Rev. I

-Reviewed by K. Ashley

Orange (O in Column 1) - 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.

Consistent with the NRC request specified in the Purpose, three scenarios 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

3. Green train wrapped: components coded Black and Red will be failed (plus Green equipment located in the zone)

Once these three lists of components were created, the associated lists of basic events were created. The mapping file from Reference I (betagal.dbf) was used to create the list of basic events affected by a fire in zone 99-M. 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. Attachments 2 through 4 and 10-12 for the transient scenarios list the basic events (including module events) which will be set to TRUE in the fault tree model for each of the above scenarios.

Prior to using them, each of the mapping files were reviewed for appropriateness. Three errors in the Reference I tag file were found as part of this process. The following maps were removed from Attachment 2, 3 4,10,11 and 12 map files for the reason given.

DMMIYlIIAC to B5141B, because breaker B5141B is actually a spare breaker with no function

SMV1364 IXK to CV3641, because CV-3641 has been changed to a manual valve

QMM1P7BTRF 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. -4 and 10 -12 list the final basic event lists provided for each scenario.

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. Each set of equivalence gates was then input into the Reference I ANO-1 fire fault tree model to create three versions of the fault tree model, one for each scenario. The model is then reviewed for possible recoveries or problems with the failed events.

In zone 99-M, the two P-7B control valves are affected as discussed in Assumption 5. However for the B side generator the only failure of module QMMISGBP7B is CV-2648. Since this valve is not a definite failure and will require a hotshort to go closed, the model will be changed to account for this and provide a more realistic risk estimate. Attachment 5 shows the exact mnoel changes made. Basically, a new gate CNTVLVFAILS was added to the "OR" gate-above QMMISGBP7B. This gate is an "AND" gate of two events. Event HSCV2648 is the hotshort of CV-2648 set to 0.25 and event QI-FPWRSHT is the failure of operations to de-energize the valve and cause it to fail open. Operations Procedure OP-1 106.006 provides discussion of these valves and instructs the operations staff on which panel provides the capability to de-energize and open the valves. An operator action was created for this event using the spreadsheet method discussed in Reference 2. A printout of the HRA spreadsheet output for QHFPWRSHT is Prepared by J. M. Walker Page 4 Calc 02-E0004-O01, Rev. I Reviewed by K. Ashley

provided in Attachment 8. The value provided from the spreadsheet is 2.26E-1. The same method was used to create gate CNTVLV2 for CV-2646 on the A steam generator side.

The transient scenario also has a hotshort of CV-2800 as a failure of flow to P-7B. This is the only failure of P7-B(event QMM1P7BTRA).

Since the failure is a hotshoit and not an immediate loss of flow, the

".T.".was removed from QMM1P7BTRA and a new event, HSCV2800 Hotshort of CV-2800, was placed and ORed with the other P-7B failures. As discussed in assumption 5, this hoishort event was given a nominal probability of 6.8E-02.

In addition to the above modeling changes, initiating event TI (REACTORJITLRBINE TRIP) was set to TRUE, since the fire in assumed to produce a reactor trip. This is consistent with the Reference 1 fire modeling.

Once these changes were made, all ".T." events were set to TRUE and each of the three trees were compressed. Then, all of the events discussed in Assumptions 3 and 4 were set to FALSE (i.e.,

EXCESSMFWA, EXCESSMFWB,

XSMFWTOA, XSMFWTOB,

SGOFREC, SGOFREC2). The PRAQuant software was then used to quantify the TOP gate in each scenario model at a truncation of IE-9.

The resulting cutsets then went through a short set of manipulations before the final answer was reached.

The mutually exclusive file was then l DELTermed from each of these cutsets. The post -initiator recoveries not credited in the IPEEE were also set to TRUE in the cutsets.

The-complete list of these recoveries is located in.

l The process followed was similar for all six cases discussed above. However, for the red train wrapped scenario, no model changes were needed, since the additional fire wrapping will protect the valves from fire damage.

To generate the CCDP without credit for ex-Control Room operator recoveries, the recovery l events listed in Attachment 7 were set to TRUE in each cutset and each of the cutsets were subsumed.

1 Prepared by J. M. Walker Page 5 Caic 02-E-0004-01, Rcv. 1 I Reviewed by K. Ashley

Results:

The following table shows the final results from the analysis of zone 99-M and the associated cutset file.

Zone 99-M CCDP with ex-control room recoveries True ALL.Current Failures RED train protected Green train protected c:.

7.96E-03 5.76E-02 ANO CCDP value with recoveries applied 1.27:E -:

>3 8.32E-04 1.26E-03 Zone 99-M Transient Case CCDP with ex-control.

room recoveries True ANO CCDP value with recoveries applied I

I ALL Current Failures RED train protected Green train protected 7.96E-03 7.09E-02 HE) 8.32E-04 4.42E-03 Prepared by J. M. Walker I Reiewed by K..Ashley Page 6 Calc 02-E.0004-01, Rev. 1

Electronic Files:

The following electronic files are included with this document.

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Zone99MSDP.zip n/a 03/01/02 n/a W[NZip file containing electronic files associated with this calculation This WINZip file contains the following files

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S S 2 1299MG.CAF 128,449 02121102 03:43p 99M Green wrapped CAFT*A fault tree file before trues compressed (Scenario 3) 21299MGC.CAF 60,421 02/21/02 03:4 3p 99M Green wrapped CAFTA fault tree file bafter trues compressed (Scenario 3) 21299MR.CAF 127,845 02/21/02 03:43p 99M Red wrapped CAFTA fault tree file before trues compressed (Scenario 2) 21299MRC.CAF 63,089 02/21/02 03:01p 99M Red wrapped CAFTA fault tree file after trues compressed (Scenario 2) 99-M FAILED components 31,232 02/28/02 0 9:17p Listfrom Fire protectionfor Zone 99-M (colorcoded 215) (2).xis Rev) file of same name has updated informatlon, Thisfile is maintainedfor use with original calculations.

99M Changes made.xls 37,376 02/25102 09:47a List of fault tree changes made in 99-M 99m SDP Write UP.doc n/a 03/01/02 n/a WORD document of this calculation Revl doc file supercedes this file 99M.QNT 5,036 03/01/02 08:59a PRAQuanl file used to quantify for this write up 99mbase.CUT 1.069,446 03/01/02 08:54a 99M Baseline cutset file (Scenario 1) 99MGRcut 1,060.286 03/01/02 09:00a 99M Green wrapped cutset file (Scenario 2) 99MRED.cut 832,230 03/01/02 08:56a 99M Red wrapped cutset file (Scenario 3)

ANOIFIRE.BE 531,456 03/01/02 08:47a Basic Event file with new hotshort components and recoveries ANOIFIRE.GT 1,110,016 11/26/01 08:53a Original ANO-1 Fire 1PEEE gt file ANOIFIRE.TC 108,544 12/20/95 06:34p Original ANO-I Fire PEEE tc file APPRC.CAF 60,713 02/25/02 09:47a 99M Baseline CAFTA fault tree file after trues compressed (Scenario 1)

APPRONLY.CAF 129,077 02/21/02 02:5 3p 99M Baseline CAFTA fault tree file before trues compressed (Scenario 1)

QHFPWROFF_99m.XLS

34,304 02/25/02 09:13a HRA spreadsheet for recovery QHFPWRSHT MODEL.ZIP 265,707 11/07/01 03:25p Original set of files from ANO-1 Fire IPEEE Calculation I

Prepared by 1. M. Walker Reviewed by K. Ashley Page 7 Calc 02-E-0004-01, Rev. I

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I i..........aII:I4i ii Hi MODELZIP 265,707 11/07/01 03:25p Original set of files from ANO-1 Fire IPEEE Calculation (see listing below)

DATABASE.ZIP 272,273 11/07/01 03:25p Original set of files from ANO-1 Fire IPEEE Calculation (see listing below)

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,IFR.CF1310,0165 03105/96 12:35p Original file from ANO-l Fire IPEEE Calculation 1085344 03/05196 09.29a Original file from ANO-I Fire IPEEE TI E

Calculaton ANOIF1RE.GT 1,17,955 03905/96 09:30a Original file from ANO-1 Fire IPEEE Calculation ANOIFIRE.TC 510,456 012/05196 06:34p Original file from ANO-l Fire IPEEF Calculation lsSUTIEXC T

1,11001 110390196 09:29a Origina file from ANO-1 Fire IPEEE Calculation Calculation MUTFile7Name5

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Fire EPEEE DATABASE.ZIP 272,273 11/07/01 03:Z5p Original set of files from ANO-I Fire IPEEE Calculation This WlNZip file contains the following files

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BET^AGAI.MDB 625,2301 03/05/96 03:4Sp Origintal file from ANO-I Fire [PEEE

________Calculation CRTABAS.D8F 27,232 03/0/96 03 :245 p Original file from ANO-I Fire IPEEE Calculation CRIT.TXT 700 2,2 03/04/96 09:36p Original file from ANO-I Fire P

___Calculation FCR L.TXT 70023 03/29/95 05:00p Original file from ANO-1 Fire IPESEE

___C alculation FOCAI.DBF 15,266,1 03t05/96 03:43p Original file from ANO-I Fire IPEE

___Calculation LOCAI.MDX 1,62,8014 03/05/96 03:44p Originial file from ANO-I Fire IPEEE Calculation LOCA197.DBF 4,60,8014 03/05196 03:33p Original file from ANO-I Fire IPEEE Calculation LOCA197X.MDX 1,62,8014 03/04/96 03:33p Original file from ANO-I Fire [PEEE Calculation SOCEN.DBFM 460,800 03/04/96 07:02p Original file from ANO-I Fire [PEEE Calculation SCEN.hSDX 7,168 03/05/96 O7:02p Original file from ANO-I Fire IPI-EEE Calculation 9

I Prepared by J. M. Walker Reviewed by K. Ashley Page 8 CalcO02-E-0004-01, Rev. 1

File Name File Size File Date File Description Time 99-M FAILED components 46,080 4/24/02 03:01 p Original Excel file from Fire Protection (colorcoded 215).ls _with failures 99mbasechanges.xls 62,464 4125102 03:42p no wrapping transient model changes and be's set to true 99mr1.be 531,456 04124102 09:58a Revision 1 basic event file 99mrl.gt 1,110,016 11/26101 08:53a Revision I gate file 99mrl.tc 108,544 12/20/95 06:34p Revision 1 type code 99MREV1.MDB 1,230,848 4/25/02 02:41p Access database used to create link between BETAG file and failure list 99MTGNRC.CUT 1.308,006 4/24102 03:04p Green wrapped NRC cutset 99MTR-A.CUT 1,320,450 4/24/02 02:14p No wrapped cutset final results 99MTRAN.CUT 1,320,450 4/24/02 02:13p No wrapped cutset before HRAs removed 99MTRANC.CAF 46,893 4124/02 02:12p No wrapped cafta fault tree file -

_compressed 99Mtransgreenchanges.xls 52,224 4/25/02 01:24p green train transient model changes and be's set to true 99MTRANT.CAF 128,277 4/24/02 02:12p No wrapped cafta fault tree file 99MTRED.CUT 826,914 4/24/02 04:27p Red - wrapped cutset before HRAs removed 99MTREDA.CUT 826,914 4/24/02 04:29p Red - wrapped cutset final results 99MTREDC.CAF 62,353 4/24/02 04:27p Red - wrapped cafta fault tree file -

compressed 99MTREDN.CUT 826.914 4124102 04:36p Red - wrapped NRC cutset 99MTREDT.CAF 127,877 4/24102 04:27p Red - wrapped cafta fault tree file 99MTRGR.CAF 127,713 4124/02 03:00p Green - wrapped cafta fault tree file 99MTRgr.CUT 1.308,006 4/24/02 03:01 p Green - wrapped cutset before HRAs removed 99MTRGRA.CUT 1,308,006 4/24/02 03:03p Green - wrapped outset final results 99MTRGRC.CAF 47,137 4124/02 03:01p Green - wrapped cafla fault tree file -

compressed 99MTRNRC.CUT 1,320.450 4/24/02 02:16p No wrapped NRC Cutset 99MTRredchanges.xls 53,248 4125102 01 :27p red train transient model changes and be's set to true File Name File Size File Date File Description Time 99m SDP Write UPR1 NIA 5102102 NIA Revl Doc file Prepared by J. M. Walker I Reviewed by K. Ashley Page 9 Calc 02-E0004-01, Rev. I

I Initial List of Components Affected by the Fire from Fire Protection Sorted into 5 Color Categories with Fire Protection Comments Red - Red train Appendix R component Green - Green tran Appendix R component Orange - Swing component that would be available for either train.

Black - BOP equipment: Blue - equipment that will be available for any credible fre scenario(dAv.L/

Components were extracted from FIVE (cablesxils) and PDMS (Fire Zone impact report for 99-ML In addition, so5m Black components were assumed to have cables in the zone.

In addition, some Black components were assumed lo have cables in the zone.

/

Note: RTDs and related indicators were not compitied.

B A104 Al11 A112 B

A211 B

A212 A3 A302 B

A304 A305 A306 R

A307 R

A308 R

A310 A311 G

A4 G

A401 G

A402 G

A403 B

A404 G

A405 G

A406 G

A407 G

A408 G

A409 G

A410 O

A601 B

B15 B24 B25 B

B31 B

B41 B

B43 B

844 85 B512 B5122 B

B55.

listed cables do not affect operation of A 111 listed cables do not affect operation of Al 12 RCD1104A provides control power to A3. Fire models determined that realistic fires would not impact the cable.

Listed cables do not impact operation of breaker Listed cable does not affect operation of A305 Fire models determined that realistic fires would not impact the associated cables.

Same cable as for P7M.

WMI not affect star1 of pump from control room.

Component in zone.

Listed cable does not affect operation of component Listed cable does not affect operation of component Fire models determined that realistic fires would not impact the associated cables.

Fire models determined that realistic fires would not impact the associated cables.

Listed cable does not affect operation of breaker Swing appendix R component, but it is located in the zone.

Prepared by J. M. Walker Reviewed by K. Ashley Page 10 Calc 02-E.0004-o1, Rev. 1

B B

G G

G B

G G

B G

G G

B G

B 6

B G

B B

G G

BB

8 C3-GG G

G G

B G

G B

B G

G -

G B56 Swing appendix R component. but it is located in the zone.

B5622B B5653 B57 B6 Component in zone.

B61 B612 Component in zone.

B6123 B614 Component in zone.

B6145A B61458 B62 B621 Component in zone.

B622 Component in zone.

B623 Component in zone.

B63 B633 Component in zone.

B634 Component in zone.

B64-B65 Component in zone.

B7 B712 B72 C187 C539 Component is listed due to loss of power source. However, source is RS1, which is unaffected for a fire in this zone.

C540 CV1000 Component is listed due to loss of power source (B61). Valve will fail in normally open position.'

CV1009 CV1206 CV1221 Component is listed due to loss of power source 1861). Valve will fail in normally open position.

CV1227 Component is listed due to loss of power source 1861). Valve will fag in normally dosed position.

CV1228 Component is listed due to loss of power source (8611. Valve will fail in normally dosed position.

CV1274 Component is listed due to loss of power source (161). Valve will fail in normally open position.

CV1400 Component is listed due to loss of power-source (B61). Valve will fail in normally closed position.

CV1404 CV1406

'Component is listed due to loss of power source (B61). Valve will fail in normally closed position.

CV1408 Component is listed due to loss of power source (861). Valve will fail in normally closed position.

CV1410 Component is listed due to loss of power source (B62). Valve will fail in normally dosed position.

CV1416 CV1 435 CV1437 CV2235 CV2613 Valve listed due to loss of power (025). D25 is not affected by a fire in this zone.

CV2617 CV2618 Cable listed does not impact valve operation. However, power to the valve (i.e. via RS21 is lost.

CV2619 Valve listed due to lois of power. If ADVs are not needed then valve is in correct position.

CV2620 This valve is powered from a red source (015) but is dassified green because it is associated with P7A.

B CV2625 I

Prepared by J. M. Walker Reviewed by K. Ashley Page 11 Calc 02-E-0004-01, Rev. I

CV2626 Valve listed due to loss of power. Valve is normally open. Therefore, loss of power causes valve to fail in proper position.

G CV2627 This valve is powered from a red source (I15) but is classified green because it isassoriated.with P7A.

B CV2630 CV2645 R

CV2646 CV2647 R

CV2648 R

CV2663 R

CV2667 R

CV2668 CV2670 B

B G

B R

R CV2674 CV2680 CV2692 CV2800 CV2802 CV2803 CV2806 CV2869 CV2870 B

CV3640 CV3641 G

CV3642 B

CV3643 G

CV3644 G

CV3807 G

CV3821 CV3840 G

CV3841 R

CV3850 R

CV3851 B

CV5611 B

CV7472 B

CV7473 B

D05 01104 D1109 R

D15 D21 G

D2104 G

D2109 D25 K4A G

K4B G

LT1 002 B

LT2617 Valve listed due to loss of povier. loss of power Cuses valve to fail in proper position.

Valve listed due lo loss of power. Loss of power causes valve to fail in proper position Valve listed due to loss of power. Valve is normally open. Therefore, loss of power causes valve to fail in proper position.

Fire models determined that realistic fires would not impact the associated cables.

Valve listed due to loss of power (D25). Valve is normally closed. Therefore, loss of power causes valve to fail in proper position.

Changed to a manual valve. Will not fail Component is listed due to loss of power source (B62). Valve will fail in the closed position.

Valve listed due to apparent loss of power. However, power is from RSl, which is not affected in this zone.

Same cable for A3 This is the control power for B5 which was survived fire modeling Component is listed due to loss of power source (002). D02 is not affected by a fire in this zone.

Component is listed due to loss of power source (002). D02 is not affected by a fire in this zone.

Fire models determined that realistic fires would not impact the associated cables.

I Prepared by J. M. Walker Reviewed by K. Ashley Page 12 Calc 02-E-0004-01, Rev. I

LT261 8 Component listed due to loss of power source IRSI). However, FISI is unaffected in this zone.

LT2620 Component listed due to loss of power source IRSi). However. RSI is unaffected in this zone.

LT2622 Component listed due to loss of power source fY28) However, Y28 is unaffected in this zone.

LT2624 Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

LT2667 Component listed due to loss of power source (RSI). However, RS1 is unaffected in this zone.

B LT2668 LT2669 Component listed due to loss of power source IRSI). However, RSI is unaffected in this zone.

LT2671 Componeht listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

LT2673 Component rated due to loss of power source (Y28) However, Y28 is unaffected in this zone.

B M55A G

P16B Component is listed due to loss of power source (661)

C P34B P36A Fire models determined that realistic fires would not impact the associated cables.

o P36B G

P36C P4A Listed cables do not prevent remote operation.

P4M Red train of pump would always be available.

G jPC R

1P64A I

o IP64B C

rP64C G

P7A

,P7B

_Failure of cable does not prevent starting of pump from control room.

B IPT2618A 1PT2618A Component listed due to loss of power source (YS2). However, YSI is unaffected in this zone.

PT26,7A Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

PT2667B Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

P126676 Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

B PT2668A RA2 Component is listed due to loss of power source (002). D02 is not affected by a fire in this zone.

.G RS2 G

IRS4 ISG2 Valve is normally open. Affected cables cannot cause spurious operation G

1SG4 G

JSG7 1SV1072 Component is listed due to loss of power source (D211 SVY1074

. Component is listed due to loss of power source (D21). 021 is not affected by a fire in this zone.

_V1082 Component is listed due to loss of power source (021). 021 is not affected by a lire in this zone.

SYVI084 _ Component is listed due to loss of power source (D211. D21 is not affected by a fire in this zone.

[SV102_ Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

94 ii Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

1SV1094

Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

SV_271 Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

1SV272 Component is listed due to loss of power source 10211. D21 is not affected by a fire in this zone.

SV1272 Component is listed due to loss of power source (021). D21 is not affected by a fire in this zone.

1SV1273 I Component is listed due to loss of power source (021). 021 is not affected by e fire in this zone.

FSV2613 lValve listed due to loss of power (025). 025 is not affected by a fire in this zone.

B ISV3805 Prepared by J. M. Walker Page 13 Calc 02-E-0004-01, Rev. I Reviewed by K. Ashley

1 G

ISV3841 B

SV5237 B

SV5239 B

TE1002 A

G TV7902 A

G TV7902 G

VEF24C G

VEF24D B

VSFIC_

B VSF1D B

B VUC7B IXO3 G

1X6 a

1Y22 G

Y24 G

IYZ5 G

.Y28 Component is fisted due to loss of power source (8611 Component is listed due to loss of power source (I61)

Component is listed due to loss of power source (161)

Component is risted due to loss of power source (B611 Annunclator cables have no eoffct on component Component in zone.

Component in zone.

Component in zone. This is a new component that is probably not in the IPEEE model I Prcpared by J. NI. Walker I Reviewed by K. Ashley Pagc 14 Calc 02-E-0004-01, Rev: I List of affect events for Scenario I if.,C.,~mpvneiS~e>:~tN\\ME:ff;Wf P36B jARE1 P36BE jRS2 I DB41OORS2F jD2104 jDCD12104XR D05 IDMM1000DO5 B5622B I DMM1000DO5 D05 IDMM1000D05

.jD15

'DMM1OOOD15 Y22 iDMMIOOOY22 Y22 IDMM1000Y22 PY22

'DMM1000Y22

-Y2-2jDMMM1OOY22 1Y22 IDMM1Y22AAC jY22 IDMMIY22AAC 1Y22.

1DMM1Y22AAC IY22 DMM1Y221AC jY22 DMM1Y221AC

,Y22 IDMM1Y221AC 1Y22 IDMM1Y221AC Y22 f

DMM1Y221AC iY22 iDMM1Y221DC Y~22

'DMM1Y22IDC j

IY22 i DSI 100Y22F" tY22

!DSI1OOY22X

.A409 j ECB1A409XR 1jK4B iEDG1A4XXXO I

IK4B EDGIDG2XXA..1 jK4B I EDG1DG2XXF J

1TV7902A JEMCI79O2AN

'TV7902B IEMC17902BN AEMM1A4XXXX I

'4*

EMM1 A4XXXX

,B55 iEMMIB5SB56 i

.B56 IEMM1B55B56

,B622 IEMM1B55B56

!S56 EMM1B55B56

__BI86 1B55 1EMM1B55B56 561 IEMM1B61XXX B621 iEMM1B61 XXX B61 JEMM1B61XXX B614

,EMM1B62XXX B62 I IEMM1B62XXX

.B62 IEMM1B62XXX I

f B63 I EMM1B63XXX Prepared by J. M. Walkcr I Reviewed by K. Ashley Page 15 Caic 02-E-0004-Ol, Rev. I

jB63 iEMM1B63XXX iA401 IEMMIB6XXXX B36

,EMM1B6XXXX B6 l JEMM1B6XXXX IB612 1EMM1B6XXXX 1tX6 i EMM1B6XXXX IA211

' EMM1CB211X IA211 iEMM1CB211X i

IEMM

_CB212X A212 IEMMICB212X IA3081 EMM1MCB38X 1A308.

IEMM1CB308X i

jA408 1,EMM1 CB408X I

1A408 JEMM1CB408X I

FP16B EMM1DG2FXA P16B IEMMI DG2FXF i

SV5237

,EMM1DG2SAC J

SV5239

'EMM1DG2SAD I

.CV3807 JEMM1DG2SWC _

CV3807 EMM1DG2SWC

'jTV7902A IEMM1RMCLCA i

TV7902A iEMMIRMCLCF I

IB6123 jEMM1RMCLDAi 1TV7902B JEMM1RMCLDA TV7902B

!EMM1RMCLDF I

jA211 iERE1211SRR

'A4 iERElA4LXXK

.A4 jERE1A4X1UE

.A4 I ERE1A4X2UE 1B6 jERE1B6XUXE

.B6__E ERE1 B6XUXK IK4B IERE1DG2LXK K(4B IERE1DG2UXK jCV2625 iFMM1CV2625' jCV2625 IFMM1CV2625 CV2674 IFMMlCV2674 CV267 IFMM1 CV2674 IRS4 IFMMINNIYPO IRS4 IFMM1NNIYPO I

iRS4 iFMM1NNYPO IRS4 jFMMNNIYPO iCV2680

-FMMISGABVC jCV2680 jFMMISGABVC cV2630 jFMM1SGBBVC I

ICV2630 3

FMMISGBBVC rSV3815 jGMMITRAN2M ISV3815 jGMM1TRAN2M i

l Prepared by J. M. Walker Reviewed by K.Ashley Page 16 Calc 02-E-0004-0 1, Rev. I

!VSFI C 1GMM1VSF1CM iB623

iGMMIVSF1CM CV7472 IGMMIVSF1CM l

VSFI C iGMM1VSFI CM jVSF1D

i'GMM1VSFIDM1.

IB633

.GMM1VSF1DM I

FCV7473 IGMM1VSF1DM I

iVSF1D 7JGMM lVSF1DM CV1206 IHMM1CV1206 CV1227 IHMM1MU1214 I

CV1227 IHMM1MU1214 CV1228.

IHMMlMU1215 1CV1228 IHMM1MU1215 IP36B IHMM1P36BFR lA3O7 jHMM1P36BFR.

I IP36B j HMMIP36BFS A307 IHMM1P36BFS A406 iHMM1P36CFR i

.P36C IHMM1P36CFR i

1P36C 1HMM1P36CFS

.A406 JHMM1P36CFS I

'CV1406 iLMMICV1406 CV1406 ILMM1CV1406.

CV1408 ILMM1CV1408 CV1408 JLMM1CV1408 IP34B

!LMM1MPP34B A405 jLMM1MPP34B P34B ILMM1MPP34B IA405 MM1 MPP34B

' CV1437 t LMV01437K jCV2618 1QAV102618C ICV2668 QAV102668C IC187 IQBI1L2618N T

jC187 iQBI1L2622N i

IC187 QBI112667N

___7 101B1L2671N C187 1QLCIINAPXD 1C187 IQLCIINAXXD I

JIC187 jOLC1INBPXD iC187 jQLC1INBXXD

.1 C187 iQLCIINCPXD J

C187

.,QLC1INCXXD j

LSC187.

IQLC1INDPXD lC187 jQLC1 INDXXD C187 aIMM126450A

,C187

!QMM126450A jC187

,QMM126470A l Prepared by I. M. Walker Page 17 Calc 02-E-0004-01. Rev. I I Reviewed by K. Ashley

C187 QMM126470A C187

,OMM1L2617H C187

)QMM1L2617H LT2617 QMM1L2617H IC187 QMM1L2618H jC187 IQMM1L2620H C187

!QMM1L2621H C187 iQMM11L2621H 1C187 IQMM1L2622H C187

,0MM1L2624H C187 I QMM1 L2668H LT2668 jQMM1L2668H C187 iQMM1L2668H IC1 87 IQMM1L2669H rC187 jQMM1L2672H IC187 IQMM1L2672H rC167

!QMM1L2673H CC187

,QMM1MSAATP jC187 QMM1 MSABTP C1B7 IQMM1MSBATP IC187

_QMMiMSBBTP ICV2680

!QMM1MSLIAA ICV2680

,QMM1MSLIAF

,1CV2630

,QMM1MSLIBA

[CV2630 IQMM1MSLIBF FPT2617A IQMM1P2617A C187 IQMM1P2617A C187 fQMMlP2617A

'C187

'QMM1P2617B 1C187 IQMMlP2617B

.Cl187 IOM P26lA

,C187I QMM P261BA 1C187 JQMM1P2618B IC187 i QMM1P2667A i

,C187 IQMM1P2667A

.187 __

MMlP2667B___.

jC187

,QMM1P2667B I

.PT2668A

'QMM1P2668A i

B7_

___M lP2656BA

,C187 IQMM1P2668A

.C187 IQMM.P2668B iC187

,QMM1P2668B P7A IQMM1P7ATRA

,CV2802 IQMM1P7ATRA

'P7A iQMM1P7ATRF CV2627 i QMM1 SGAP7A i

Prepared by J. M. Walker Page 18 Calc 02-E-0004-01, Rev. 1 Re'iewed by K. Ashley

1ICV2627 TQMM1SGAPM7A CV2646 IQMMISGAP7B CV2667 IQMM1SGASTM CV2620 IQMM1SGBP7A I

iCV2620

_ iQMMISGBP7A 1CV2648 IQMM1SGBP7B 1CV2617 I QMM1SGBSTM CV2663 j QMM1TASADM C187 jQMM1TMAEFW I C187 IQMM1TMAEFW

}

C187 IQMM1TMBEFW C187 IQMM1TMBEFW.

I jC187 IQMM1TMBEFW C187 IQMM1TMBEFW I

C-187 6QMM1 VMAORD C187 IQMM1VMAORD jC187 j QMMIVMBORC IC187 IIQMMIVMBORCI

,CV2663 1 QSV102663N

CV2663 IQTD1C2663F-

'CV1000

IRMMIB D000C

,CV1OO IRMM1B10c tCV1000

,RMM1CV1000 CV1000 RMM1CV1O00 1'A03 jSCB1A40 XR

'A601__

'SCB1A601XR ICV3644

-SMM123AXXX ICV3640

=

SMM123BXXX 1CV3642 ISMM123BXXX ICV3643 ISMM1AUXCLG ICV3643 ISMM1AUXCLG

!B5653 ISMM1AUXCLG jCV3841 ISMM1AV3841 ISV3841

SMM1AV3841 ICV3841 ISMM1AV3841

'SV3841 ISMM1AV3841

,CV3821 lSMM1E35BSW iCV3821 tSMM1E35BSW i

i3-

-!SMMIP4BXXA CV3643 jSMV1 3643XK CV3644 SMVI 3644XR

'bU4 lSSG1SG4XXK I

I Prepared by J. M. Walker I Reviewed by K. Ashley Page 19 Calc 02-E-0004-01, Rev. I

Attachment.3 List of Basic Events for Scenario 2 (Red Train Wrapped)

.E-ild

~,

B,*.AMEt~:

RS2 IDB410ORS2F D2104

,DCD12104XR B5622B

_DMM 000DO05 D05 DMMIOO1DO5 D05 DMMIO0DO5 Y22 IDMM1OOOY22 Y22 IDMM1000Y22

'Y22 jDMM1000Y22 Y22 IDMM1000Y22 Y22 IDMMIY22AAC Y22 I DMMl1Y22MAC

'Y22

!DMM1Y22AAC (22 iDMM1Y221AC FY22___

jD Y221AC

~y IDOMMY22IAC i!Y22

,.DMM1YZI1AC

____'DMMlY221DC Y22 iDMM1Y221AC iY22 IDSIM10Y22F IDSI1OOY22X 3

A409 iECB1A409XR K4B

'EDG1A4XXXO, K4B IEDG1DG2XXA K4B l_EDG1DG2XXF

[TV7902A IEMC17902AN

'TV7902B iEMC17902BN

'lA4

-lEww A4XXXXX

.A4

,EMM1A4XXXXI

,B56 JEMMB56BS6 I B56

, EMMl1B55B56

,5-5 IEMM1B55B56 B622 lEMM1B55B56 B55 JEMMlB55B56 B621

[EMMIB61XX hBI IEMMIBBIXXXI B61 EMMM1B61XBXX EM M1 B62XXX IB62 IEMM1B62XXX B62 JEMMIB62 3

XXX i

,B63 IEMM1863XXX IB63 IEMM1B63XYXX fA_401 JEMM1B6XXXX

________________________________________________I I Prepared by J. M. Walker Page 20 Calc 02-0004.01, Rev. 1 Reviewed by K Ashley

1B612

!EMMj18o6Vo B6

!EMM1B6XXXX

_B6 EMM1B6XXXX X6

!EMM186)XX A211 IEMM1CB211X A212 IEMMlCB212X A212 IEMMlCB212X

,A408

EMM1CB408X 1A408

,EMM1CB408X IP16B ijEMM1DG2FXA FP16B fEMM1DG2FXF F iSV5237.

IEMM1 DG2SAC 1SV5239 IEMM1 DG2SAD ICV3807 EMM1D 2 SWC ICV3807 IEMM1DG2SWC 1TV7902A 1EMM1RMCLCA TV7902A jEMM1RMCLCF

'TV7902B

,EMMIRMCLDA f

1 jB6123 iEMM1RMC-LDA

,TV7902B JEMM1IRMCLDF IA211 IERE1211SRR IA4 EREA4LXXK

'A4 ERE1A4X1UE MA4

!EREIA4X2UE 1B6.

!ERE1B6XUXE.

Lj BEREIB6XUXK IK4B i EREi DG2LXK MK4B IERE1DG2UXK I_ICV2625 jFMM1CV2625

.,CV2625

.FMM 1 CV2625

,CV2674 I FMM1 CV2674 rCV2674-

!FMMlCV2674 IRS4 FMMINNIYPO 1RS4 jFMM1INNIYPO

,RS4

,IFMMINNIYPO fRS4;~FMM1NNIYPO CV2680 I FMM1SGABVC 1CV2680

FMM1SGABVC CV_26_30 FMMi SGBBVC I

!CV2630 IFMMISGBBVC jSV3815 jGMM1TRAN2M iSVI815 IGMM1TRAN2M I'CV7472 GMM1VSF1 cM

,VSFIC 4GMM1VSFlCM

,B623 IGMMIVSFICM 1C-

IGMM1VSF1CM Prepared by J. M. Walker Reviewed by K. Ashley Page 21 Calc 02-E 0004-0 1, Rev. I

VSil G GlSFlDM j

B633 1GMM1VSF1DM CV7473 IGMM1VSF1DM lVSF1D IGMM1VSF1DM I

[z6V120i6

! HMM1lCV1206 ICV1227 IHMM1MU1214 ICV1227 HMMlMU1214 CV1228__

IHMM1MU1215 C V1228 IHMM1MU1215 A406 I HMM1 P36CFR P36C I'HMM1P36CFR A406 iHMMiP36CFS IP36C IHMM1P36CFS

!CV1406 ILMM1CV14D6 jCV1406

.iLMM1CV1406 lCV1408 ILMM1CV1408 iCV14O8 1,LMM1CV1408 IP34B iLMM1MPP34B

'iP34B

!LMM1MPP34B 11A405

'LMMi1MPP34B A405 iLMMi1MPP34B JCV1'437 i;LMV101437K-LCV2618

QAV102618C IC187 i QBI1 L2618N ii C187 i1081L2622N C187 iQBI1 L2667N IC187 IQBI1L2671N C187 1,QLC1INAPXD

!C187 iQLCIINAXXD iC187 iQLC1INBPXD jC187

'QLC1INBXXD ii 10187 iQLC1INCPXD iC187

'iQLC11NCXXD C187 i QLOCIINDPXD C107 jQLC1INDXXD_

IC187 iQMM126450A

[-017-

.M...

IC187 1QMM126450A I1087 i1MM126470A I

'iCl87 lIQMM126470A

i iLT2617 IQMM1 L2617H i

jC187 iiOMM1L2617H iC187 iQMM1L2617H C187 IQMM1L2618H

,_i C187

_QMM1L2620H IC187

'QMM1L2621H IC187 IOMM1L2621H IC187 iQMML2622H I

Prepared by J. M. Walker Reviewed by K. Ashley Page 22 Calc 02-E-0004-1, Rev. I

C187 1QMM1L2624H -

LT2668

!QMMIL2668H iC187 IQMMIL2668H C187 JQMMIL2668H C187 JQMM1L2669H 1C187 QMM1L2672H l0 187 QMM1L2672H

[C187 QMM1 L2673H C187 I QMMI MSAATP 1C187 lQMMIMSABTP C187 IQMMIMSBATP C187 IQMMIMSBBTP CV2680 IQMMiMSLIAA CV2680 IQMMIMSLIAF ICV2630 IQMMIMSLIBA JCV2630 IOMMIMSLIBF j

IC187 IQMMIP2617A fC187 IQMMIP2617A 1PT2617A IQMM1P2617A

-. _1

_QMM I P2617B

.C187 IQMM1P2617B tC187 ThQMM1P2618A.

C1_8 QMMP2618A_

IC187.

IQMM 1PP2618B C187 IQMM1P2618B

.C187 1QMM1P2667A eC187 jQMM1P2667A__

I.__ __

1C187

!QMM1P2667B

,C187 QMMI1P2667Ai PT2668A jQMM1P2668A tC187 I QMM1P2668A 1C187 iQMMiP2668A f7~ -~

IQMMi P2668B6_ =

IC187 jQMM1 P2668B

'P7A

!QMM1P7ATRA lP7A 1QMM1P7ATRF 1CV2627

,QMMSGAP7A 1CV2627 IQMM1SGAP7A ICV2620 IQMM1SGP7Aj ICV2620 IQMM1SGBP7A

'CV2617 1QMMlSGBSTM 1C187 IQMM1TMAEFW iC187

'QMM1TMAEFW I

,C187 IQMM1TMBEFW lC187 IQA1MM1TMB 1C187

- iQMM1TMBEFW IC187 MM1TMBEFW

_C1 I

._3E_

Prepared by J. M. Walker Reviewed by K. Ashley Page 23

Calc 02-E-0004-01, Rev. I

i1187 IOMM1VMAORD 0187 IQMM1VMAORD IC187 QMM1VMBORC I

iC187 lQMM1VMBORC CVlO000 RMM1B1000C CV1000

!RMM1B1OOOC V 1000 jRMM1CV1000 CV1 000 i RMM1 CV1000 A403 ISCB1A403XR CV3644 ISMM123AXXX I

CV3640 ISMM123BXXX 1CV3642 ISMM123BXXX CV3643 ZSMM1AUXCLG 1B5653

,ISMM1AUXCLG FCV3643 iSMM1AUXCLG

'CV3841 ISMMlAV3841 ICV3841 ISMM1AV3841 SV3841

__SMM1AV384 SV3841

,SMM1AV3841 SV3821

!SMM1A35841S CV3821 iSMM1E35BSW A403 ISMM1P4BXXA

,CV3643 iSMV13643XK 6Vi444 I SMV1 3644XR I

!SSG1SG4XXK Prepared by J. M. Walker 1 Reviewed by K. Ashley Page 24 Calc 02-E-W004-01, Rev. I List of Basic Events for Scenario 3 (Green Train Wrapped)

I~Gbiiinbitfl.*.BEs AMI A211

-EREI211SRR A211

!EMM1CB211X A211 i EMM1CB211X A212 IEMMICB212X A212 IEMM1 CB212X A307

,IHMM1P36BFS A307 IHMM1P36BFR A308 jEMM1CB308X

!A308 JEMM1CB308X A4 EMMIA4XXXX I

A4

!EREIA4X2UE A4 E

ER E1 A4TX1 UE A4 IEMMIA4XXXX A4.

EREIA4LXXK A401

!EMM1B6XXXX I

,A403 iSCB1A403XR iA403

ISMM1P4BXXA M4O5

LMM1 MPP34B IA405 ILMMIMPP34B 1A406 IHMMIP36CFR j

A406 UHMM1P36CFS

[A408 jIEMM1CB408X IA408

!EMM1CB408X jECB1A409XR 1B55 -IEMM1B55B56

,B55 EMM1B55B56 i

B56

!EMM1B55B56 1B56

EMM1lB55B56 IB5622B

,DMM1000D05 iB5653 ISMM1AUXCLG B6 JEMM1B6XXXX B6

!EMM1B6XXXX 1B6 jERE1 B6XUXE B36

ERE1 B6XUXKi B612

-]jEMM1B6XXXX I

1B6123 IEMMIRMCLDA jB614

,EMM1B62XXX B621

.EMM1B61XXX B622 iEMM1B55B56 B623 IGMM1VSF1CM 6633

IGMM1VSF1DM i

1C187

.QLC1INDPXD 8Th7 jQLC1INCXXD I

Prepared by J. M.' Walker Reviewed by K. Ashley Page 25 Calc 02-E-0004-01, Rev. I

C187

!QMM1L262OH.

C1 87 IQMM126470A C187 IQMM1L2618H C1187 ____QMM1L2617H C0187 IQMMIL2617H 1C187 iQMM1VMBORC iC187 IQMM126470A C187 -

IQMMIVMBORC C1087 IQMM1TMBEFW iC187 IQMM1VMAORD C187 1.QMM1TMBEFW IC187

_IMM126450A

? C187 IQMM1TMBEFW C0187 C187 IQMM1TMAEFW C187 IQMM126450A.

,C187

.iQMM1TMBEFW C0187 jQLC1INDXXD

!C187

QMM1VMAORD r_'C187

_4QMMIL2621H 1C187 IQMM1L2622H IC187 1 QMM1 L668H FC167-1 I QMM1MSBBTP 1

I C187 IQLCIINCPXD 1C187 IQMM1L2668H IC187

'QMM1P2617A C187

'QBI12671N I C187

.QBI1 L2667NI iC187

,QMM1P2617A

?C187 jQMM1MSBATP IC187

?_QMM1.P2617B I

C187 IQMM1MSABTP C187

?QMMlL2624H 1C187 jQMM1 L2669H 10187 jQMM1MSAATP 10187 JQMM1L2672H 1

tC187 IQMM1L2672H 0C187 I QMM1L2673H IC187 IQMM1L2621H C187

.QBI1L2622N 0C187

?QMM1P2667B IC187 I QLC1INBXXD C187 IQLC1INBPXD

.C187 jQMM1P2668B rIC87 IQLC11NAXXD

C187

!QMM1P2668B C187 IQMM1P2668A I

Prepared by J. M. Walker Reviewed by K. Ashley Page 26

Calc 02-E-0004-01, Rev. I

r-iC187 jQBIIL2618N 1C187 IQLCIINAPXD I

M C187

, QMM1P2667B C18 QMMI1P2667A 1C187 QMM1P2667A IC187

,QMM1P2618B IC187 iQMM1P2618B C187 iOQMM1P2618A C187

ijQMM1P2618A 1C187 IQMM1P2617B 1C187 JQMM1P2668A iCV1206 H[MM1CV1206.

CV2617 IOMM1SGBSTM 1CV2625.

IFMM1CV2625 lCV2625 FMMl2CV2625 lCV2630 IFQMM1MSLIBF.

1CV2630.

FMM1SGBBVC ICV2630

! FMM1lSGBBVC CV2630 IQMMIMSLIBA CV2646

!QMMI SGAP7B

!CV2648 fQMMISGBP7B 1CV2663 IQSV102663N jCV2663 lQMM1TASADM CV2663

QM1TASADM I CV2663

!QTD C2663F I CV2667 IQMM1 SGASTM lCV2668 QAV1 02668C 1CV2674 jFMM1CV2674 iCV2674 lFMM1 CV2674

, CV2680 I QMM1 MSLIAF 1CV2680 QMM1MSLIAA 1CV2680 j FMM1SGABVC FCFV2680

!FMM1 SGABVC CV2802 jIQMM1P7ATRA CV3640 ISMM123BXXX CV3643 SMV1 3643XK 1CV3643 SMM1AUXCLG 1CV3643 I SMM1AUXCLG

CV7472 IGMMlVSF1CM j.7473 IGMM1VSF1DM 1D05 iDMM1000D05 ID05 IDMM1000DO5 1D15 IDMMIOWOD15

'LT2617 IQMM1L2617H

!LT2668 IQMM1L2668H

,PT2617A IQMM1P2617A IPT2668A

!QMM1P2668A I Prepared by)3. M. Walker I Reviewed by K. Ashley Page 27 Calc 02-E-0004-01, Rev. 1

'SV3815 IGMMITRAN2M 1SV3815 1GMM1TRAN2M SV5237 JEMMi DG2SAC SV5239 IEMM1DG2SAD VSF1C IGMMlVSFlCM IVSFIC IGMMlVSFlCM IVSH D IGMMIVS 1DM IVSF1D

-~IGMMIVSFlDM jxi jEMM1B6XXXX Y22 iDMM1Y221AC Y22 fDMMIY221AC Y22 IDMM1Y22AAC IDM~lY221A Y(22 IDMM1Y221AC 1Y22 IDMM1Y221ACj Y2222A Y22 DMM10Y22FD 1Y22

.IDS100Y22X 1Y22 IDMM1000Y22 Y22 DMM1000Y22 FY22 IDMM1Y2AC 1Y22 j-DMM1Y22AAC FY~22

~

IDMM1000Y22 IY22 IDMM1000Y22 J'(22 IDMM1Y221DC I

Prepared by J. M. Walker Reviewed by K. Ashley Page 28 Calc 02-E-0004-01, Rev. I Super C listing of PSA Fault tree Changes Baseline and Green train Wrapped Model Changes for Non-Transient Scenario Logic Changes:

30090 30090 CNTVLVFAILS OR 30092F OR 30092F AND QHFPWRSHT 30110 30110 HSCV2648 QCVIFW56BN OCV1 FW56BN 3OP7B-BMAN DELETED(OLD) 3QP7B-BMAN CNTVLVFAILS INSERT(NEW)

INSERT(NEW)

Baseline and Green train Wrapped Model Changes for Transient Scenario 30060 30060 -

30110 30110 CNTVLV2 3Q090 30090 CNTVLVFAILS OR 30062F OR *30062F OR QXV1F1016K OR CXVIFI106K AND QHFPWRSHT OR 3Q092F OR 30092F AND QHFPWRSHT 30110 30110 30211 30211 HSCV2646 30110 30110 HSCV2648 QCV1 FW56AN 30P7B.AMAN CNTVLV2 INSERT(NEW)

QCVIFW56AN 3QP7B-AMAN DELETED(OLD)

OMM1P7BTRA OMMlP7BTRF 3Q214 30112 HSCV2800 QMMIP7BTRA OMM1P7BTRF 30214 30112 DELETED(OLD INSERT(NEW)

QCV1FW56BN 3QP78-BMAN CNTVLVFAILS INSERT(NEW)

QCVIFW56BN 3OP7B-BMAN DELETED(OLD)

INSERT(NEW)

INSERT(NE1N Prepared by J. M. Walker I Reviewed by K. Ashley Page 29 Calc 02-E-0004-01, Rev. I Estimation of the Probability that a Hotshort will Close CV-2646 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 99-M.

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.

1. [Fl and F2 are not in contact] and [Fl 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 [FI is grounded and F2 is-not grounded (i.e., normally energized)]. For this case, the valve 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. [F1 and F2 are in contact] and [Fl 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.

l Prepared by J. K Walker Page 30 Calc 02-E-0004-ol, Rev. I I Reviewed by K. Ashley Recoveries The following recoveries were used in the original IPEEE analysis:

ICWCLGISO I

IOPERATOR FAILS TO ISOLATE ICW AFTER AUTO SW ISO. FAILS ON ES:

P7AMANREC OPERATOR FAILS TO START AND CONTROL P7A MANUALLY WHEN OFFSITE POWER IS AVAIL.

QP7BMANREC OPERATOR FAILS TO START AND CONTROL P7B MANUALLLY DURING FIRE MANDREC OPERATOR FAILS TO OPEN BRKR LOCALLY AT Al FROM UAT (A212 OR A211)

MANEDGREC OPERATOR FAILS TO MANUALLY CLOSE BREAKER 152-308 OR 152-408 MANEFWSTRT OPERATOR FAILS TO OVERRID FALSE EFW SIGNAL AND MANUALLY OPEN P71 ISO VLVS SGOFREC OPERATOR FAILS TO PREVENT SG OVERFILL DUE TO EXCESSIVE MAIN

_FEEDWATER FLOW SGOFREC2

= OPERATOR FAILS TO PREVENT SG OVERFILL DUE TO EXCESSIVE EFW SWECPREC OPERATOR FAILS TO ALIGN SW PUMPS TO ECP UPON LOSS OF SW SUCTION FLOW QHF1HPITR1 OPERATOR FAILS TO THROTTLE HPI TO PREVENT RCS PRESSURE RELIEF QHF1 HPITRD OPERATOR FAILS TO THROTTLE HPI TO PREVENT SRV LIQUID RELEASE QHF1RCPTRP OPERATOR FAILS TO TRIP RCPS ON 30 MINUTES UHF1THPIAD OPERATOR FAILS TO ATTEMPT HPI COOLING Note that Section 4.6 of Reference 1 listed only some of these recoveries, the others were located in the cutset file associated with zone 99-M.

The following post-initiator recoveries were not used in the original TPEEE model and were set to true in our analysis'as well.

OPER-13H OPERS FAIL TO RE-ENERGIZE Hl/H2 FROM ST2 GIVEN TRANS EVENT OPER-F1 OPERATOR FAILS TO CLOSE SW CROSSOVER VALVES TO PREVENT FLOW DIVERSION RHF1Bl000X OPERATOR FAILS TO OPEN CV-1000 OPER-1 5 OPER DOES NOT XFER TO D01 BACKUP CHRGR (D03) W/ENERGIZED SRC OPER-16 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 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.

OPER-1 3 OPERS FAIL TO RE-ENERGIZE A 1/A2 FROM ST2 GIVEN TRANS EVENT RHF1BLOCKD OPERATOR FAILS TO CLOSE BLOCK VALVE AFTER PRESS. RELIEF SWSWINGREC OPERATOR FAILS TO START AND ALIGN OP SW PUMP INCLUDING AVAILABLE POWER SOURCE Prepared by J. M. Walker IReviewed by K. Ashley Page 31 Calc 02-E-0004-o1, Rev. I

As discussed in assumption 8 of the calculation the following post initiator recoveries were credited in our assessment but not in the original IPEEE analysis.

XHFIMEDXXX XHF iSMAL.LX QHFPWRSHTf OPERATOR FAILS TO BEGIN HPR FOLLOWING M-LOCA OPERATOR FAILS TO BEGIN HPR FOLLOWING S-LOCA 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 P7AMANREC QP7BMANREC

MANDREC MANEDGREC QHFPWRSHT I Prepared by J. M. Walker I Reviewed by K. Ashley Page 32 Calc 02-E-0004-1, Rev.. I HRA Spreadsheet for QHFPWRSHT Ex-Control Room Model

1. EVENT QHFPVWROFF99m

2. EVENT IDENTIFICATION 2.1 Descriptor 2.2 Comment Operator fails to switch power off to CV-2646 and CV-2648 1106.006 discussion section

3. EVENT CATEGORIZATION 3.1 Event type 3.2 Location of action(s) 3.3 Failure mode post-initiator recovery ex-control room mistake

4. METHOD USED SAIC TRC system

5. INPUT PARAMETERS 5.1 Mean response time (min), ml 5.2 Additions to response time 5.3 Model error factor, fi 5.4 Adjustments to eiror factor 5.5 Model uncertainty error factor, fU 5.6 Available time (min), t

6. CALCULATED PARAMETERS no default default is 0 generic is 4.3905 default is 0 generic is 1.68 no default

l 10 5

default I

default 36 6.1 Adjusted mean response time, mean 6.2 Adjusted error factor, fR 6.3 Median response time, m

7. EVENT OCCURENCE PROBABILISTIC ESTIMATES.

7.1 Mean (explicitly includes associated equipment failures) 7.2 95th percentile 7.3 5th percentile 7.4 Error Factor 15.0 6.332 14.3 2.3E-01 3.6E-01 1.IE-01 1.84

8. ASSOCIATED EQUIPMENT RELIABILITY TREATMENT 8.1 Human reliability event mean failure probability 8.2 Associated equipment reliability limited (I=yes,0=no) 8.3 Associated equipment failure probability (see E49) 8.4 Combined human and equipment failure probability 2.3E-01 I

2.26E-OI I.-

I Prepared by J. M. Walker Reviewed by K. Ashley Page 33 Calc 02-E-0004-01, Rev. I

Aftachment 9 Initial List of Components Affected by the Transient Fire from Fire Protection Sorted into 5 Color Categories with Fire Protection Comments A104 Al 1 A112 A211 A212 A3 A302 A304 A305 A306 A307 A308 A31 0 A311 A4 A401 A402 A403 A404 A405 A406 A407 A408 A409 A410 A601 B15 B24 B25 B31 841 343 B44 B5 B512 B5122 B55 856 B5622B B5653 B57 B6 B61 Listed cables do not affect operation of A11 Listed cables do not affect operation of A112 RCDl I 04A provides control power to A3. Fire models determined that realistic fires would not Impact the cable.

Listed cables do not Impact operation of breaker Listed cable does not affect operation of A305 Fire models determined that realistic fires would not irfipact the associated cables.

Same cable as for P7B.

Component in zone.

Will not affect start of pump from control room.

Component in zone.

Component In zone.

Listed cable does not affect operation of component Listed cable does not affect ojeration of component Fire models determined that realistic fires would not impact the associated cables.

Fire models determined that realistic fires would not impact the associated cables.

Listed cable does not affect operation of breaker Swing appendix R component, but it is located in the zone.

Swing appendix R component, but it is located in the zone.

Component In zone.

Prepared by J. M. Walker I Reviewed by K. Ashley Page 34 Calc 02-E.0004-O1, Rev. I

9 b

9 9

b 9

99 b

9 b

b b

b B612 66123 B614 B6145A B6145B B62 B621 B622 B623 863 6633 B634 B64 B65 B7 6712 672 C187 C539 C540 Component in zone.

Component in zone.

Component In zone.

Component in zone.

Component in zone.

Component islisted due to loss of power source. However, source is RS1, which is unaffected for a fire In this zone.

9 9

b b

9 9

9 CV1000 Component is listed due to loss of power source (B61).

normally open position.

CV1009 CV1206 CV1221 Component is listed due to loss of power source (661).

normally open position.

CV1227 Component is listed due to loss of power source (861).

normally dosed position.

CV1228 Component is listed due io loss of power source (661).

normally closed position.

CV1274 Component Is listed due to loss of power source (861).

normally open position.

CV1400 Component is listed due to loss of power source (B61).

normally closed position. -

Valve will fail in Valve will fail in Valve will fail in Valve will fail in Valve will fail in Valve will fail in Valve will fail in Valve will fall In Valve will fail in g

0 9

g CV1404 CV1406 CV1408 9

b 9

9 b

b 9

CV1410 CV1416 CV1435

CV1437 CV2235 CV2613 CV2617 Component is listed due to loss of power source (861).

normally dosed position.

Component is listed.due to loss of power source (B61).

normally closed position.

Component is listed due to loss of power source (862).

normally closed position.

Valve listed due to loss of power (D25). D25 is not affected by a fire in this zone.

CV2618 Cable listed does not-impact valve operation. However, power to the valve (i.e. via RS2) is lost.

CV2619 Valve listed due to loss of power. If ADVs are not needed then valve is in correct position.

9 I

Prepared by J. M. Walker Reviewed by K. Ashley Page 35 Calc 02-E-0004-01, Rev. I

r b

This valve is powered from a red source (Di 5) but is classified green l

b because It Is associated with P7A.

CV2625 CV2626 Valve listed due to loss of power. Valve Is normally open. Therefore, loss of power causes valve to fail in proper position.

7T This valve is powered from a red source (DI5) but is classified green because It Is associated with P7A.

CV2630 r

CV2645 r

r r

CV2646 CV2647 CV2648 CV2663 CV2667 CV2668 CV2670 Valve listed due to loss of power. Loss of power causes valve to fail In proper position.

Valve listed due to loss of power. Loss of power causes valve to fail In proper position.

Valve listed due to loss of power. Valve Is normally open. Therefore, loss of power causes valve to fall In proper position.

b b

g r

U r

U CV2674 CV2680 CV2692 Fire models determined that realistic fires would not impact the associated cables.

CV2D02 This is a green train valve and was misidentified as red. It adds to the delta Ifor red), so the error is conservative.

CV2803 lCV2806 This is a green trign valve and was misidentified as red. It addz to the delta (f or red), to the error is conervntive.

CV2869 Fire models determined that realistic fires would not impact the associated cables.

CV2870 Valve listed due to loss of power (D25). Valve is normally closed. Therefore, loss of power causes valve lo fail in proper position.

t 1:

t 9

I CV3640 CV3641 I

CV3642 I

CV3643 I

CV3644 I

CV3807 I

CV3821 CV3840 I

CV3841 CV3850 CV3851 I

CV5611 I

.CV7472 I

CV7473 I

D05 D1104 D1109 g

r r

t Changed to a manual valve. Will not fail Component'is listed due to loss of power source (B62). Valve will fail in the

.closed position.

Valve listed due to apparent loss of power. However, power is from RS1, which is not affected In this zone.

Same cable for A3 This is the control power for B5 which was survived fire modeling I

Prepared by J. M. Walker Reviewed by K. Ashley Page 36 Calc 02-E-0004-41, Rev. I

r 9

g r

g g

b D15 D21 Component is listed due to loss of powersource '(D02). D02 is not affected by a fire in this zone.

02104 D2109 D25 Component is listed due to loss of power source (D02). D02 is not affected by a fire in this zone.

iK W1 lFire models determined that realistic fires would not impact the associated I

j cables.

K4B LTI 002 LT2617 LT2618 Component listed due to loss of power source (RS1). However, RS1 is unaffected in this zone.

LT2620 Component listed due to loss of power source (RSI). However, RS1 is unaffected in this zone.-

LT2622 Component listed due to loss of power source (Y28). However, Y28 is unaffected In this zone.

LT2624 Component listed due to loss of pbwer source (Y28). However, Y28 Is unaffected In this zone.

LT2667 Component listed due to loss of power source (RS1). However, RS1 is unaffected in this zone.

LT2668 LT2669 Component listed due to loss of power source (RS1). However, RS1 Is unaffected in this zone.

LT2671 Component listed due to loss of power source (Y28). However, Y28 Is unaffected in this zone.

LT2673 Component listed due to loss-of power source (Y28). However, Y28 is unaffected in this zone.

b b

9 g

M55A P1 6B P34B P3SA 0

9 r

0 9

g P36B P36C P4A iP64A IP7A I PT2617A__

Component is listed due to loss of power source (B61)

Fire models determined that realistic fires would not impact the associated cables.

Listed cables do not prevent remote operation.

Red train of pump would always be available.

Failure of cable does not prevent startihg of pump from control room.

JPT2618A.IComponent listed due to loss of power source (RS1). However, R.S1 is junaffected in this zone.

PT2618B Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

PT2667A Compbnent listed due to loss of power source (RS1). However, RS1 is unaffected in this zone.

PT2667B Component listed due to loss of power source (Y28). However, Y28 is unaffected in this zone.

.1 Prepared by J. M. Walker Reviewed by K. Ashley Page 37 Calc 02-E.0004-01. Rev..I

lb T2668A IfRA2 Component is listed due to loss of powersource (D02). D02is not affected by a fire in this zone.

SG2 Valve is normally open. Affected cables cannot cause spurious operation.

Ig

_SG4_

Jg 1SGG Ig SG7 l

SV1072 Component'is fisted due to loss of power source (D21) lSV1074 Component is listed due to loss of power source (D21). P21 Is not affected Lby a fire In this zone.

SVlO82 Component Isflisted due to loss of power source (D21). D21 is not affected by a fire in this zone.

ISVIa84 Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

1SV1o92 Component Is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

.SV1094 Component is listed due to loss of power source (D21). D21 is not affected

.by a fire in this zone.

SV1270 Component is listed due to loss of power source (D21). D21 is not affected i by a fire in this zone.

lSVl271 Component is listed due to loss of power source (D21). D21 is not affected I _ _jby a fire in this zone.

S VI1272 Component is listed due to loss of power source (D21). D21 is not affected by a fire in this zone.

'SYl1273 Component is listed due to loss of power source (D21). D21 is not affected by a fire inthiszone.

SV2613 IValve listed due to loss of power (D25). D25 is not affected by a fire In this b

,zone.

b lb SV3815 g 9 SV3841 b

S 5237 I

b 1SV5239 b

TE1 002A g

TV7902A Componentislistedduetolossofpowersource(B61)

Ig 1V7902B Component is listed due to loss of power source (B61) g oVEF24C Component is listed due to loss of power source (B61)

S1 IVEF24D Component is listed due to loss of power source (B61) lb EFC=2 l b VYSFID b

IVUCID b

VI.IC7B X03 Annunciator cables have no effect on component i 9 X6 Component In zone.

1 9 Y22 Component in zone.

9 1Y24 Component in zone.

g 1Y25 Component in zone. This is a new component ihat Is probably not in the I

_._ IPEEE model 9

EY2 l Prepared by J. M. Walker Page 38 Calc 02-E-0004-01. Rev. I i Reviewed by K. Ashley 0

List of affected basic events for Transient Baseline Case iRE1l

-BE-NAME A~211 tiERE1211SRR A211 IEMM1CB211X A211 EMM1CB211X A212 EMM1CB212X A212 IEMMlCB212X A307 HMM1 P36BFR A307 HMM1 P36BFS A308 EMMlCB308

,A308 EMM1CB308X 1A4 _ERE1A4LXXK A

fRE1A4X2UE A

i EMM1A4XXXX iA4

, ERE1A4X1UE A4 tEMM1A4XXXX 1A401

,EMM1 B6XXXX A403 ISCB1A403XR 1A403 iSMM1P4BXXA A40-5

jLMM1lMPP34B!

IA405 ILMM1MPP34Bi

{A406 HMM1P36CFS I

Il IA406

,_HMM1P36CFR

,AO48

,EMM1CB408X

!A408 EMM1CB408X jA409

!ECB1A409XR i

lA601 ISCB1A601XR i B55

EMM1 B55B56r

__._IM1BS5 855 M

EMM1B55B56 jB5 6.

1Eh~fi -

EM1SB 56 X B56

! EMM1 BSSB56s iB5622B jDMM1000D05 1

jB5653

!SMM1AUXCLG i

! B6 ERE1 B6XUXK i

i B6

, EMM1B6XXXX i

B6

,EMM1B6XXXX 1iB6 iERE1B6XUXE B61 j EMM1B61XXX iB61 i IEMM1 B61XXX B612 EMM1B6XXXX jB6123 7EMM1RMCLDA IB614

, EMM1B62XXX B62 IEMM1B62XXX B62 I EMM 1 B62XXX 8621 IEMM1B61XXX Prepared by J. M. Walker I Reviewed by K. Ashley Page 39 Calc 02-E-0004-O1, Rev. I

I I

I.1IIIIIIIIIIIIIIII

.I IIIIIIIIIIIIIIIIIIIIIIII 3B622 IEMM1B55B56 B623 7GMM1VSFiCM IB63 JEMM1B63XXX

'B63 IEMM1B63XXX B633 lG-MM1VSF1DM I IC187 QMM1_MSBATP CC187 IQMM1P2667A C187 CQMM126450A C187

OMM1MSABTP C187 IQMM1P2667A C187 IQMM1P2618B C187 TQMM1P2618B FC187

,IQMM1 L2622H 7C187 10MM126450A 1C187

!QMM1MSAATP C187

.QMM1L2673H C187 QMM126470A C187

!QMM1P2618A 1C187 QMM1P2617B IC187 QMM126470A

'C187 QMM1TMBEFW 1C187 10MM1P2667B

'C187

,QMM1P2617B i

IQMM1L.2.21H IC187 IQMM1L2621H lC187 IQLC1INBXXD

.C187 I

QLC1 INBPXD C187 I QB 1L2667N

,C187

!QLC1INAXXD 1C187 IQLC1INAPXD SC187 1QBI1L2622N C187 IQBI1L2618N I

C187

.QBI1L2671N C187 7QMM1MSBBTP IC187 IQMM1L2668H 7

IC187 I1QMM1L2624H IC187 iQMM1L2672H 7C187 jQMM1L2672H FC187 I QMM1P2668B 7Ci87 IQLCIINCXXD CI 87 I QLC1 INDPXD 7C187 IQMMlP2668A IC187

!QMM1P2668A rC187 IQLCIINDXXD.

IC187 IQMM1P2668B jC187 ifQLC1INCPXD I

1C 87 jQMM1vmBORC I

Prepared by J. M. Walker Reviewed by K. Ashecy Page 40 Calc 02-E-0004-01, Rev. Y

I I

III I

I I

II I

III I I II I

II II

.1 II II I

I.

I I'

I I

II II I

I IC187 IQMM1L262OH

{

1C187 LOMM1VMBORC I jC187 J0MM1P2667B C187 QMM1TMBEFW I C187 iOMM11L2618H i

C187 IQMM1L2617H IC187 iJQMMlL2617H C187

IQMM1L2669H C187

IQMM1P2617A C187 IJQMMlP2618A C187 IMMITMAEFW C187

IMMVMAORD C187 jQMMIVMAORD C187 IQMM1TMBEFW IC187

. IQMM1TMBEFW C187 IQMM1TMAEFW lC187 IQMM1L2668H jC187 iQMM1P2617A.

ICV1000 IRMM1CV1000

_CV1000

_RMM1IBlooC ICV1000 i RMMICV1000 teVio0o RMMlBlOOOC

!CV1206 1

HMM1 CV1206 tcvi 2 2i HMM1MU1214

!CV1227 fHMMlMU1214 ICV1228 IHMMIMU1215

!CV1228 HMM1MU1215 ICV1406

LMMICV1406

!0V1406 I

LMM1 CV1406__-

jCV1i4O8

.!LMM1CV1408 1CV1408 ILMM1CV1408 ICV1437 WLMV101437K jCV2617 OQMM1 SGBSTM jCV2618 IQAV1O2618C KCV2620 jIQMM1SGBP7A 1CV2625 FMM1CV2625

!CV2625 1FMM1CV2625 ICV2627 lQMM1SGAP7A.

I.

ICV2627 lQMM 1SGAP7A CV2630 iQMM1MSLIBA CV2630

-jQMM1MSLlBF i

CV2630 JFMM1SGBBVC I

CV2630IFMM1SGBBVC I

ECV2646 iQMM1 SGAP7B i

ICV2648

'QMM1SGBP7B I V

.663...

jQMM1TASADM'i I Prepared by J. M. WalkerPR Reviewed by K Ashley Page 4 1 Calc 02-E-0004-01, Rev. I

,CV2663 I QMM1TASADM I

1CV2663 tQTD1C2663F I

, CV2663 jQSV102663N CV2667 MM1SGASTM ICV2668 1QAV102668C i

ICV2674 iFMM1CV2674 I

,CV2674 IFMMICV2674 jCV2680 iFMM1SGABVCj CV2680 IQMMIMSLIAF CV2680 IFMM1SGABVC_

§V268O l QMM1MSLIAA _

,CV2800 QMM1P7BTRAj ICV2802 I QMM1P7ATRA i

tCv3640 SMM123BXXX i

!CV3642 ISMM123BXXX I

CV3643 iSMV13643XK CV3643 i~SMM1AUXCLG jCV3643 jSMM1AUXCLG ICV3644 1 SMV13644XR CV3644 _

SMM123AXXX j _

E.........

1CV3807

'EMM1DG2SWC j

CV3807 j EMM1lDG2SWC i

I CV3821 ISMMlE35BSW iCV3821 ISMM1E35BSW, ICV3841

! SMMIAV3841 jCV3841 ISMM1AV3841 I

'CV7472 IGMM1VSF1CM

.CV7473 TGMMIVSFlDM jD05

! DMM1000DO5 iD05 IDMM1000DO5 jD15 DMM100OD15 D2104 iDCD12104XR i

!K4A LERElDGILXK jK4A

!EREl DGIUXK jK4A

.EDG1DGlXXA j

K4A IEDGIDGlXXF

.K4A

[

EDG1A3X)(X

K4B IEDG1A4XXXO K4B iEREiDG2UXK K4B IEDGIDG2XXAI gK4B IEDG1DG2XXF I

IK4B IERE1DG2LXK.I tLT67QQMM1L2617Hj

LT2668 JQMM1L2668H I

IP16B

'EMM1DG2FXF I

IP16B IEMM1DG2FXA I

1P34B iLMM1MPP34B Prepared by J. M. Walker Reviewed by K. Ashley Page 42 Ca',c 02-E-0004-01, Rev. I"

1P34B

'LMM1MPP34B

-J P36B iAREIIP36BE P36B IHMM1P36BFS

!P36B IHMM1P36BFR p

I

, P36C

'-HOMM1 P36CFS

P36C jHMM1P36CFR l

IP7A sJQMM1P7ATRA, P7A

'QMMIP7ATRF_

PT2617A iQMMI1P2617A PT2668A.

lQMM1 P2668A I

RS2 IDB4100RS2F RS4__ iMANIP_I RS4 jFMM1NNIYPO JRS4

,-FMM1INNIYPO IRS4 IFMM1NNIYPO j

'RS4

'FMM1NNIYPO

,SG4

,SSG1SG4XXKi ISV3815 IGMMITRAN2M

'SV3B15

'GMM1TRAN2M K SV3841 ISMM1AV3841 SV3841

-SMM1AV3B41 rSV5237 IEMM1DG2SAC iSV5239 LEMM1DG2SAD ITV7902A

'EMC17902AN ITV7902A

_IEMM1RMCLCF ITV7902A I EMM1RMCLCA

'TV7902B

,EMC17902BN ITV7902BiEMM1RMCLDFi ITV7902B

'EMM1RMCLDA

,VSF1C IGMM1VSFICM IVSF1C

!GMM1VSF1CM

[VSFD

, GMM1VSF1DM X6SF D

GMM1VSF1DM X6 IEMM1B6XXXX

!Y22 IiDSIIOOY22X Y22 IDMM1Y221AC Y22 iDMM100OY22 Y22 iDMM1ODOY22 Y22 iDMM1Y22AAC Y_22 i DMM1Y22AAC IY22 DMM1000OY22 IY22 iDMM1000Y22

!Y22 IDSI100Y22F Y22 IDMM1Y221DC Y22 ijDMM1Y221AC

_____._._M_,,1_,Y22

'Y22 IDMM1Y221AC

,Y22 IDMM1Y221AC

.~~~

I Prepared by J. M. Walker I Reviewed by K. Ashley Page 43 -

Calc 02-E-0004-01, Rev. I

I IY2 M

DMM1Y221DC I [Y22 JDMMlY22AAC Prepared by J. M. Walker l Reviewed by K. Ashley Page 44 Calc 02-E-0004-01, Rev. I 0

Ls 1 List of affected basic events for Transient Green-Train Wrapped Case hisFCu1PITAGiiS7-R it' AMFI

,A211

!EMM1CB211X I

iA211 IERE1211SRR I

,A211

_IEMM1CB211X 21 EMMI.._

IA212 IEMM1CB212X A307 I EMM1CB212XF 1A307 IHMM1P36BFR

,A307 HMM1 P36BFS A308

!EMMlCB3.8X.

A308 IEMM1CB308X A4 IERE1X1UE.

,A4

,EMM1A4XXXX rA4 I EMM1A4XXXX j~A4 IERE1A4X2UE I

I

!7 IERE1A4LXXK

,i A4 0 1 IEMM1 B6XXX I A403 iSCB1A403XR I jA403 ISMM1P4BXXA j

IA405 LMM1MPP34B I,A405 LMM1lMPP34B IA406 I HMM1 P36CFR IA406 I HMM1 P36CFS I 7A408 EMM1CB408X i IA408 I EMM1CB408X IA409 IECB1A4O9XR I

IB55

!EMM1B55B56 7B55

[EMM1B55B56 B56 IEMM1B55B56 I B56 tEMM1B55B56 I B5622B IDMM1000DO5 I 1B5653 jSMM1AUXCLGI B6_

_ERE1B6XUXK I

ItB6 1EMM186XXXX I

I,86 IEMM1B6XXXX I

IB6 IE1B6XUXE I18612 iEMM1B6XXXX

,B612 EMM1RMLDA I B614 5EMMIB62XXX I

I 18621

,EMM1B61XXX I,B622

,EMM1B55B56 B623

.IGMM1VSF1CM i

IB633 iGMM1VSF1DM l,187 IQMMIL2672H l Prepared by 1. M. Walker Page 45 Calc 02-E-0004-o1, Rev. I Reviewed by K. Ashley

17 QMM1 L.267T2H 1C187

)0MM1P2668B C187

_ jQLC1INCXXD I

C187 TQLC11NDPXD C187 IQMM1P2668A j

1C187 tQMM1P2668A 1C187 IQLC1INDXXD iC187 IQMMIP2668B C1087 IQMM1L2668HI C1187 IQMM1VMBORC I C187 IQLC1INCPXD JC187

! QMM1L2624H I

C187 IQMM1VMBORC j IC187 IQMM1 P2667B I

IC187 QMM1lL2669H I

C187

QMM1TMAEFW iC187 IQMM1TMAEFW 1C187 IQMM1TMBEFW.

C187 I QMM1TMBEFW 1I187 iQMMIVMAORD fo187

.QMM1VMAORD 1C187 iQMM1L2668H I

IC1857 IQMM1P2618A 1C187

!QMM1P2617A I

jC187

,QMM1TMBEFW

.C187 IQMM1L2617H IC1B7 IQMMIP2617A IC187 IQMM1L2617H 0C187 jQMM1L2618H CC187 IQMM1L2620H i

IC187 I.QMM1MSBBTP I

Lp187 IQMM1P2617B I

jC187 IQMM1P2618A 1C187 1QMM126470A I

,C187 IQMM1MSBATPI

__C187 Q MM1MSAATP I j1087 1 QMM126470A 1C0187

,QMMIL2622H I

iC187 iQMM1P261FB I

1C187 QMM1 P2618B j[C187 QOMM1 P2667A1 IC187 jQMM1MSABTP 1

C187 QMM126450Aj 1C187 QMM1P2667A I

jC187 IQMM126450A I

IC187

.IQMM1TMBEFW i 0C187 iQMM1P2667B I

I I

I I. I I

I Prepared by J. M. Walker I Reviewed by K. Ashley Page 46 Calc 02-E-0004-01, Rev. I

iC187 IQMM1P2617B iC187 iQMM1L2621H l iC187

_ QMM1U2673H lIC187

'QMMIL2621H l'C187 IQLCIINBXXD 1C187

!QLC1INBPXD IC187 jQBI1L2667N C187 I QLC1 INAXXD C187 iQLC1INAPXD lIC187 QBI1L2622N IC187 IQBI1L2618N C187 JQBI1L2671N 1CV1206

HMM1CV1206 ICV2617 IQMM1SGBSTM iCV2620 IQMM1SGBP7A ICV2620 QIMM1SGBP7A CV2625 FMMI CV2625 ICV2625 IFMM1CV2625

!CV2627 IQMM1SGAP7A

,CV2627 i

MM1SGAP7A ICV2630

!QMM1MSLIBF II I

I iCV2630

!FMM1SGBBVC iCV2630 IFMM1SGBBVC

,CV2630

, QMM1 MSLIBA CV2646

'QMM1SGAP7B i

,CV2648 I QMM1SGBP7B CV2663 iQMM1TASADM I

CV2663 iQMM1TASADM M CV2663 fQTD1 C2663F

.CV2663 1QSV102663N ICV2667 iQMM1SGASTM i

jCV2668

[AV102668C j

'CV2674 FMM 1 CV2674 i

CV2674 jFMM1CV2674 i

CV2680.

,FMM1SGABVC I

rdV2680 IQMM1MSLIAF CV2680 IFMM1SGABVC 1CV2680

,QMM1MSLIAA ICV2800__

IQMM1P7BTRA

CV3640 lSMM123BXXX CV3643 ISMV13643XK CV3643

'SMM1AUXCLG CV3643 ISMM1AUXCLG 1CV7472 IGMM1VSF1CM iCV7473 iGMM1VSF1DM tD05 iDMM1000DO5 DO5

'IDMM1000D05 i

IPrepared by J. M. Walker Reviewed by K. Ashley Page 47 Calc 02-E.0004-O1, Rev. I

ID15 IDMM1OOOD15 K4A IERE1DG1UXK K4A IEDG1DG1XXA IK4A IEDG1DG1XXF jK4A EDG1A3XXXO K4A IERE1DG1LXK ILT2617 iQMM1L2617H I

!LT2668

QMM1 L2668H

'PT2617A IQMM1P2617A PT2668A

!QMM1P2668A SV3815 TGMM1TRAN2M, SV3815 IGMMITRAN2MI SV5237 I EMM1 DG2SAC SV5239 IEMM1DG2SAD lVSF1C jGMM1VSFICM I

_C.IGMM1Vi1Mi IVSF1D I GMM1VSF1DM jVSF1D jGMM1VSFIDM ix6

,EMM1B6XXXX I

1Y22 IDMM1Y221AC iY22

!DMM1Y221AC

Y22 iDMM1Y22AAC i

_fDMMIY22AC Y22 iDMM1Y22IAAC IY22 fDMM1Y221DC JY22 IDS1OY22F

!Y22 IDSIM1Y221X

!Y22 iDSiOOOY2F 3

!Y22 I DMM1000Y22 I

.I I

I II II II II I

_Y22 DMM1Y22AAC 1Y22

,DMM1Y22MC Y2-2

!IDMM1 00Y22 i1Y22

- I DMMi000Y22 IY2

!DMM1iY221DC I Prepared by J. M. Walker I Reviewed by K. Ashicy Page 48 Calc 02-E-0004-01, Rev. I

_w 2 List of affected basic events for Transient Red -Train Wrapped Case IQUUA.

Ii.

__N --ME. I RS2 jDB4100RS2F D2104 fDCD12104XR D05 j DMM1000D05 JB5622B

_75DMM1O00D05 D05 DM ODO5M1000 Y22

!DMMloaoY22 I

Y22 DMM1000Y22 1

Y22 IDMM1000Y22 Y22 i DMM1000Y22 i

Y22 DMM1Y22AAC I

Y22 IDMM1Y22C I

.1 II II I

.I III IIII I

.I I

II I

I I

.I

.I II I

I.Y22 J DMM1Y221AC lY22 jDMM1Y22iAC IY22

,DMM1Y221AC IY 1 22.

IDMM1Y221AC l

_FY22 IDMM1Y221AC Y22 DMMY221DC Y22 iDMMIY221DC Y22 i

DSI100Y22F I

IY22 DSIIO0Y22X

!A409 IECB1A409XRF t

IK4B 1EDG1A4XXX0 fK4B EDG1DG2XXA 1K4B IEDG1DG2XXF I

TV7902A lEMC17902AN 1

1TV7902B

[EMC17902BN fA4 jEMM1A4XXXX I

Ai IEMM1A4XXXX l

IEMM1 B55B56 1

856 iEMM1B55B56 B56 IEMM1B55B56 B56 IEMM1MB55B56 1

Ef5 JEMM1 B55B56 1

1B61

!EMM1B61XXX5 j621 IEMMIB61XXX j

iB62 IEMMIB62XXX I 1B614 iEMM1B62XX F B614 I EMM1 B62XXX1

@B63 2EMMXB63XXX j

IB63 iEMM1B63XXX B5 IEMM1B6XXXX I

Prepared by J. M. Walker Reviewed by K. Ashley Pagc 49 Calc 02-E-0004 Ol, Rev. I

iEMMI B6XXXX 1X6 jEMM1B6XXXX A401 EMM1B6XXXX-

_B612 EMMIB6XXXX

,A211 EMM1CB21 IX 1A211 IEMM1CB211X-A212

___ EMM1 CB212X A212 IEMM1CB212X A408 IEMM1CB408X

'A408 lEMM1CB408X P16B JEMM1DG2FXA P16B EMM1DG2FXF

,SV5237 EMM1DG2SAC iSV5239

,EMM1DG2SAD

.0yO7

',EMM1DG2SWC CV3807

'EMM1DG2SWC

~V7902A

_EMMRMCLCA 1TV7902A IEMM1RMCLCF jB6123 -

EMM1RMCLDA

.TV7902B fEMM _RMCLDA ITV7902B i EMM1RMCLDF

'A21.1 lERE1211SRR

[_

IEREtA4LXXK

'A4 IEREIA4X1UE

A4

! ERE1A4X2UE iB6 fERE1B6XUXE i ERE1B6XUXK

.K4B ERE1DG2LXK K4B

'ERE1 DG2UXK jCV2625 I FMMICV2625

_CV2625 IFMM1 CV2625 I CV2674 IFMM1 CV2674

!CV2674 i FMMICV2674 I

I I

I.

I I

I' I

I I

F

'RS4 IFMM1NNIYPO fRS4

_IFMMINNIYPO RS4 FMM1NNIYPO IRS4 IFMM1NNIYPO I

8 F

ICV2680 iFMM1SGABVC l

jCV2680 iFMM1SGABVC

[MV263O I FMM1SGBBVCI

!CV2630

!FMM1SGBBVC 4 jSV3815 IGMMITRAN2M j

SV3815 iGMM1TRAN2M 1 jB623 iGMMVVSF1CM jVSFIC JGMM1IVSFICM iCV7472 IGMM1VSFICM I

jSF1C _1VSFICM Prepared by i. M. Walker I Reviewed by K. Ashley Page 50 Calc 02-E.0004-01, Rev. I

I I

.I IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIII jVSF1D GMM1VSF1DM j

B633 IGMM1VSF1DM VSFID IGMM1VSFIDM CV7473 IGMMIVSF1DM I

CV1206 I HMM1CV1206 i

ICV1227 iHMMlMU1214 I

fCV1227

'HMM1MU1214 j

CV1228 IHMM1MU1215 CV1228

! HMM1MU1215 !

P36C IHMM1P36CFR A406 JHMM1P36CFR j A406 jHMM1P36CFSj P36C

HMM1P36CFS i

CV1406 ILMM1CV1406 CV1406

.iLMM1CV1406 t

I 408 ICV1408 jLMM1CV1408 '

PCV1408 iLMM1CV1408 P34B ILMM1MPP34B P34B M1MP4 A405 ILMM1MPP34B 1A405 jLMM1MPP34B 3CV1437 ILMV101437K iCV2618

.QAV1 02618C0 C187 jQBI1L2618N IC187 jQBI1L2622N C1087 1Q81IL2667N 1

C187.

IQBIIL267IN C187 iQLC1INAPXD I

C187 I QLC11NAXXD

C187 IQLC1INBPXD IC187 IQLC1INBXXD I

jC187

!QLC1INCPXD 1C187

!QLC1INCXXD '

,C187 QLCIINDPXD 1C87 IQLCIINDXXD iC187 1QMM126450A C18T7 IQMM126450A I

rC187

!QMM126470A l

,1087 QMM126470A j

C187 ____jQMM1 L2617H LT2617 QMM1L2617H I

QC187 lQMM1L2617H 0C187 i !QMM1L2618H iC187 jQMM1L2620H IC187 iQMM1L2621H EC187 iQMMIL2621H C1187

MM1L2622H

.. _mm.

I Prepared by J. M. Walker I Reviewed by K. Ashley Page 51 Calc 02-E-0004-01, Rev. I J

1C187 IQMM1L2624H j C187 1 QMM1 L2668H C187 I QMM1L2668H LT2668 1QMM1L2668H C187 1 QMM1 2669H C187 IeQMM11L2672H 1C187 tQMM1LU672H IC187 IQMM1L2673H

_C187 QMMIMSAATP 1I187

!QMM1MSABTP Ij187 IQMM1MSBATP e0187 jQMM1MSBBTP

!CV2680 IQMM1MSLIAA i.jCV2680 IQMM1MSLIAF KV2630 IQMM1MSLIBA jYC26 IQMMiMSLIBF

'PT2617A

!QMM1P2617A C187 IQMM1P2617A j

0C187 iQMM1P2617A

.1 C187 IQMM1P2617B t

1C187 1QMM1P2617B lC187 IQMM1P2618A

,C187 I QMM1P261B8A lC87 iQMM IP2618BB CC187 eQMMlP2618B jC187 iQMM1P2667A

'C187 C187 ---

I QMM1lP2667B t-d-r fH6

_187 IQMMlP2667B 1C187

!QMMiP2668A C187 iQMM1P2668A IPT2668A QMM1 P2668A C187 IQMM1P2668B C1187

!QMMlP2668B i

jP7A j

QMM1P7ATRA ICV2802 iQMM1P7ATRA I

P7A QMMI P7ATRF I

lCV2617 JQMM1SGBSTM iC187 I QMM1TMAEFWj C187 IQMM1TMAEFW J

C187 IQMMITMBEFW I C187

!QMM1TMBEFW C1C87 CQMMITMBEFW C187 IQMMlVMAORD IC187

!QMM1VMAORD iC187 iQMM1VMBORC I

Prepared by J. M. Walker Reviewed by K. Ashley Page 52 Calc 02-E-0004-01, Rev. I

jC187

,iQMMIVMBORC.;

I iCV1000

!RMMIB1000C l jCV1000 IRMMIB1000C ICV1OOO tRMM1CV1000 I

CV1000 O IRMM1CV1000 I A403 iSCB1A403XR l 1CV3644

'SMM123AXXX CV3640 SMM123BXXX CV3642 J4 SMM123BXXX I

B5653

!SMM1AUXCLG C

CV3643

,SMMIAUXCLG CV3643 ISMM1AUXCLG I CV81 iSMM1AV384I I lSV3841

,SMM1AV3841 I jSV3841 JSMM1AV3841 l jCV3841

,SMM1AV3841 i

CV3821 ISMMlE35BSW iCV3821 ISMMIE35BSW _

I':A403

'SMM1P4BXXAJ l,CV3643

!SMV13643XK i

l !CV3644 SMV13644XR.

l jSG4

'SSG1SG4XXK f*

I Prepared by J. M. Walker I Reviewed by K. Ashley Page 53 Calc 02-E-0004-01, Rev. I

NUCLEAR QuALUT RELATED AD.103 REV. No. 2 4ftEntr t MANAGEMENT De MANUAL ADMINISTRATIVE PROCEDURE Page 32 of 33 ATTACHMENT 9.10 HARD COPY STORAGE FORM

[Typical RECORDIDOCUMENT TO BE RETAINED IN HARD COPY FORM REMOVED FROM FILE HARD COPY NUMBER e OCk-#'a U' REMOVED FROM RECORD?DOCUMENTNUMBER

-i a)s\\-

\\

ITEM IDENTIFICATION

\\

' X i.

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

ARKANSAS NUCLEAR ONE Pag I

E-DOC TITLE:

E-DOC NO.

CHANGE NO.

CALCULATION SUBMITTAL SHEET 5010.015-ATT-5 002-00-0 This Document Contains I Page(s)

Arkansas Nuclear One CALCULATION SUBMITTAL SHEE1r 31 k4'102 TO: ADMINISTRATIVE SERVICES FROM:

Jessica walker DATE:

.-.A' Ai 02-e-&6WO`20 CALCULATION NO.:

REV. NO.:

0 STATUS:

a The purpose or tis submittal is to Identify the status of the Icalculation as of this date.

I Remarks: Initial submittal of Zone 983 SDP for CR-ANO-1-2001-0723.

Status Codes P

(Pending)

Not Currently Installed, awaiting a Technical Specification change or design change implementation A

(Active)

Qualified Existing Installed Condition H

(Historical)

Historical Record, not replaced with a revised or new calculation and can be used as a reference.

Provide remarks if classification of the calculation into one of these status codes needs further clarification. Also, for status of P provide remarks that Identify when calculation status is expected to change (i.e., what actions are planned-design change package number, Condition Report and Action item number etc.). It should be understood that any schedule information provided will be preliminary.

cc: Caic File

I loy t-ruett - FbA Calcs related to tire in zones 99-M and 98-J Page From:

"LLOYD, MICHAEL" <MLLOYD~entergy.com>

To:

"Troy Puitt (E-mail)" <twp~nrc.gov>

Date:

8/26/02 10:18AM

Subject:

PSA Calcs related to fire in zones 99-M and 98-J

Troy, Per your request, I have attached two PDF files. File 007ocd~e.pdf is an image of Calculation 02-E-0004-02, Rev. 0 which documents the calculation of the CCDP for a fire in zone 98-J.

File 0084avOe.pdf is an image of Calculation 02-E-0004-01, Rev. I which documents the calculation of the CCDP for a fire in zone 99-M.

Note that these calcs report CCDPs for zones 98-J and 99-M. The fire frequency for each of these zones is required to generate the fire CDFs. Woody Walker generated the fire frequency values and I have left a message for him to provide these values to you. If you don't hear from him, call him at (479) 58-4923.

<<0084avOe.pdf>>> <<007ocd0e.pdf>>

Jessica Walker, the preparer of the above calculations, will be in the office on Tuesday morning (8/27).

She should be able to answer any questions you have on them. If you need help before then, call me and I will try to help or will get someone else to help.

Mike Lloyd Internal Phone: 8-759-4654 External Phone: 501-858-4654 eMail Address: mlloyd~entergy.com <maiIto:mrloyd~entergy.com>

Internal Mail: N-GSB-3W US Mail: Arkansas Nuclear One N-GSB-3W 1448 SR 333 Russellville, AR 72801 CC:

"WALKER, JESSICA M" <JWALK12@entergy.com>, "FOUTS, DANIEL W"

<DFOUTS~entergy.com>, "WALKER, WOODY" <JWALKE2@entergy.com>, "ROBINSON, THOMAS D" <TROBINS~entergy.com>

ML040680541

Text

Title:

Title:

Purpose:

References:

Subject:

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