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NUCLEAR 'ENGINEERINGCALCULATION / STUDY COVER SHEET
andNUCLEAR RECORDS TRANSMITTAL SHEET
File ¹ R2-1
1. Page 1 ofi%5
*D2. TYPE
5. TRANSHITTAL¹:
c 9. DESCRIPTION:
LC t 3. NUMBER: EC — ( n4. REVISION:
0 9'l *c6. UNIT: ~ *c7. QUALITY CLASS: ~ +c8. DISCIPLINE: ~I1, 4...
10. Old Calculation¹: G'-e - 1- i - 3 Alternate¹:
SUPERCEDED BY: EC-
ll. Cycle:
12. Computer Code or Yodel used:
13. Application:
*c 14. AFFECTED SYSTEHS:
** If N/A then line 15 is mandatory.
*t 15. NON-SYSTEM DESIGNATOR:Pm ir-
16. Affected Documents: 6~ - ioo
Fiche [ ] Discs [ ] Amount
17. References: L 8 -I6o-
0- E-18. Equipment / Component ¹:
19. DBD Number:
c 20. PREPARED BY
Print Name
L 3-3 QL S'5-J L, 6-I
QP- 5 - I
SE'- B. uA-
c 21. REVIEWED BY
Print Name
ec-tN'-Idl
si gnature N/A BACKFITEFFORT
c 22. APPROVED BY / DATE
IVISM~r~ /5'-2'B-'I'tIsignature N/A BACKFITEFFORT
signature N/A BACKFITEFFORT
23. ACCEPTED BY PP8L / DATE
Print Name
signature N/A BACKFITEFFORT
YYO aE Y 1RjCL RECORDS
NR-DCS SIGNATURE/DATEItr
ADD A NEW COVER PAG FOR EACH REVISIONFORH NEPH.OA-0221-1, Revision 1 CALCLOGiNEPHiFORH221.R1A
* Verified Fieldsc REQUIRED FIELDS
9b05010079 qb0423PDR ADQCK 05000387
"P PDR
gr''
~ ~ ~ NUCLEAR FUELS 8( SYSTEMS ENGINEERING
ANALYSIS/CALCULATIONCOYER SHEET
Calc. No...I
Superseded bySRMS File Qpdy'-,=='-.
6'2:.'BI I'03aqJ 2n<ick
TITLE: safe shutdown paths for Fires outside"control Room
SSES UNIT
SSES CYCLE NA
Rev.No.
Total No.of Pages Prepared By
S.S. HowzeE. E ~ RamikJ.N. ManoleasL.S. Weed
Date
7/19/857/26/858/14/854/17/861/30/87
Reviewed By Date
1-30-'5 t
Approved By Date
<hC/CP
io/jg/pp 1%2 8$ lo 0o
«Xnd vidual responsbile o ly for t ose sheets onHUC
ich xs
EIVEDT 2ZIS87
EAR ItEC. SYS.
aetna ure e
Explanation of Difference BetweenSE-B-NA-16 Rev. 2 and SE-B-NA-016 Rev. 3
Rev. 3 to SE»B-NA«016 is a complete revision to the previous Rev. 2. Themajor changes are that the number of paths to,safe shutdown were reduced fromsix to three. Xn addition, shutdown in the event of a fire in the MainControl Room Study SE-B-NA-015 was completely integrated into SE-B-NA-016.Path 1 and 3 remain the same. Path 2 is now shutdown using systems on theRemote Shutdown Panel or local controls outside the Control Room.
~ ~ ~
$Q-y.gl-ol io
REVISION DESCRIPTION INDEX
Rev.No.
RevisedPages
AffectedSections Description/Purpose of Revision
303092
3'']
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4S,~'I
86'Er
dt's
d7,~ot5'S'I
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i75157r5 7S7<835
APPfNDIX Asonant
PI 10502PT 10502CC5 5-I-I-Contro ICSS-I-II-ControlIP-219IP-22051-150018 .FY li903FY li903AES-li903F IC-16903RCIC-I-I-ControlRCIC-I-lI-ControlSV-12656AIT-213SV-1265ib17-212AOS-I-I-ControlADS-I-ll-ControlLI5-821-1HOl2A,SPS-El 1-IKOIOA',B,C,OPS-E21-1K022A,S,C,D,E, F
6eKeJeieLeHeKePeReSHY-IF006CeOKV-EI1- IF006C,OFI-15105fY-15105E 5-112018RKR-I-I-ControlRHR-l-lI-ControlPS-6 II-IK0168e 0PS Ell IK0208eOPS E21 IN022AebeCegeEeF
6,K,J,K,L,H,H,P,R,SL1-1577682P 1-157288PT-157288T 1-1579082TT 1579082TE-167908TI-15751TI-IS752T1-157528TT-157258TE 15725TE-15751TE-15756TE-15761TE-1574Ll-16262PI-16262
F I -11207bES-f 12078LIIS 821-IK026AebeCeOFPO 3-28 i 1.2.3elFP0-3.28.5 ISCe2SCfPO 3 28 AS 3eiFP0.3-29 l 1.2.3elFPO 3-29 5A-ISC.2SCFPO-3 29 SA 3,iff V-S'0 l-rFurls
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If'~15701A
Section
ReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactorReactor
Coolant NakoupCoolant HaksupCoolant MakeupCoolant HakcupCoolant HakcupCoolant NakeupCoolant MakeupCoolant HakeupCoolant HakoupCoolant MakeupCoolant HakeupCoolant HakeupCoolant MakeupHeat RcsevalHeat RemovalKeat RcsevalHeat RemovalHeat RemovalHeat RemovalHeat RcsevalHeat RcsevalHeat Rcseval
HonftorfngHonf tor1ngHon1 to ringHonf torfngNonf turingNonf torfngNonftorfngHonftor1ngHon1tor1ngHon1 tor 1 ngHoof torfngHonf torfngHon1torfngHonitorfngNonitorfngHonf toring
ftorfng
AssociatedAssociatedAssoc1stcdAssociatedAssociatedAssoc1atedAssoc1atedAssociatedAssociatedQwa s rvr
Support FunctionSupport FunctionSupport FunctionSupport Funct1onSupport FunctionSupport FunctionSupport Funct1onSupport funct1onSupport Funct1onCoe'/oct's,rrrvfs
III~ ese 4+sP
rsvp I ~
7
Reactor Heat RcsevalReactor Heat RcsevalReactor Heat RcsevalReactor Heat RemovalReactor Heat ResevalReactor Host RemovalReactor Heat RcsevalReactor Heat Rm>valReactor Heat RcsevalReactor Heat Rcsaval
Qstm
Ha1n Steam lso. VaHain Steam lso. YaCore Spray Sys.Core Spray Sys.RCIC SystcaRCIC SystcaRCIC SystcaRCIC SystoaRCIC SystoaRCIC SysteaRCIC SysteaRCIC SysteaRCIC SysteaADSADSADSAOSADSADSADSADSADS
RHR SystemRHR SysteaRHR SysteaRHR SystemRHR SysteaRKR SystoaRHR 5ystoaRKR SysteaRKR SystoaSafety Relief
Yal'KR
Scrv1ce H 0 SysRKR Service K 0 SysReactor building KvReactor Building KVReactor Building KveReactor Bufld1ng KVs
Reactor building HVIReactor Building KV<Reactor Building Kvr
p s rC. Sr r'foe
~ ~ ~ REVISION DESCRIPTION INDEX gC.
Rev.No.
RevisedPages
AffectedSections Description/Pur ose of peyisjon
7,3737$
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7777
~ 7777777 "e)
W)"o3t77 ~
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APPEKDIX 8
loonyP 1-20502 ~
I'T 20502CCSS-2-I-ControlCSS-2-ll-ControlZP ZIIZP 220F Y2l903FY24903AES24903Sl-2$001bSE 25001FIC 24903RCIC 2-I-ControlRCIC-2-ll-ControlSV 22654A27 21)Sre22664IZT 212AD5~ 2-I-Con tro IAOS 2-1 I-ControlL IS-I21-2H042A,IPS Ell ZHOIOA,I,C,OPS-Itl ZROZZA<I<C<O<Eefe
CH<IXLNRPRSHV Ell tf006O<CFl 2510$FY02$10$ES-21201ARHR-2-I-ControlRHR-2-I-Contre IPS-6 II-ZHOIIAelPS EII-ZNDZOA,bPS btl ZIRIZZAebeC<OeEefe
CeHeJ<R<L~betob<SLT 25776ALI-2$776AZ~ I-2STZRAPT-2$ 72IATl 2$ 790AZTT-ZS790AZTE 2$ 790bTE 25751TE 2$ 7S4TE 25741TE 25764TI 2575171-25752TI ZS72SATT 25725ATE 25725LI-24242
Pl 24242F I 21207AES ZL207AFPO 3 33& 1,2,3,lfPD ) 3) 5 lete3<lFPO 3 344-1<2.3<4fPD 3 34-$ 6 1,2,3,lH I'-I-g Faqg
44k
Section
Reactor Coolant Nakeup4actor Coolant NakeupReactor Coolant NakwpI'eaccor coolant Nakeup
~mr Coolant Nakeup4iccor Coolant NakeupReactor Coolant NakeupReaCter COOlant NakeupReactor Coolant NakeupReactor Coolant NakwpReactor Coolant NakeupReactor Coolant NakeueReactor Coolant NakeupReactor Coolant NakeupReactor Heat 4aovalReactor Heat ReaoralReactor Heat RaaovalReeetar Heat ReaOValReactor Heat RaaovalReactor Heat ReaovalReactor Heat 4aoral4actor Heat Reaoval4ector HeaC 4aoral
Reactor Heat Revival4accor Heat ReaovalReactor Heat 4aoval4actor Heat ReaovalReactor Heat 4aovalReactor Heat 4aoralReactor Heat ReaovaiReactor Heat 4aovalReactor Heat Reaorel
Noni torinbNoni tor inbNOOICorIOINohiiorihbNon ItorinbNoni tor inbNohi ter InbNoni tOr InbHonitorInbNon'I 'to<'I nbNonI ter lnbNonl ter In 9Non itori nbHon'I Co)'OQNculicorihbNoni ter inblb)estorIOI
Noni Co<'ihbAssocIated 5upporc FunctionAssociated Support FunctionAssociated Support functIonAssociated Support functionAssociated Support FunctionAssociated Support function
+o„fw- C~/wP 4 Irrup
+~ e Nl' 'og
~Ss tea
Na Ih Stem lso. Vale<Nein Stean lso. Vair<Core Spray Syst«Core Spray 5yst«RCIC SysteaRCIC Syst«RCIC SysteaRCIC Syst«RCIC Syst«RCIC SystmRCIC SysteaRCIC SystmRCIC Syst«RCIC Sys teaADSAOSAOSAOSA05AOS
ADSAOS ~
AOS
RHR Syst«RHR SysteaRHR Sysc«RHR SysteaRHR SysteaRHR Syst«RHR CystaaRHR SysteaSaimety Relief Valves
RHR Service HZO Sys.RHR Service H 0 Sys.4actor build)nb HVA
Reactor bulldinb HYA
Reactor bulldin9 HVA<
Reactor Iulldinb HVA~
R cx~
lT- Q0 QCQ
XLf'570llf
~~S~ COPE PAR.LSLt
5E O-uIIL-OI4REVISION DESCRIPTION INDEX
Rev.No.
RevisedPages
AffectedSections Description/Purpose of Revision
3333
33
3333
3
3
3B
3
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APPENOIX C
HY<LLLOA
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HVeO IL22le 0
FSL<780LA; 0
FPW 12 49eLO ~ LL~ L2eL3 ~
ll,lfe Lle19 e20e
2 1 e 22 e 23 e 2l e 29C
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10 ~ lle12el3elle15e 16 e20SCe2LSCe
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FP0-3 21 10 1
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HYe01120A
HY<LLL29
HV&LL229
HV 011120
HV<LL220
TSH~FLCe0~ 202 LAe ~ e C e 0
TSN~TLeAeCOP $33E
OP-SllEOP $3CE
OP $ 316
DC A thru E
DC A thru E
OC A thru E
OE-$ 49 A thtu A
SY444$ EL L,E1-2,Q L,Q 2OV$ 12EL eQ eE3eEi
SECTIOI ~
Assoclate4 Support Func.
Associated Support func.Associated Support func.Associate4 Support Func.Assoc1ate4 Support Func.
Associated Support Func.
~SY T01
-Saw4a H 0 j,East. Service H20 S.
East. Setulca H20 S.
Encl'. Setusce H20 S.
Eaer. Seruice N20 S.
Control Structure Nl
Control Structure Ne
Associated Support func.Associated Support Func,
Associated Support func.Assoc1atad Support Func
Assoc1ato4 Support func.Assoc1ata4 Su pport Func.
Associated Support Func.Associated Support Func.Assocsated Support Func.Associated Support func.Associated Support Func.Associated Support Func.Associated Support func.Associated Support Func.Assoc1ated Support Func.
Assoc1ated Support Func.Assoc1ated Support Func.
Assoclate4 Support Func.Assoc late4 Support Func.
Associated Support func.Associated Support func.
Control StructureH'ontrolStructure Xl
ESSH Puaphouse HYAC
ESSH Puaphouse HVAC
ESSH Puaphouse HVAC
ESSH Puaphouse HYAC
ESSLI Puaphouse HYAC
ESSH hsaphouse HVAC
Eaer. 01esol Cen. H
Eaer. Diesel Can. N
Eeet. Diesel Cen. N
Eaer. 01esal ion. Hl
Enure 01eael Cell ~ Hl
Eaer. 01esol Coa. Xi
Eaer. 01esel Cen. Hi
Eser. Diesel Cen. Nl
Eeet 01esel Cen. Nl
Eaer. Diesel Con. Nl
Encl'iesel Cen, Hl
Eaer. 01esel Cen, lnEasr. Diesel Cen. Hl
Associated Support Func. Control Structure H
CI
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C)I
C)C)
C3
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Associated Support Func. Eaer. Diesel Cen. N
Associated Suppott func. Eaer. 01asel Cen. N
AaaOClate4 Suppcrt FunC. Eaer. 01eael Cen,'
Assoc'iate4 Support Funce Eaere Diesel Cene kAssociated Support Func. Eaer. Diesel Cen. H
Associate4 Suppott Func., Eaer. Diesel Cen, H.
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BEST t',OP% AN:LABLE
5E-8-IA-a l 4REVISION DESCRIPTION INDEX
Rdv.No.
RevisedPages
AffectedSections Description/Purpose of Revision
IX9(2$73kI')9IQQ
Ig9
APPEKDrx 0COHPOHEHT
HV-15766
HV-157686" Line H88-121
HV-25766
HV-257686" Line H88-221
SECTION
Iso. Valves (I)fso. Valves (I)Supp. Pool (I)Iso. Valves (I:.)Iso. Valves (II)Supp. Pool ( I;)
SYS
F lo» Oivers:Flow OiversiFlow DiversiFlow OiverscFlow Oivers>
Flow Oiverss
a
cs:
aI
OOcvnCJa
APPENDIX R - SAFE SHUTDOWN COMPONENT LIST
INDEX
Section 1.0
Section 2.0
Section 3.0
Section 4.0
Section 5.0
Section 6.0
Section 7.0
Section 8.0
Section 9.0
Figure 1.0
Figure 2.0
Table 1.0
Table 2.0
Table 3.0
Objective
Criteria
Methodology
Identification Of Required Components
Shutdown Paths By Location
Flow Diversion Paths
Time Line Scenarios
Criteria For Adding New Components To TheSafe Shutdown List
References
Shutdown Procedures
Shutdown Procedures
Safe Shutdown System/Path
Time Line Scenario - Path 1/3 ADS/Core Spray
Time Line Scenario - Path 2 RCIC/Shutdown Cooling
Appendix A - Unit 81 Required Components
- Reactivity ControlA. CRD System (SCRAM Only)B. Reactor Recirculation System
- Reactor Coolant MakeupA. Main Steam Isolation ValvesB. Core SprayC. RCICD. Nuclear Boiler Instrumentation
- Reactor Heat Removal ProcessA. Automatic Depressurization System (ADS)B. RHR SystemC. Safety Relief Valves
IV - Monitoring
V - Associated Support Functions
Page 2~
A. RHRSW
B. Reactor Building HYAC
VI - Electrical System
Appendix B - Unit ¹2 Required Components
I - Reactivity ControlA. CRD System (SCRAM Only)B. Reactor Recirculation System
II - Reactor Coolant MakeupA. Main Steam Isolation ValvesB. Core SprayC. RCICD. Nuclear Boiler Instrumentation
III - Reactor Heat Removal ProcessA. Automatic Depressurization System (ADS)B. RHR SystemC. Safety Relief Valves
IV - Monitoring
V - Associated Support FunctionsA. RHRSW
B. Reactor Building HVAC
VI - Electrical System
Appendix C - Common Required Components
I - Associated Support FunctionsA. ESW
B. Control Structure HVACC. ESSW Pumphouse HVACD. Diesel Generator HVAC And Auxiliary Systems
II - Electrical System
Appendix D - Flow Diversion Paths
I - Unit ¹I - Flow DiversionA. Isolation ValvesB. RCICC. ADSD. Core SprayE. RHR
F. RHR Service WaterG. Suppression Pool MonitoringH. CRD
I. Main SteamJ. Reactor Vessel Loss of Coolant
II - Unit 82 - Flow DiversionA. Isolation ValvesB. RCICC. ADS
D. Core SprayE. RHR
F. RHR Service WaterG. Suppression Pool MonitoringH. CRDI. Main SteamJ. Reactor Vessel Loss of Coolant
III - Common-Flow DiversionA. Emergency Service Water System
Appendix E — Non-Fire Unit Shutdown Components
APPENDIX R
SE -B- N A<0 1 6 Rey, 3
Page ~q~SAFE SHUTDOWN COMPONENT LIST
1. 0 OBJ ECT'IVE
The objective of this analysis is to identify those systems andcomponents within these systems which are necessary to achieve andmaintain safe shutdown to cold shutdown in accordance with 10CFR50Appendix R Section G, J 8 0. The systems identified are segregated intosafe shutdown paths. The Appendix R criteria for achieving andmaintaining cold shutdown is satisfied when it is demonstrated that atleast one safe path remains functional for the conditions of a fire inany given fire area coupled with a loss of off-site power (LOOP). Sincethe LOOP also affects the non-fire unit, the systems and components
. within these systems necessary to achieve and maintain cold shutdown forthe non-fire unit have also been identified. The Appendix R criteria forachieving and maintaining cold shutdown is satisfied when it isdemonstrated that a fire in one unit cannot prevent shutdown of thenon-fire unit, or fire in a common area cannot prevent shutdown of bothnon-fire units.
2.0 CRITERIA
The systems and equipment needed for post fire safe shutdown are thosesystems necessary to perform the following shutdown functions:reactivity control, reactor coolant makeup, reactor heat removal, processmonitoring and associated suppor<'~functions. The acceptance criteria forsystems performing these functions„„is defined in Appendix R as follows:
o Alternative or dedicated shutdown capability provided for aspecific fire area shall be able to (a) achieve and maintainsubcritical reactivity conditions in the reactor; (b) maintainreactor coolant inventory; (c) achieve and maintain hotshutdown; (d) achieve cold shutdown conditions within 72 hours;and (e) maintain cold shutdown conditions thereafter. Duringthe postfire shutdown, the reactor coolant system processvariables shall be maintained within those predicted for a lossof normal a.c. power, and the fission product boundaryintegrity shall not be affected; ie., there shall be no fuelclad damage, rupture of any .primary coolant boundary, orrupture of the containment boundary.
The performance goals for the shutdown functions shall be:
a. The reactivity control function shall be capable ofachieving and maintaining cold shutdown reactivityconditions.
b. The reactor coolant makeup function shall be capable ofmaintaining the reactor coolant level above the top of thecore.
I
SE -B- NA-.-OI6 Rev. „:
Page~~c. The reactor heat removal function shall be capable of
achieving and maintaining decay heat removal.
d. The process monitoring function shall be capable ofproviding direct readings of the process variablesnecessary to perform and control the above functions.
e. The supporting functions shall be capable of providing theprocess cooling, lubrication, etc., necessary to permitthe operation of the-equipment used for safe shutdownfunctions.
The shutdown capability for specific fire areas may be uniquefor each such area, or it may be one unique combination ofsystems for all such areas. In either case, the alternativeshutdown capability shall be independent of the specific firearea(s) and shall accommodate postfire conditions whereoff-site power is available and where off-site power is notavailable for 72 hours. Procedures shall be in effect toimplement this capability.
If the capability to achieve and maintain cold shutdown willnot be available because of fire damage, the equipment andsystems comprising the means to achieve and maintain the hotstandby or hot shutdown condition shall be capable ofmaintaining such conditions until cold shutdown can beachieved. If such equipment and systems will not be capable ofbeing powered by both onsite and off-site electric powersystems because of fire damage, an independent onsite powersystem shall be provided. The number of operating shiftpersonnel, exclusive of fire brigade members, required tooperate such equipment and systems shall be on site at alltimes.
o Equipment and systems comprising the means to achieve andmaintain cold shutdown conditions shall not be damaged by fire;or the fire damage to such equipment and systems shall belimited so that the systems can be made operable and coldshutdown can be achieved within 72 hours. Materials for suchrepairs shall be readily available on site and procedures shallbe in effect to implement such repairs. If such equipment andsystems used prior to 72 hours after the fire will not becapable of being powered by both onsite and off-site electricpower systems because of fire damage, an independent onsitepower system shall be provided. Equipment and systems usedafter 72 hours may be powered by off-site power only.
o Shutdown systems installed to ensure postfire shutdowncapability need not be designed to meet seismic Category Icriteria, single failure criteria, or other design basisaccident criteria, except where required for other reasons,e.g., because of interface with or impact on existing safetysystems, or because of adverse valve actions due to firedamage.
o The safe shutdown equipm nt and systems for each fire areashall be known to be isolated from associated non-safetycircuits in the fire area so that hot shorts, open circuits orshorts to ground in the associated circuits will not preventoperation of the safe shutdown equipment. The separation andbarriers between trays and conduits containing associatedcircuits of one safe shutdown division and trays and conduitscontaining associated circuits or safe shutdown cables from theredundant division, or the isolation of these associatedcircuits from the safe shutdown equipment, shall be such that apostulated fire involving associated circuits will not preventsafe shutdown.
Other than a loss of off-site power, no Design Basis Event or non-firedamage induced equipment failure is considered in conjunction with afire.
3.0 METHODOLOGY
Three (3) Safe Shutdown Paths were developed for use in achieving andmaintaining cold shutdown. The systems for each Safe Shutdown Path areshown on Table 1.
SE B NA 01'6 Rev 3
Page~(q;
This page is left intentionally blank.
The required components for Safe Shutdown Paths 1, 2 and 3 (i.e. requiredsystems and components) were identified from a review of the PAID's forthose systems specified in the procedures identified in Figures 1.0 and2.0. These procedures specify the shutdown of the unit from Scram throughdepressurization to a cold shutdown condition.
As shown on Figure 1.0, the Reactor Scram Procedure directly identifiessix frontline safe shutdown systems and indirectly through GO-100-005identifies two others. Figure 2.0 is concerned with the case where thereactor has scrammed, the MSIVs are closed and neither of the highpressure injection systems HPCI or RCIC are available.
The required components for Safe Shutdown Path 2 were identified by areview of the P8ID's for the systems specified in the Plant OperatingProcedure For Shutdown From Outside The Main Control Room.
In addition, since the Appendix R analysis requires an assumption of thepossibility of a loss of off-site power (LOOP), both units must beconsidered simultaneously. A LOOP results in the simultaneous SCRAM ofboth units and closure of the MSIVs on both units. It has been beendetermined that with only one division of diesels (only two of one
SE -B- NA'=-5I6 Rev. 3
Page~division assumed operable since we are protecting for the fire scenarioon a divisional basis except for Path 2) we do not have sufficientcapacity to shutdown both units if Path 1 or 3 (ADS/Core Spray) is usedfor both units. This situation has been resolved by requiring as a partof the analysis that the non-fire unit (LOOP unit) will be brought tocold shutdown in accordance with the Operating Section's LOOP procedures,ON-104-001 and ON-204-001. These provide that the unit be shutdown usingRCIC and/or HPCI. Thus, a one time analysis has been made ensuring thatin Unit 1 Division I fire areas, no Unit 2 RCIC components or cables orRCIC support system components exist.. The same was done for HPCI inDivision II fire areas. A similar analysis was done for Unit 2 fireareas ensuring no Unit I RCIC or HPCI components or cables or supportsystem components or cables exist on Unit 2. It is required for thefuture that RCIC/HPCI are not impacted with a fire in the opposite unit'sfire areas.
In a common area, an analysis has been made to ensure that a fire in acommon fire area does not impact than RCIC or HPCI in one unit. Thisanalysis was done because the fire or non-fire unit cannot bedistinguished in a common area;
Fire Areas 1-58 and 2-5B are not addressed by Paths 1, 2, 3. In thisarea, both units will be shown to be able to shut down using RCIC, and-Division I shutdown cooling and suppression pool cooling and appropriatesupport systems. These areas are unique because both Divisions of corespray injection valves are located in these areas. In the future, itwi 11 be required in a design standard that no new shutdown components,shutdown cables or associated cables be located in these areas.
Shutdown from the Remote Shutdown Panels (Path 2,) is utilized in theanalysis for fires in the Control Room. Paths 1 or 3 are utilized inareas where power supplies for Path 2 components are located.
It was also shown that a single fire in any fire area of the plant cannotdefeat equipment or cabling necessary for shutdown from the RemoteShutdown Panels and the equipment and cables required for ControlStructure HVAC operation. The reasoning for this is that electricalequipment, in Control Structure is only specified to a 80'F operatingtemperature. This does not mean that equipment would not function abovethis temperature, but it means that all components in the ControlStructure would have to be studied to justify operability at a highertemperature. Since this study was not performed, the safe shutdowncomponents must be postulated to fail and render shutdown from theControl Room indeterminant upon a loss of Control Structure HVAC. Path 2provides for safe shutdown if CS HVAC is lost.
Additionally, a systems analysis was done which identified all potentialspurious actuated component and flow diversion components which coulddefeat the operation of the safe shutdown path, result in a loss ofvessel inventory or represent a high-low pressure interface concern.
Those components classified as spurious actuation components in theAppendix R associated circuits criteria were included as required safe
SE -B- N A4I 6 Rev. 3
PBgB~I9~shutdown components in Appendix A, B or C, as appropriate. Thosecomponents classified as flow diversion components have been included inAppendix D. The non-fire unit shutdown components are included in append~
3.2 Electrica', Anal sis
After the required components were developed for the safe shutdownpaths, the cables/circuits needed to support operation of thesecomponents were evaluated. All cables connected to the componentwere treated as safe shutdown cables including the connection ofcircuits to equipment whose spurious operation would adverselyaffect safe shutdown capability.
All improperly located circuits were analyzed by postulating thefollowing faults:
1) Hot Short - An applied voltage between conductors of the sameor different cable as a result of a fire induced short circuit.
2) Open Circuit - A fire induced break in a conductor resulting ina loss of circuit continuity.
3) Short to Ground - A fire induced breakdown of a cable'sinsulation system resulting in the potential on the conductorbeing applied to ground potential.
These faults are a result of a fire in a GIVEN FIRE AREA.
In addition to the actual safe shutdown circuits, associatedcircuits were also analyzed. These are circuits that have one ofthe following: 1) A co+non power source with the shutdownequipment and the power source is not electrically protected fromthe circuit of concern by coordinated breakers, fuses, or similardevices, or 2) A common enclosure (e.g. raceway, panel, junction)with the shutdown cables, and a) are not electrically protected bycircuit breakers, fuses or similar devices, or b) wi 11 allow
~ propogation of the fire into the common enclosure.
4.0 IDENTIFICATION OF RE UIRED COMPONENTS
4.1 The following functions were considered in choosing the componentrequired for safe shutdown: reactivity control, reactor coolantmakeup, reactor depressurization and heat removal, processmonitoring, and associated support functions.
After the functions were defined, the systems that could be used toperform these functions were defined and grouped into paths to safeshutdown.
'or
example, reactivity control on Paths 1, 2, and 3, is performedby the Reactor Protection System, the Control Rod Drive SCRAMSystem,. and the End-of-Cycle Recirculation Pump Trip. For thesepaths, the reactor must scram on high reactor vessel pressure, low
SE -8-NKQJI6 Rev. 3Pace
reactor pressure vessel water level (Level 3) and Irfanua . eAlternate Shutdown Path (Path 2) utilizes a manual SCRAM from theMain Control Room.
Reactor Coolant makeup is provided by different divisions of theCore Spray System on Paths I and 3, and by RCIC on Path 2, theAlternate Shutdown Path (Remote Shutdown Panels).
On all paths, the MSIVs must isolate on loss of off-site power,manual isolation signal, and low, vacuum in the main condenser. Themanual isolation signal is provided for in the plant EO procedures(see Figures 1, 2), and the analysis is simplified if the MSIVs areclosed or can be closed for all shutdown paths. This simplifies theanalysis by making shutdown paths the same whether or not off-sitepower is available.
The reactor depressurization function is provided by ADS on Paths 1,3, and by, opening one of three specific SRVs or cycling them on theAlternate Shutdown Path (Path 2).
On all'paths, the reactor heat removal process utilizes eitheralternate shutdown cooling with suppression pool cooling or shutdowncooling and suppression pool cooling. Specifically, alternateshutdown cooling is used on Paths 1, 3, while normal shutdowncooling is used on Path 2 (the Alternate Shutdown Path) and in FireAreas 1-5B and 2-5B. One loop of Suppression Pool Cooling isrequired on all paths at some point in time.
Alternate shutdown cooling utilizes the Core Spray, ADS systems. Itis used if RPV cooldown is required but cannot be accomplished usingnormal shutdown cooling. To enter alternate shutdown cooling, theReactor head vents, the MSIVs, main steam line drain lines, and theRHR steam condensing valves must all be closed. Then, six safetyrelief valves are opened and one core spray pump taking a suctionfrom the suppression pool slowly increases reactor water level. Thesuppression pool cooling mode of RHR is initiated. Reactor waterlevel is slowly raised to about 131" to flood main steam lines andestablish a flow path through the open SRVs and back to thesuppression pool.
The process monitoring function is provided for all paths. Theselection of instrumentation to monitor process variables was basedon the following criteria: I) The operators must be able to monitorRPV level and pressure because these are the two parameters thatalert the operators to manually SCRAM the reactor and/or actuate asafe shutdown system. 2) Flow rate indication is required formakeup systems. For example, Core Spray injection flow rate isrequired in Path I, 3 while RCIC flow rate is required for Path 2.3) Flow and temperature indication (g) are required for heattransfer systems. For example, on Path 1, RHR service water flowand temperature indication is provided. In addition, since in thisanalysis, the suppression pool rather than the condenser is beingused as the heat sink, both suppression pool temperature and level
SE -B- NA=-5I'6 Rev. 3
Page~asmonitored for all paths. 4) Lastly, the instrumentation required
j()Q+ was cal 1 ed out in the Emergency Operating Procedures referenced.
The support functions either remove heat or supply power to thefront line process system functions of reactivity control, reactorcoolant makeup, reactor depressurization, and heat removal.
For example, the support for reactor heat removal is RHR SW whichremoves heat from the suppression pool in the suppression poolcooling mode and from the reactor loop directly through a heatexchanger in shutdown cooling. Cooling for equipment is provided bythe emergency service water system through the appropriate roomcoolers. Power is supplied by the diesels and the batteries to thevarious components with the AC and DC distribution system modifyingvoltages as appropriate and distributing the power.
The Nuclear Boiler Instrumentation is provided so that the reactorwill SCRAM on high reactor pressure (PS-B21-1N023A,B,C,D) and SCRAMon low'water level (LIS-B21-1N024A,B,C,D). The high pressure SCRAMis provided because if the SCRAM does not occur soon enough, theSuppression Pool can overheat to the point that safe shutdown cannotbe achieved using the Suppression Pool as a heat sink. In the caseof low water level, if the SCRAM does not occur soon enough, fuel
'amagewill result. A manual backup to these automatic actions isalso provided.
In addition, automatic reactor vessel makeup on low level isrequired of the makeup system for a particular path. Thus, on Path1 or 3, LIS-B21-1N031A,C,B,XDprovides the Core Spray .initiation onLevel 1 and Level 2 initiation of RCIC. In order for ADS/Core Spray ~'/~to function automatically on Path 1, 3, LIS-B21-1N042A,B,C,D andLIS-B21-1N031A,C,B,D is required. PS-B21-1N021A,C,B,D is requiredto prevent inadvertent initiation of Core Spray at high pressure.
4.2 The following additional component types have been included in thedevelopment of the Safe Shutdown Component List and are explainedbelow.
A. Flow Diversion Components
A fire has the potential to prevent safe shutdown by divertingflow from a safe shutdown system or causing a loss of coolantfrom the, RPV. The reactor pressure vessel and all safeshutdown systems were reviewed for potential flow diversionpaths. High/Low pressure interfaces were analyzed. Spuriousopenings of the SRYs were conside'red. Detail of the analysisis provided in the. Flow Diversion Path Appendix.
B. Pseudo-components
A Pseudo-component designation is given to a group of cables,relays, contacts, and switches which are in reality theautomatic control logic for a safe shutdown system. For
example, the Core Spray System has an automatic control logicthat automatically actuates certain Core Spray valves and pumpsas well as other system components. In these cases, it isimpractical to identify all cables for this automatic controllogic under each safe shutdown component with which it isinterlocked.
C.
This situation was handled by developing a pseudo-componentdesignation. For example, in the case of the Unit I Core SpraySystem, Division I common control logic, the cables for thecontrol logic were associated with the pseudo-componentdesignation "CSS-1-I-Control."
Interlocks
D.
These interlock components provide electrical inputs into thecontrol logic of safe shutdown components. This means that thesafe shutdown components may not operate properly if a fireaffects the interlock components. In this analysis, interlockcomponents are therefore analyzed in the same manner as safeshutdown components.
Electrical Distribution Components
These are power supplies or other electrical equipment thatsupports components required for safe shutdown. Included onthis list are switchgear, load centers, motor control centers,load center transformers, distribution panels, DC controlcenters, DC Battery Chargers, DC Batteries, Fuse Boxes, andBattery Banks.
E.
F.
HVAC/Fire Damper s
These components are included in the Safe Shutdown ComponentList since they are mechanical components that are part of theR.B. HVAC System or Control Structure HVAC System. They mayprevent specific components to function properly in the eventof a fire in specific areas.
Diesel Generator E
The E Diesel is listed as All .paths because it is designed toreplace any one of the other four diesels. When not being usedas a .replacement diesel, a fire in the E Diesel Building doesnot impact safe shutdown on any path.
5.0 SHUTDOWN PATHS BY LOCATION
5.1 Paths I and 3 which utilize the ADS and Core Spray Systems are usedin the appropriate fire area as outlined on Drawing A-206063, Sheets1, 2, 3, 4.
SE -B- N'A-.-U16 Rev. 3
Page le~
5.2 Path 2 which utilizes the Remote Shutdown Panels and loca controlis used in specific fire areas in the Control Structure as outlinedon Drawing A-206063, Sheet 1, 2, 3, 4.
5.3 The following detailed description provides more specific guidanceon the shutdown philosophy for each location.
Unit Numbered Fire Areas in the Unit I Reactor Building orControl Structure
Ensure shutdown capability on Paths I or 3 from both Unit 1
and 2 in each fire area as outlined on Drawing A-206063,Sheets I, 2, 3, 4. Additionally, all RCIC components andRCIC Support System components from Unit 2 shall be assurednot to be present throughout all Division I fire areas. In a
similar manner, all HPCI and HPCI support components fromUnit 2 shall be assured not to be present throughout allDivision II fire areas.
In addition, the shutdown capability will be ensured so thata single fire in a unit numbered area in the Reactor Buildingcannot defeat equipment or cabling necessary for shutdownfrom the Remote Shutdown Panel (Path 2) along with equipmentand cabling required for Control Structure HVAC operation.This is necessary because loss of, Control Structure HVAC
results in a condition in which operators must vacate theControl Structure and shutdown from the Remote ShutdownPanel.
o Unit Numbered Fire Areas in the Unit 2 Reactor Building orControl Structure
These areas are similar to the unit numbered fire areas inthe Unit I Reactor Building in that shutdown capability isensured on Paths I or 3 from both Unit I and 2 in each firearea as outlined on Drawing A-206063, Sheets I, 2, 3, 4.Additionally, all RCIC components and RCIC Support Systemcomponents from Unit I shall be assured not to be presentthroughout all Division I fire areas. In a similar manner,all HPCI and HPCI support components from Unit I shall beassured not to be present throughout all Division II fireareas.
Also, the shutdown capability will be ensured so that a
single fire in a unit number fire area in the ReactorBuilding cannot defeat equipment or cabling necessary forshutdown from the Remote Shutdown Panel (Path 2) along withequipment and cabling required for Control Structure HVAC
operation.
o Control Structure
SE -B-NACHT"6 Rev. 3
Page~is~
Shutdown from the Control Structure for Unit I and Unit 2 inPath 2 fire areas provides for scramming both units andcompleting shutdown from each unit's Remote Shutdown Panel aswell as locally. Control Room personnel are not required tovacate the Control Room upon detection of a fire. Lack ofability to control the unit from the Control Room or ControlRoom habitability and personnel safety will be thedetermining factor which will cause Control Room evacuation.
To assure this, the Control Room and the Control Room
personnel egress path from the Control Structure must be a
separate Path 2 fire area, the scram function must bepreserved for all shutdown paths, and a fire in any Path 2fire area in the Control Structure must not be capable ofdefeating shutdown from either unit's Remote Shutdown Panel.
'ny
cables required for shutdown at either unit's RemoteShutdown Panel which are not isolated from the ControlStructure must be protected within the Control Structure, orbe located in a Path I or 3 area. All Path 2 componentsrequired for shutdown from either unit's Path 2 safe shutdownpath which are located in the Control Structure must beseparated from the balance of the Control Structure by 3 hourfire rated barriers i.e. these components must be in theirown separate fire area.
Finally, within the Path I and 3 fire areas, it must beassured that only one division of Control Structure HVAC
components or cables can be affected by the fire. This isnecessary since the loss of Control Structure HVAC capabilitymay defeat the Control Room shutdown capability and thepresence of the Remote Shutdown Panel support components maydefeat shutdown from the Remote Shutdown Panel.
o Common Areas Such As Diesel Bays, ESSW Pumphouse, and TurbineBuilding and Outside Areas
Protect Path I or 3 from both Unit I'nd 2 as outlined onDrawing A-206063, Sheets I, 2, 3, 4. Additionally, all RCICand RCIC support systems components from Unit 1 and Unit 2shall be protected or assured not to be present throughoutall Division I fire zones. In a similar manner, all HPCIcomponents and HPCI support components shall be protected orassured not to be present throughout all Division II firezones.
6.0 FLOW DIVERSION PATHS
A fire has the potential to prevent safe shutdown by diverting flow froma safe shutdown system or causing a loss of coolant from the RPV. Thereactor pressure vessel and all safe shutdown systems were reviewed for
,
i
7.0
SE -B-NA=-616 Rev. 3
Page~ is~-
potential flow diversion paths. Spurious openings of the SRVs wereconsidered. Appendix D details the specific conditions considered aspotential flow diversion paths.
Flow diversion paths were determined by identifying all penetrations ofthe reactor pressure vessel and all safe shutdown system flow paths andidentifying all lines too small to allow a significant flow diversion.All lines that would permit a significant flow diversion were then tracedto a point where a determination of flow diversion could be made. Thispoint was always a check valve, a normally closed manual valve, or anactuated valve. It was assumed that check valves function properly andprevent flow diversion and that normally closed manual valves would be inthe correct position to prevent flow diversion.
TIME LINE SCENARIOS
Time Line Scenarios were developed for each of the safe shutdown pathsavailable for shutdown of the unit experiencing a fire (i.e. Paths 1, 2,and 3).
o Path I ADS/Core Spray orPath 3 ADS/Core Spray
See Table 2.0
o Path 2 Remote Shutdown PanelSee Table 3.0
8.0 CRITERIA FOR ADDING NEW COMPONENTS TO THE SAFE SHUTDOWN LIST
The systems and equipment needed for post fire safe shutdown are thosesystems necessary to perform the shutdown function defined in Appendix R.These functions are reactivity contt ol, reactor coolant makeup, reactorheat removal, process monitoring and associated support functions. Theacceptance criteria for systems performing these functions is alsodefined in Appendix R. These criteria are itemized in Section 2.0.
The systems necessary for safe shutdown are outlined on a per path basisin Table 1.0. Within Appendices A, B and C, these systems and theirrequired components are described on a per unit per function basis.
Any new component which is necessary to perform the functions outlined inSection 2.0 of this document, which could have an effect (spur'ious orotherwise) on a component necessary to perform the functions outlined inSection 2.0 of this document or any component which has the potential byits spurious actuation to impair or defect the ability to achieve coldshutdown shall be added to the Safe Shutdown Component List. Anycomponents falling into the last two groupings require an explanation inthe Remarks column of the list as to the concern they present.
These requirements address process components (i.e. P&ID) only. Adetermination as to the need for additional electrical distributioncomponents must be based on a detailed cabling review by NPE Electrical.
,
~~ '-8- M A' 1' Rev. 3
Page~ice'NOTE:
The addition of new DC distribution equipment must be preceded byan associated circuits review for the new equipment.)
9.0 REFERENCES
9.1 10 CFR 50 Appendix R - Sections III G, J, 0
9.2 NRC Generic Letters
81-12 dated February 20, 198183-33 dated October 19, 198385-01 dated January 9, 198586-10 dated April 24, 1986
9.3
9.4
9.5
NRC I.E. Information Notice 84-09 lessons learned from NRC
inspections of fire protection safe shutdown system (10CFR50Appendix R).
Emergency Operating Procedure, EO-100-101 (EO-200-101) "SCRAM
BASES." Rev. 0
General Operating Procedure, GO-100-005 (GO-200-005) "Plant ShutdownFollowing A Scram." Rev. 6
9.6 Operating Procedure, OP-149-002 (OP-249-002) "RHR Operation inShutdown Cooling Mode." Rev. 9*
9.7
9.8
9.9
Operating Procedure, OP-149-005 (OP-249-005) "RHR Operating in theSuppression Pool Cooling Mode." Rev. 2
Operating Procedure, OP-150-001 (OP-250-001) "RCIC System." Rev 8
Operating Procedure, OP-152-001 (OP-252-001) "High Pressure CoolantInjection System." Rev. 10
9.10 Emergency Operating Procedure, EO-100-102 (EO-200-102) "RPV CONTROLBASES." Rev. 0
9.11
9.12
Emergency Operating Procedure, EO-100-111 (EO-200-111) "LevelRestoration." Rev. 0
Emergency Operating Procedure, EO-100-112 (EO-200-112) "RapidDepressurization." Rev. 0
9.13 Emergency Operating Procedure, ON-149-001 (ON-249-001) "LOSS OF
RHR-SHUTDOWN COOLING." Rev. 5
9.14 Memo EA-169, "Time Line Scenarios for Safe Shutdown Analysis,"J. G. Refling to L. S. Weed, April 3, 1986.
9.15 Memo ME-113, "Performance Characteristics of ADS Accumulators,"J. E. Agnew to L. S. Weed, April 4, 1986.
tag/i055i:dek
SE -B- N A'-.-6 1' Rev. 3
Page~i5
REACTOR SCRNEO-100-101
MSIV'sSRV's
RCICOP-150-001
H CIOP-152-001
SUPP. POOL
COOLINGOP-149-005
PLANT SHUTOOMN
FOLLOMING A SCRNGO- 00-005
REAC. RECIRC.OP-164-001
SHUTDOMN
COOLINGOP-149-002
FIGURE 1.0
SE -B-NA=U16 Rev. 3
Page~ >ps
LEVEL CONTROLEO-100-102
ANDREACTOR SCRAM
EO-100-101MSIV'sSRV's
LEVEL RESTORATIONEO-100-111COR SPRAY
ND
RAPID DEPEO-1
ESSURIZATION00-112DS
LEVEL CONTROLEO-100-113
COO DOWNOP-149-002
RHR-SDC
OR
ON-149-001RHR-SUPP. POOL COOLING
CORE SPRAY(THRU SRV's)
FIGURE 2.0
TABLE 1.0APPENDIX R SAFE SHUTDOWN ANALYSIS
SAFE SHUTDOWN PATHS
SE -B- MA'-.-016 Re
Page 1 of 2
Page~7
DIVISION I*PATH 1
REMOTE SHUTDOWN PANELSPATH 2
DIVISION II+PATH 3
Reactivit Control
CRD (Scram Function)
Reac. Recirc.
Reactivit Control
(3D (Scram Function)
Reac. Recirc.
Reactivit Control
CRD (Scram Function)
Reac. Recirc.
Reactor Coolant Makeu
Inboard MSIVs
Core Spray
Nuc. Boiler Instru.
Reactor Coolant Makeu
Inboard MSIVs
RCIC
Reactor Coolant Makeu
Outboard MSIVs
Core Spray
Nuc. Boiler Instru.
Reactor Heat Removal Process
Manual ADS
RHR Supp. Pool Cooling Mode
Reactor Heat Removal Process
A, B, C, SRVs
RHR Supp. Pool Cooling
and Shutdown Cooling Modes
Reactor Heat Removal Process
Manual ADS
RHR Supp. Pool Cooling Mode
M~onitortn
Supp. Pool Monitoring
M~anitorfn
Supp. Pool Monitoring
Remote Shutdown Panel Indication
~nonitorin
Supp. Pool Monitoring
Associated Su ort Functions Associated Su ort Functions Associated Su ort Function
R.B. HVAC
a) RHR Room Coolers
b) Core Spray Room Coolers
c) Emerg. Swor. & LC Room Coolers
RHRSW
R.B. HVAC
a) RCIC Room Coolers
b) RHR Room Coolers
c) Emerg. Svgr. & LC Room Coolers
R.B. HVAC
a) RHR Room Coolers
b) Core Spray Room Coolers
c) Emerg. Swgr. & LC Room Coolers
l~
TABLE 1.0APPENDIX R SAFE SHUTDOWN ANALYSIS
SAFE SHUTDOWN PATHS
0SE -B- MA'=016 Rex
Page 2 of 2
Page~<zDIVISION I*
PATH 1REHOTE SHUTDOWN PANELS
PATH 2DIVISION II*
PATH 3
Cocaon Re uired Com nents Coaaon Re uired C onents Conxaon Re uired Com onents
Control Structure HVAC
a) Battery Rocm Exh. Fans
ESSW Pumphouse HVAC
D.G. HVAC & Aux. Systems
Control Structure HVAC
a) Battery Room Exh. Fans
ESSW Pumphouse HVAC
D.G. HVAC & hux. Systems
Control Structure HVAC
a) Battery Room Exh. Fans
ESSW Pumphouse HVAC
D.G. HVAC 6 Aux. Systems
Electrical
EDGs h&C
Respective Distribution Equipment
Electrical
EDGs A, B, C 6 D
Respective Distribution Equipment
Electrical
EDGe B&D
Respective Distribution Equipsx'nt
obese Paths are not completely divisionalized.
tm/h316i:mg
SE -B-NAN16 Rev. 3
TIME LINE SCENARIOPage~ ie~-
Path 1 ADS/Core SprayPath 3 ADS/Core Spray
Time InMinutes Se uence Of Events
0 Minutes SCRAM and MSIV closure, HPCI and RCIC fail both manual andauto start.
30 Minutes
Operators attempt to start both Divisions of Core Sprayand both Divisions of LPCI in anticipation of initiatingADS. However, due to the loss of one Division of dieselsone loop of core spray can be started and one RHR pump.The other RHR pump is not started because no ESM coolingwater is being supplied to its cooler.
Operators initiate ADS when water level reaches the top ofactive fuel level as a worse case.
40 Minutes
60 Minutes
Operators leave the ADS valves open and place the operableDivision of RHR in the Suppression Pooling Cooling Mode.Operators maintain the RPV level with one pump of theoperable Division of core spray.
Operators use alternate shutdown cooling to remove decayheat from the RPV by recirculating coolant from theSuppression Pool into the RPV, then through the Main SteamLines, through the open ADS valves and back to theSuppression Pool using one of the two operable core sprayPulllPS.
NOTE:
At this time, the decay heat has decreased to a rate thatcan be transferred from the RPV to the Suppression Pool asdescribed above, then from the Suppression Pool to theSpray Pond by the Suppression Pool Cooling Mode of the RHR
System.
In the case of a loss of off-site power (LOOP), the non-fire unit isshutdown using RCIC and/or HPCI, RHR in suppression pool cooling,and alternate shutdown cooling. The time line scenario to shutdownthe non-fire unit is similar to the Path 2 and Remote ShutdownScenarios.
TABLE 2.0
e
SE -B- M'A'=0 1 6 Rev. 3
Page~ w~
TIME LINE SCENARIO
Path 2 Remote Shutdown Panel
Time InMinutes Se uence Of Events
0 Minutes
30 Minutes
SCRAM, MSIV Closure, and RCIC auto-starts. HPCI assumednot available.
Operators place one pump of RHR in the Suppression PoolCooling Node. (Maximum allowable time to startsuppression pool cooling is approximately six hours.)
Operators depressurize by manually cycling safety reliefvalves.
180 Operators initiate the Shutdown Cooling Node of RHR whenreactor pressure < 98 psig.
NOTE: For fire in the control structure that requires evacuation of the MainControl Room and shutdown from the Remote Shutdown Panels, both unitswould have to be shutdown.
TABLE 3.0
tag/i055i:dek
APPENDIX R- SAFE SHUTDOWN
COMPONENT LIST
APPENDIX A
UNIT 81
RE UIRED COMPONENTS
SE -B- N A~0 1 6 Rev. 3
PBgg~g (qg
I. REACTIVITY CONTROL UNIT I
A. CRD System (SCRAM Only)
B. Reactor Recirculation System
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I REACT iT CONTROI.
A. CRD S stem S stem (Scram Function Onl
Re uired Com onents (Unit 1)
Rr -R- ~ n=91 6 ReU
t1of1Page g of 35
Page~~g
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division I II139 Valve(XV-126)(XV-127)
SV-C12-1F182or
SV-C12-1F009
Scram Pilot Solenoid Valve
SDV Vent 6 DrainPilot Solenoid Valve
orSDV Vent 6 DrainPilot Solenoid Valve
M-147
M-147FF-122610 Sh. 2205
M-147FF-122610 Sh. 2205
1,2,3
1,2,3
1)2 '
1-4A-N1-4A-S
1-4A-W
1"4A-W
Typical 'of 185 scram pilot valves. Thesevalves do not have individual numbers butcan be uniquely identified by HCU numbers.The I.D. number for each HCU's is thesame as the control rod drive that itserves. - Both divisions of RPS mustde-energize in order to assure the SCRAMfunction.
These 2 dual solenoid valves supply airand control SDV vent and drain valves byventing air pressure off valves(XV-1F180, 1F181, 1F011, 1F010). EitherSV-C12-1F182 or SV-C12-1F009 must close(i.e., de-energize) to assure SDV Drain6 Vent isolation).
tm/hl011:nas
II. REhCTIVITY CONTROL
B. Reactor Recirculation S stem
Re uired Can onents Unit I)
SE -B- N A =0 1 6 Rev. 3.t1 of 1
Page f of 35
Page~r
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division I1P-401h Reactor Recirculation Pump M-143 1,2,3 1-4F The capability of shutting down this pump
automatically in the event of a turbinetrip and manually must be available.
ZS-C72-IN006hPSL-C72-IN005hPSL-C72-1N005BZS-C72-IN006BPSH-C72-IN003hPSH-C72-1N003B
Division IIHV-B31-IF023B
1P-401BPSL-C72-IN005DPSL-C72-1N005CZS-C72-1N006DZS-C72-1N006CPSH-C72-1N003CPSH-C72-1N003D
Limit Switch Turbine MSV-1Pressure Switch Turbine CV-1Pressure Switch Turbine CV-2Limit Switch Turbine HSV-2Pressure Switch Rx PowerPressure Switch Rx Power
Rx Recirc. Pump B Suction Valve
Reactor Recirculation PumpPressure Switch Turbine CV-4Pressure Switch Turbine CV-3Limit Switch Turbine MSV-4Limit Switch Turbine HVS-3Pressure Switch Rx PowerPressure Switch Rx Power
Hl-C72-5Hl-C72-5Hl-C72-5Hl-C72-5Ml-C72-5Ml-C72-5
M-143E-151 Sh. 8
M-143Hl-C72-5Ml-C72-5Hl-C72-5Ml-C72-5Ml-C72-5Ml-C72-5
1,21,21,21,21,21,2
1,2132132,3273213213213
Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.
1-4F
1-4FTurb. Bldg.Turb. Bldg.Turb. Bldg.Turb, Bldg.Turb. Bldg.Turb. Bldg.
Path 2 shown for both Divisions is an "OR"relationship except for 1P-40lh,B andHV-B31-1F023B. 1P401h does have to bemanually tripped for shutdown cooling-and must automatically trip for turbinetrip.
The capability of shuttingdown this pump both automatically inthe event of a turbine trip, andmanually must be available.
The capability of shutting down this pump both automatically in the event of a turbine trip and manually must be available.
".m/h1011: nas
II. REACTOR COOLANT MAKE-UP UNIT I
A. Main Steam Isolation Valves
B. Core Spray
C. RCIC
D. Nuclear Boiler Instrumentation
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II. REACXOR COOLANT MAKEUP
h. Main Steam Isolation Valves
Re uired C onents Unit 1)
clof 3
Page 5 of 35
Paga~,-
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division ISV-14123hl
SV-14123A2
SV-14123B1
SV-14123B2
SV-14123C1
SV-14123C2
SV-14123D1
SV-14123D2
Pilot Solenoid Valve for HV-1F022A(Inboard)
Pilot Solenoid Valve HV-1F022A
Pilot Solenoid Valve Eor HV-1F022B(Inboard)
Pilot Solenoid Valve for HV-1F022B
Pilot Solenoid Valve for HV-1F022C(Inboard)
Pilot Solenoid Valve for HV-1F022C
Pilot Solenoid Valve for HV-IF022D(Inboard)
Pilot Solenoid Valve for HV-1F022D
H-141FF-114510 Sh. 3112
H-141FF-114510 Sh. 3112
M-141FF-114510 Sh. 3112
H-141FF-114510 Sh. 3112
M-141FF-114510 Sh. 3112
H-141FF-114510 Sh. 3112
M-141FF-114510 Sh. 312
H-141FF-114510 Sh. 3112
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
Indication for the inboard isolationvalves is provided on the RSP.
Instrumentation
PSH-B21-1N056h
PSH-B21-IN056B
Main Condenser Low Vacuum Switch
Mein Condenser Low Vacuum Switch
M-141) M-142, M-139FF-114510 Sh. 3107
M-141~ H-142, M-139FF-114510 Sh. 3108
1,2
1,2
Turb. Bldg.
Turb. Bldg.
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w
II. REACTOR COOLAHT MAKEUP
h. Main Steam Isolation Valves
Re uired C onents (Unit 1
t2of 3
~~ -~- N A=01 ~ ReV. 3 Page 4 of 35
Ps'Component Description References
Safe ShutdownPath(s)
Requiring FireComponent Zone Remarks
Division IISV-14129hl
SV-14129A2
SV-14129B1
SV-14129B2
SV-14129C1
SV-14129C2
SV-14129D1
SV-14129D2
PSH-B21-1N056C
Pilot Solenoid Valve Eor HV-1F028h/Outboard
Pilot Solenoid Valve Eor HV-1F028hOutboard
Pilot Solenoid Valve for HV-1F028BOutboard
Pilot Solenoid Valve for HV-1F028BOutboard
Pilot Solenoid Valve for HV-1F028COutboard
Pilot Solenoid Valve Eor HV-1F028COutboard
Pilot Solenoid Valve Eor HV-1F028D/Outboard
Pilot Solenoid Valve Eor HV-1F028DOutboard
Main Condenser Low Vacuum Switch
M-141FF-114510 Sh. 3113
M-141=FF-114510 Sh. 3113
M-141FF-114510 Sh. 3113
M-141FF-114510 Sh, 3113
M-141FF-114510 Sh. 3113
M-141FF-114510 Sh. 3113
M-141FF-114510 Sh. 3113
M-141FF-114510 Sh. 3113
1-4G
1-4G
1-4G
1-4G
1-4G
1-4G
1-4G
M-141, M-142) M-139 Q gQ)3 AH Turb.Bldg'F-114510Sh. 3107 i I~I)d/s )t
PSH-B21-15056D Main Condenser Low Vacuum Switch M-141, M-142, M-139 Q ~)3 Turb. Bldg.FF-114510 Sh. 3108 gQW
i/is/CP.
m/h101i:nas
II. REACD. ~LANT MAKEUP
A. Main Steam Isolation Valves
Re uired Com onents Unit 1)
SE '-B- N A~O 1 6 Rev. 3
:3of 3
Page 7 of 35
Pdf~~iv>-
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
PI-10502 Main Condenser Low Vacuum Indication J405 Sh. 5 1,3 0-26H Required at low power (i.e.,less than 30% power) when lowvacuum switches are bypassed.
PX-10502C Condenser C Vacuum Transmitter J405 Sh. 5 1,3 Turb. Bldg. Required at low power (i.e.,less than 30% power) when lowvacuum switches are bypassed.
m/hl011:nas
O.
II. REACTOR COOLANT MAKEUP
B. Core S ra S stem
Re uired C onents (Unit 1)
SE -B- N A=016 Rev. 3
ba.cet 1 of 2
Page 8 of 35
Page~at
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division IHV-E21-1FOOlh
1P-E21-206h
1P-E21-206C
HV-E21-lF03lh
HV-E21-1F015h
FT-E21-IN003A
FI-E21-1R60lh
FIS-E21-IN006h
HV-E21-1F004h
HV-E21-1F005h
Division IIHV-E21-1FOOIB
1P-E21-206B
1P-E21-206D
HV-E21-1F015B
HV"E21-1F031B
FIS-E21-IN006B
.m/hl011:nas
Suppression Pool Suction Valve
Core Spray Pump lh
Core Spray Pump IC
Minimum Flow Valve
Full Flow Test Valve
Loop h Flow Transmitter
Loop h Flow Indicator
Min - Flow Switch
Outboard Infection Valve
Inboard Infection Valve
Suppression Pool Suction Valve
Core Spray Pump IB
Core Spray Pump ID
Full Flow Test Valve
Minimum Flow Valve
Minimum Flow Switch
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
M-152
1-lh
1-lh
1-lh
1-2A
1-3C-S
1-3A
0-26H
1"3h
1-5B
1-5B
1-1B
1-1B
1-1B
1-3C-N
1-2B
1-3h
0
II. REACIOR COOLANT MAKEUP
Re uired Can onents (Unit 1)
Sheet 2 of 2
SE ~B- N P~01< ~ ' Page V o
Page~
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
FT-E21-IN003B
FT-E21-lR601B
HV-E21-1F004B
HV"21-1F005B
CSS-I-I Control
Loop B Plow Transmitter
Loop B Flow Indicator
Outboard In]ection Valve
Inboard In)ection Valve
CSS Div. I huto Actuation Logic
M-152
H-152
H-152
H-152
Ml-E21-20 1,2
1-3h .
0-26H
1-5B
1"5B
Various See SEA-EE-049.Psuedo Component.Path 2 is only for spurious.
CSS-I-II-Control CSS Div. II Auto Actuation Logic Ml-E21-20 2/3 Various See SEA-EE-049.Psuedo Component.Path 2 is only for spurious.
m/hl011:nas
II. REACXbs. aXMLANT MAKEUP
C. ~RCIC S stea
R uired Com onenta Unit 1)
S..lof 3
gF R N4=p] 6 Rav 3»ge)0«35Page~-
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division IHV-51-1F007
HV-E-51-1F008
HV-E51-1F010
HV-E51-1F012
HV-E51-1F013
HV-E51-1F022
HV-E51-1F031
Steam Supply Line (containmentisolation valve)
Steam Supply Line (containmentisolation valve) .
Pump Suction Valve from CondensateStorage Tank
Pump Discharge Valve to Reactor
Pump Discharge Valve to Reactor
Test Bypass Valve to CondensateStorage Tank via HPCI
Pump Suction from Suppression Pool(containment isolation valve)
M-149
M-149
H-149
H-149
M-149
H-149
M-149
1-4F This valve is powered from Division II
1-3C-H
1-1D
1-2B
1-4G
1-2B
1-1D
HV-E51-1F059
HV-E51-1F060
Turbine Exhaust to Suppression Pool(containment isolation valve)
M-149
Vacuum Pump Discharge to Suppression . M-149Pool (containment isolation valve)
1-1D
1-ID
HV-E51-1F062
HV-E51-IF084
FV-E51"IF019
HV-15012
m/hlOli:nas
Vacuum Relief Line (containmentisolation valve)
Vacuum Relief Line (containmentisolation valve)
Minimum Flow Valve to Suppression
Turbine Stop Valve
M-149
M-149
H-149
M-150
1-ID
1-1D
1-1D
1-1D
This valve is powered from Division II
>
II. REACTOR COOLANT HAKEUP
C. ~RCIC S etea
Re uired C onents Unit 1)
SE'B- N A"-0 1 < > i v
2of3Page /I of 35
Pageboy
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
HV-E51-1F045
HV-E51-1F046
FV-15013
FT-E51-1N003
1P-203
1S-212
ES "E51 "1K604
XY-E51-IK603
IP-219
IP-220
SI-15001B
SE-15001
FY-14903
FY-14903 A
.m/h1011:nas
Steam Supply Line (turbine isolationvalve)
Lube Oil Cooling Water Valve
Turbine Throttle Valve
RCIC Pump Discharge Flow Trans.to FY-1K601
RCIC Pump
RCIC Pump Turbine
Power Supply
Inverter
Barometric Condenser Vacuum Pump
Vacuum Tank Condensate Pump
RCIC Turbine Speed Indicator(Remote)
RCIC Turbine Speed Element
Flow Transducer
Flow Transducer
M-150
M-150
H-150
H-149
H-150
M-150
H-149
M-150HSS"12902B~ Sh, 1 & 2
H-150HSS-14902A, Sh. 1 & 2
H-149J-498$ Sh. 2
H-149J-498, Sh. 2
1-1D
1-1D
1-ID
1-ID
1-1D
1-1D
0-26H
1-1D
1-ID
1-2D
1"2D
1-2D
1-2D
Turbine Driven MechanicalComponent
Steam Drive MechanicalComponent
II. REACXOR COOLANI'AKEUP
C. ~RCIC S Item
Re uired Can onents (Unit 1)
3of 3
Page (+of 35SE -B- MA=OIG Rev. 3 'age~
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
HV-B21-IFOllh
ES-14903
FIC-14903
Feedwater h Stop Valve
Power Supply
RCIC System Flow Indicator
M-141
M-149J-498, Sh. 2
H-150HSS-1490lh, Sh. 1
1-4F
1-2D
1-2D
Path 2 for spuriousclosure only.
RCIC-1-I-Control RCIC Div. I Auto Actuation Logic
RCIC»l-II-Control RCIC Div. II Auto Actuation Logic
Hl-E51"90
Hl-E51"90
Various SEE SEA-EE-049Pseudo Component. For spurious only.
SES SEA-EE-049Pseudo Component. For spurious only.
Various
tm/h1011:nas
0:I. REACI VOLANT MAKEUP
D. Nuclear Boiler Instruientation (Refer to Section 4.0)
Re uired C onents (Unit 1)
tlof 2
Page (+of 35
% -8- 8 A-'-5 I'h Rev. 3p
Component Description References
afe ut ownPath(s)
RequiringComponent
FireZone Remarks
Division ILIS-B21-1N024A
LIS-B21-1N024B
LT-B21-14201A
LIS-B21-1N031A
LIS-B21-1N031C
PS"B21-1N021A
PS-B21-IN021C
PT-14201A
PI-14202A
LI-14201A
PS-B21-1N023A
PS-B21-IN023B
Rx Level Indicating Switch
Rx Level Indicating Switch
'Wide Range Rx Level Transmitter toLI-14201A
Rx Level Indicating Switch
Rx Level Indicating Switch
Pressure Switch
Pressure Switch
Wide Range Pressure Transmitter toPI-14202A, 14024A
Wide Range Pressure Indicators fromPT-14201A
Wide Range Level Indicators fromLT"14201A
Pressure Switch
Pressure Switch
M-142
M-142
H-142, IDCN 5
H-142
H-142
H-142
M-142
H-142, IDCN 5
H-142, IDCN 5
M-142,IDCN 5
M-142FF"122610 Sh. 2206
M-142FF-122610 Sh. 2206
1,3
1-SA-S On Path 2, a manual SCRAM from the MainControl Room is postulated. The manualSCRAM circuitry is to be assured.
1-5A-S
1-5A-S
1-5A-S
1-5A"S
1-5A-S
1-4A-S
1-5A-S
0-26H
0-26H
1-SA-S
1-5A-S
tm/h102i:nas
SK .-8-. N'A4 1'6 Rev.
Page~~
III. REACTOR HEAT REMOVAL PROCESS UNIT I
A. Automatic Depressurization System (ADS)
B. RHR Suppression Pool Cooling 8 Shutdown Cooling
C. Safety Relief Valves
tag/i065i:dek
III. REAGLOR HEAT REHOVAL PROCESS
A. Automatic De ressurization S stem (ADS
Re uired C onents Unit 1)
tl of4SE -8- N'A'=01'6 ReV. 3 ~ „g /5' 35
Component Description References
Safe ShutdownPath(s)
RequiringCanponent
FireZone Remarks
SV-14113Hl
SV-14113Nl
PS-E21-IN009A
PS-E21-IN008A
Solenoid Valve for PSV-1F013M (HSL B)
Solenoid Valve for PSV-1F013N (MSL D)
M-141
M-141
Pressure Switch Permissive for ADS on H-152CS Pump Disch. Presa. FF-114511 Sh. 2903
Pressure Switch Permissive for ADS on M-152CS Pump Disch, Press. FF-114511 Sh. 2903
1,2,3
1~2,3
1,2,3
1,2,3
1-4F
1-4F
1-IA
1-lA
SV-12654A 150s Header Inlet toPSV-1F013G, J, H
M-126 1,3 1-5E This valve is normally open and failsopen. For the system to functionproperly this valve must not close.
1T-213 Containment Instrument Gas Bottles M-126 1,3 1-5A-W This is a mechanical component.
s y- I+/I (" l
S y-/Nil3'3 I
SV- /9/IPA I
~~-/II/3L/
M~ io/rgb~tm/hl02i:nas
5olg~o; J V~lvg. EarCms<A )
5'o/+~orJ l~l~~ For(res/ 8)
PS V-I/=oIZ6.
WV- IFO/p T
t ~ tr -//=d/3/r,-A-I</
PS I - IFo/s arn-zW/
/,2,3
/,2,3
/~2, g
/,2,3,
/-9F
I-+F
<//n urpg~ -~p o+ INCA uIolu~
ping
-IP J iv //a g c. g/'cu
/t 'u Sidnp $rc f~g Frr~ ~Pur,>uS
So IA'rtos PX
3/ ~/ </ /8,8'/oh'e(/ wX c'f u/Cg>Cui) J Mu> +prr 4C) eP k a < fuRQon P~Q X,
III, REACTOR HEAT REHOVAL PROCESS
h. Automatic De ressurization S stem (ADS
Re uired Com onents (Unit 1)
SE -8-MA=51'6 Rev. 3
2 of 4
Component Description References
Sa fe .ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division IISV-1411302
SV-14113J2
SV-14113K2
SV-14113L2
SV-14113M2
SV-14113N2
PS-E21-1N009B
Solenoid Valve for PSV-lF013G. (HSL A)
Solenoid Valve for OSV-1F013J (HSL B)
Solenoid Valve for PSV-1F013K (HSL D)
Solenoid Valve for PSV-1F013L (HSL C)
Solenoid Valve for PSV-1F013M (MSL B)
Solenoid Valve for PSV-1F013N (HSL D)
M-141
M-141
M-141
H-141
M-141
M-141
Pressure Switch Permissive for ADS on M-152CS Pump Disch. Press. FF-114511 Sh. 2903
1,2,3
1~2,3
1,2,3
1,2,3
1,2,3
1,2~3
1,2,3
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-1B
Circuits that allow openingof individual ADS valves aswell as circuits that can actuatean entire division, must be protectedfrom spurious actuation. Solenoids(G2, J2, K2, L2, M2, N2) as well ascontrol circuits necessary foroperation of these solenoid valvesmust be protected to actuate onPath 3.
tm/hl021:nas
III. REACTOR HEAT REMOVAL PROCESS
A. Automatic De ressurization S stem (ADS)
R uired C onents (Unit 1)
Page 8 of 4SE=B-.NA-.-0~6 R«3 g iv ~
Page~i
Co onent
PS-E21-INOOBB
Descri tion
Pressure Switch Permissive for ADS onCS Pump Disch. Press.
References
M-152FF-114511 Sh. 2903
a eShutdownPath(s)
RequiringCom onent
FireZone
1,2,3 1-1B
Remarks
SV-12654B
IT-212
1504 Header Inlet ToPSV-1F013K, L, N
Containment Instrument GasBottle Supply
M-126
M-126
1,3
1,3
1-4B
1-4B
This valve is normally openand fails open. For the systemto function properly, thisvalve must not close.
This is a mechanical component.
ADS-1-I-Control ADS Div. 1 Auto Actuation Logic
ADS-'I-II-Control ADS Div. II Auto Actuation Logic
Ml-B21-129
Ml-B21-129
1,2,3 Various
1,2,3 Various
See SEA-EE-049. Psuedo component.Spurious for Paths 2 and 3.
Spurious for Paths 1 and 2.See SEA-EE-049
LIS-B21-IN042A Reactor Vessel Level 3 Indicating Switch
PS-El 1-INOIOA Hi Primary Containment Pressure Switch
LIS-B21-1N042B Reactor Vessel Level 3 Indicating Switch
M-142
M-142
M-151 Sh. 1
1,2,3
1,2,3
1,2,3
1-5A-S
1-5A-S
1-6D
Remark: PS-E11-1N016A,B,C,D and
are interlock components~VIffInterlock components are li,sted
below.
PS-Ell-1N010B Hi Primary Containment Pressure Switch
PS-Ell-1N010D Hi Primary Containment Pressure Switch
PS-B21-1N022A Reactor Vessel Hi Pressure Switch
PS-B21-1N022B Reactor Vessel Hi Pressure Switch
PS-B21-1N022C Reactor Vessel Hi Pressure Switch
PS-B21-1N022D Reactor Vessel Hi Pressure Switch
PS-B21-1N022E Reactor Vessel Hi Pressure Switch
PS-B21-IN022P Reactor Vessel Hi Pressure Switch
PS-Ell-lN016A,B,C,D Interlock Component (Spurious)
PS-Ell-1N010C Hi Primary Containment Pressure Switch
M-151 Sh. 2
M-151 Sh. 1
M-151 Sh. 2
M-142
M-142
M-142
M-142
M-142
M-142
1)2)»
1,2,3,
1,2,3)
l)2,3,1)2)3
1,2)3
1)2,3
1)2,3
1,2,3
1"6h
1-6D
1-6A
1-5A-S
1-5A-S
1-SA-S
1-5A-S
1-5A"S
1-5A-S
III, REACTOR HEAT REHOVAL PROCESS
h. Automatic De reseurization S stem (ADS)
Re uired Com onents (Unit 1)
Page 4 of 4
SE -B- NA'=016 R . 3 Page~
Com onent Dcecri tion References
a eShutdownPath(s)
RequiringCo onent
FireZone Remarks
PS-B21-IN022G
PS-B21-1N022H
PS-B21-IN022J
PS-B21-1N022X
PS-$ 21-IN022L
PS-B21-1N022H
PS-B21-1N022N
PS-B21-1N022P
PS-B21-1N022R
PS-B21-1N022S
Reactor Vessel Hi Ptessure Switch
Reactor Vessel Hi Prcssure Svitch
Reactor Vessel Hi Pressure Svitch
Reactor Vessel Hi Pressure Svitch
Reactor Vessel Hi Pressure Svitch
Reactor Vessel Hi Pressure Switch
Reactor Vessel Hi Pressure Switch
Reactor Vessel Hi Pressure Svitch
Reactor Vessel Hi Pressure Svitch
Reactor Vessel Hi Pressure Switch
PS-Ell-lN020A,B,C,D Interlock Component (Spurious)
H-142
H-142
H-142
H-142
M-142
H-142
H-142
H-142
H-142
H-142
1~2~3
1,2,3
1,2,3
1~2~3
1,2,3
1,2,3
1,2,3
1,2~3
1,2,3
1,2,3
1,2,3
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
tm/hl031:nas
III. L ~R HEAT REMOVAL PROCESS
B. RHR SYSTEM
Re uired Com onents (Unit 1)
Page of 4
SF -B-'NA'91'6 Rev, 3Page
C onent
Division IHV-Ell-1F009
HV-Ell"1F006A
HV-Ell-1F004A
1P202A
HV-Ell"1F007A
HV-Ell-1F048A
SV-15151A
SV-15152A
HV-1F006C
Descri tion~d
Shutdown Cooling Inboard IsolationValve
Pump IA Shutdown Cooling Suction Valve
Pump IA Suppression Pool Suction Valve
RHR Pump lA
Loop A Minimum Flow Bypass Valve
Heat Exchanger Bypass Valve
Solenoid Valve, actuates PV-Ell-1F051A
Solenoid Valve, actuates PV-Ell-1F052A
Pump Suction from RPV
References
M-151 Sh. 2
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
a eShutdownPath(s)
RequiringCom onent
1,2
1,2
1,2
1,2,3
FireZone
1-4F
1-1F
1-1F
1-1F
1-1F
1-3C-W
1-1F
1-1F
Remarks
On Path 1, this valve servesas a flow diversion barrierand must remain closed unlessit is demonstrated that valveHV-Ell-1F008 is closed. OnPath 2 this valve mustbe operable to support thefunctioning of RHR in theshutdown cooling mode.
Solenoid Valve SV-15151Aand SV-15152A are controlledfrom a common hand-switch. Theyactuate PV-Ell-1F051A andPV-Ell-1F052A allowing steamflow to the RHR Heat Exchangers.Either SV must stay de-energizedto keep the accanpanying PVclosed. The PVs are in seriesand are normally closed.
HV-Ell-IF016A
HV-Ell-1F026A
HV-Ell"1F003A
HV-Ell-1F047A
HV-Ell-1F028A
HV-Ell-1F024A
Drywell Outboard Isolation Valve
Block Valve Condensate Return to RCIC
Heat Exchanger Outlet Valve
Heat Exchanger Inlet Valve
Suppression Pool Cooling Block Valve
Test Line Control Valve
M-151 Sh, 1
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh 1
M-151 Sh. 1
M-151 Sh. 1
1,2 1-1F
1-1F
1-3C-S
1-3C-S
1) 2 " 1-5E
1-1F
III. REhi ~R HEAT REMOVAL PROCESS
B. RHR SYSTEM
Re uired Com onents (Unit 1)
Page of 4
C onent
HV-Ell-1F017A
HC-Ell"1F015A
TE-Ell-1N027A
TT-15127A
TI-15127A
FS-Ell-1N021A
PS-B31"IN018A
FT"Ell-IN015A
FI-Ell"1R603A
ES-Ell-IK603A
FY-Ell-IK600A
Division II
Descri tion
Outboard Isolation Valve
Inboard Isolation Valve
Instrumentation
Heat Exchanger A Outlet Temp. toTI-15127A
Temperature Transmitter
Heat Exchanger Outlet Temp. Indicationfrom TE"1N027A
Minimum Flow Switch
SDC Low Press. Permissive.(F009)
RHR Loop A Flow Transmitter to FI-IR603A
RHR Loop A Flow Indicator from FT-1N015A
Power Supply
Flow Transducer
References
M-151 Sh. 1
M-151 Sh. 1
'M-151 Sh. 1
M-151 Sh. 1
M-151 Sh. 1
FF-124510 Sh. 6604M-151 Sh. 1
F-114511 Sh. 3110FF-124510 Sh. 6604
M-143
M-151 Sh. 1
M-151 Sh. 1
M-151 Sh, 2
M-151 Sh. 1
a eShutdownPath(s)
RequiringCom onent
lj2
FireZone
1-3C-S
1-3C-W
1-3C-W
0-27E
0-26H
1-3A
1-3A
1-3A
0-26H
0-27E
0-27E
Remarks
Common with RHR ServiceWater System
HV-Ell-1F004B Pump 1B Suppression Pool Suction Valve
HV-Ell-1F008 Pump Suction Valve from Reactor VesselVessel
4~006 D
M-151 Sh. 2
M-151 Shi 2
2 j3
2 j3
1-lE
1-3C-W On Path 3 this valveserves as a flow diversionbarrier and must remain
P~ ~ closed unless it isdemonstrated that valveHV-Ell-1F009 is closed.i /IZ/87'- Valve must remainoperable to support thefunctioning of RHR inthe shutdown coolingmode.
HV-Ell-1F006B Pump 1B Shutdown Cooling Suction Valve M-151 Sh. 2 l-lE
III. REh~iOR HEhT RBSVhL PROCESS
B. RHR SYSTEM
Re uired C onents Unit I)
Pag».. of 4
8 -B= N A. 0 1 6 ReV. 3 'Page+ Jo f 35
Page
C onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
1P202B
HV-Ell-1F007B
HV-Ell-1F047B
HV-Ell-1F048B
HV-Ell-1F003B
HV-Ell-1F0178
HV-Ell-1F015B
HV-Ell-1F026B
SV-15151B
SV-15152B
HV-Ell-1F016B
HV-Ell-1F028B
HV-Ell-1F024B
TE-Ell-1N027B
TT-15127B
TI-15127B
RHR Pump 1B
Loop B Minimum Flow Bypass Valve
Heat Exchanger Inlet Valve
Heat Exchanger Bypass Valve
Hest Exchanger Outlet Valve
In)ection Outboard Isolation Valve
Infection Inboard Isolation Valve
Block Valve Condensate Returnto RCIC
Solenoid Valve actuates PV-Ell-1F051B
Solenoid Valve actuates PV-Ell-1F052B
Drywell Spray Outboard IsolationValve
Suppression Pool Cooling Block Valve
Test Line Control Valve
Instrumentation
HT Exchanger Outlet Temperature toTI-15127B
Temperature Transmitter
Heat Exchanger Outlet TemperatureIndication from TE-1N027B
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
M-151 Sh. 2
2 $ 3
213
2$ 3
2$ 3
2 $ 3
2$ 3
2$ 3
1,2,3
1$ 2$ 3
2 $ 3
2 $ 3
2$ 3
1-1E
1-1E
l-lE1-3C-W
1-lE
1-3C-N
1-3C-W
1-lE
1-1E
l-lE
1-5B
1-3C-N
1-3C-N
1-3C-W
0-24D
0-26H
SV-15151B and SV-15152B erecontrolled from a commont andewitch. Simultaneousopening of both of thesevalves would allow steam flowto the RHR Heat Exchangers.The SVs actuate PV-1F051B andPV-1F052B. Either SV muststay de-energized to keep theaccompanying PV closed. ThePV's ere in series and erenormally closed.
III. REA~~VR HEAT REMOVAL PROCESS
B. RHR SYSTEM
Re uired C nents (Unit 1)
Page 4 of 4
gP ~/= N'A'Fg ] 6 Rey, 3'age ~f 35
Page~
C nent
FS-Ell-1N021B
PS-B31-1N018B
Descri tion
Minimum Flow Switch for HV-1F007BMinimum flow Bypass Valve
SDC Low Pressure Permissive (F008)
References
FF-124510 Sh. 6607M-151 Sh. 2
FF-114511 Sh. 3110FF-124510 Sh. 6607
M-143
a eShutdownPath(s)
RequiringCom onent
PireZone
1-3B-N
3 1-3B-N
Remarks
FT-Ell-1N015B
FI-Ell-IR6038
FY-Ell-lK600B
RHR Loop B Flow Transmitter toFI-Ell-1R603B snd FI-15105
RHR Loop B Flow Indicator from
Flow Transducer
M-151 Sh. 2
M-151 Sh. 2
FF-124510 Sh. 6614M-151 Sh. 2
2$ 3 1-3B "N
0-26H
0-26H
ES-Ell-1K603B
HV-Ell-1F006C
HV-Ell-1F006D
FI-15105
FY-15105
ES-11201B
RHR-1-I-Control
Power Supply
Pump 1C Shutdown Cooling SuctionValve from Reactor Vessel
Pump 1D Shutdown Cooling SuctionValve from Reactor Vessel
RHR System Flow Indicator
Flow Transducer
Power Supply
RHR Div. I Auto Actuation Logic
FF-124510 Sh. 6614M-151 Sh. 2
M-151 Sh. 1
M-151 Sh. 2
M-151
M-151 Sh. 2
M-151 Sh. 2
Ml-Ell-29
0-24D
1-1F
l-lE
2 1-2D
2 1-2D
2 1-2D
1,2,3 Various
Common with RHR ServiceMater System
See SEA-EE-049pseudo component.
RHR-1-II-Control RHR Div. II Auto Actuation Logic
PS-E11-1N016A,B,C,DPS-Ell-lN020A$B,C,D
Ml-Ell-29 1,2,3 Various
1$ 2$ 3
See SEA-EE-049pseudo component.
PS-Ell-lN016A,B $C,Dand PS-E11-IN020A,B$ C$ Dare interlock components.
tm/hl03i:nas
III~ REACIv.i HEAT REMOVAL PROCESS
C. Safet Relief Valves
Re uired Com onents Unit 1)
Page 1 c 2
$ E =B=NA~ ( 6 Rev. p< "'> ""Page
C onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
SV-14113B
SV-14113D
SV-14113F
SV-14113H
SV-14113K3
SV-14113L3
SV-14113N3
SV-14113R
SV-14113A
SV-14113C
SV-14113E
SV-14113G3
SV-14113J3
SV-14113M3
SV-14113P
SV-14113S
PS-B21-1N022A
PS-B21-IN022B
PS-B21-IN022C
PS-B21-1N022D
PS-B21-1N022E
PS-B21-IN022F
PS-B21-1N022G .—
Solenoid Valve Actuates PSV-1F1013B
Solenoid Valve Actuates PSV-1F013D
Solenoid Valve Actuates PSV-IF013F
Solenoid Valve Actuates PSV-1F013H
Solenoid Valve Actuates PSV-1F013K
Solenoid Valve Actuates PSV-1F013L
Solenoid Valve Actuates PSV-1F013N
Solenoid Valve Actuates PSV-1F013R
Solenoid Valve Actuates PSV-1F013A
Solenoid Valve Actuates PSV-1F013C
Solenoid Valve Actuates PSV-1F013E
Solenoid Valve Actuates PSV-1F013G
Solenoid Valve Actuates PSV-IF013J
Solenoid Valve Actuates PSV-1F013M
Solenoid Valve Actuates PSV-1F013P
Solenoid Valve Actuates PSV-1F013S
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-141
M-142
M-142
M-142
M-142
M-142
M-142
M-142
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1)2)3
1)2,3
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-4F
1-SA-S
1-5A-S
1-SA-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
SV-14113A,B,C must be operablewith switches on RSP for Path 2.
All solenoid valves must beprevented from causing aspurious actuation of theirrespective PSV.
These pressure switches mustbe prevented from causing aspurious actuation of a PSV.
III. REACXVK HEAT REMOVAL PROCESS
C. Safet Relief Valves
Re uired Ccm onents Unit 1)
Page 2 of 2
SF B M AcD 1 6 Pgy g' Page~f 35
PB~%~C onent Descri tion References
Sa eShutdownPath(s)
RequiringCo onent
FireZone Remarks
PS-B21-1N022H
PS-B21-IN022J
PS-B21-IN022K
PS-B21-1N022L
PS-B21-1N022M
PS-B21-1N022N
PS-B21-1N022P
PS"B21-1N022R
PS-B21-IN022S
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
M-142
M-142
M-142
M-142
M-142
M-142
M-142
M-142
M-142
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1>273
1,2,3
1-5A-S
1-5A-S
1"5A-S
1-5A-S
1-5A-S
1-5A-S
1-5A-S
l)2)3 1-5A-S
1,2,3 1-5A-S
These pressure switches must beprevented from causing aspurious actuation of a PSV.
tm/h2001:dek
SE -B=N AN 1'6 Rev.:
Page~gz
IV. MONITORING UNIT 1
tm/h203i:dek
IV. MONITORIHG
C onent Descri tion
Re uired C onents (Unit 1
References
Page 1 of 3
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
SE -B=NA~U16 ReV. 3'ageQSof 35
Pa< ro >q-
Division ITE-15753
TE-15755
TE-15757
TE-15759
TE-15763
TE-15765
TE-15767
TE-15769
LT-15776A
LR-15776A
TX-15751
TIAH-15751
Division IITE-15752
TE-15754
TE-15758
Instrumentation
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool 'Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Water Temp. Elementsto TX-15751
Suppression Pool Level Transmitter(Wide Range) to LR-15776A
Level Recorder form LT-15776A
Temp. Transducer
Temperature Indicator
Suppression Pool Water Temp. Elementto TX-15752
Suppression Pool Water Temp. Elementto TX-15752
Suppression Pool Water Temp. Elementto TX-15752
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
1,2
1,2
1,2
1,2
1,2
1,2
1,2
li21,2
1,2
2 j3
2/3
2/3
1-1H
1-1H
1-1H
1-1H
1-1H
l-lH
1-1H
1-lH
1-1A
0-26H
0-26H
0-26H
1-1H
1-1H
1-1H
Path 2 is spurious only.
Path 2 is spurious only.
Path 2 is spurious only.
IV. MONITORING
Co nent Descri tion
Re uired Com onents (Unit 1
References
Page 2 of 3
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
SE =B= g AHJ 1 6 Rey. 3< jagegaj'jj. Page ~
TE-15760 Suppression Pool 'Water Temp. Elementto TX-15752
M-157 Sh. 3 2$ 3 1-1H
TE-15762
TE-15766
TE-15768
TE-15770
LT-15776B
LR-15776B
TX-15752
TIAH-15752
LI"15776B2
PI-15728B
PT-15728B
TI-15790B2
TT-15790B2
TE-15790B
Suppression Pool Water Temp. Elementto TX"15752
Suppression Pool Water Temp. Elementto TX-15752
Suppression Pool 'Water Temp. Elementto TX-15752
Suppression Pool Water Temp. Elementto TX-15752
Suppression Pool Level Transmitter(Wide Range) to LR-157768
Level Recorder from LT-15776B
Temp. Transducer
Temperature Indicator
Suppression Pool Level Indicator
Drywell Pressure Indicator
Pressure Transmitter
Drywell Temperature Indicator
Temperature Transmitter
Temperature Element
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
H-157 Sh. 3
M-157 Sh. 3
M-157 Sh. 3
H-157 Sh. 3
M-157HSS-15110A Sh. 2
M-157HSS-15110h Sh. 2
M-157HSS-15110h Sh. 2
M-157HSS-15110h Sh. 2
M-157HSS-15110h Sh. 2
M-157J-498 Sh. 4
2$ 3
2 $ 3
2 j 3
2$ 3
2$ 3
2$ 3
2 $ 3
2$ 3
1-1H
l-lH
l-lH
1-1H
1-1B
0-26H
0-26H
0"26H
1-2D
1"2D
1-4A-W
1-2D
1-2D
1-4F
Path 2 is spurious only.
Path 2 is spurious only.
Path 2 is spurious only.
Temperature element is isolatedfrom Control Room when transferswitch is in Emergency Position.
IV. MONITORING
Re uired C onents (Unit 1
Com nent
TI-15751
TI-15752 Suppression Pool Temperature Indicator
TI-15752B Suppression Chamber TemperatureIndicator
Descri tion
Suppression Pool Temperature Indicator
References
M-157HSS-14901 Sh. 2
M-157HSS-15110A Sh. 2
M-157HSS-15110A Sh. 3
Page 3 of 3
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
2 1-2D
1-2D
1-2D
Indication can be lost due to aC.R. Fire. However, temp.indicators are redundant andRHR suction temp. could beobtained. See DeviationRequest Number 2.
~~ =B= N A'N 1 6 P~ 3'agegjof 35
Page
TT-15725B Temperature Transmitter M-157J-498
1-2D
K-15725 Temperature Element
2E-15751
TE-15756
TE-15761
3Z-15764
LI-14262
PI-14262
Temperature Element
Temperature Element
Temperature Element
Temperature Element
Reactor Vessel Level Indicator
RPV Pressure Indicator
PT-14262
XIT-15701A
RPV Pressure Transmitter
Div. 1 SPDS MUX
LITS-B21-IN026B RPV Level Transmitter
M-157HSS-15110A Sh. 3
M-157
M-157
M-157
M-157
M-142
M-142
M-142
M-142
M-157
1,2~3
1,2,3
1,2>3
1,2~3
I-1H
1-1H
1-1H
1-1H
1-2D
1-2D
1-5A-S
1-5A-S
0-27E
Assure that the failure of thesetemperature elements cannot causea failure of all suppression poolindication. One Division or theother must be provided to TI-15751or TI-15752.
Spurious only.
tm/h200i,:dek
Y. ASSOCIATED SUPPORT FUNCTIONS
A. RHRSW (Unit 1)
B. Reactor Building HVAC (Unit 1)
tm/h100i:nas
V. ASSOCIATE SUPPORT FUNCTIONS
h.l RHR Service Water S stem
Re uired Can onents Unit 1)
SP "B=NAIm11 6 pf$y 3 S; 1 of 2
Page/8 of 35
Page ~~g~-
Component Description References
a eS ut o$$nPath(e)
RequiringComponent
FireZone Remarks
Division I1P-506A
HV-11210h
HV-11215A
HV-01224hl
HV-01224A2
HV-01222h
FT-Ell-IN007A
RHRSW Pump 1A
RHR Ht. Ex. 1A SW Inlet Valve
RHR Ht. Ex. 1A SW Outlet Valve
ESW Spray Pond Header Valve
ESW Spray Pond Header Valve
ESW Spray Pond Bypass Valve
Instrumentation
RHR Ht. Ex. 1A SW Floe Transmitterto FI-El1"1R602A
M-112 Sh. 1
M-112 Sh. 1
M-112 Sh. 1
M-112 Sh. 2
M-112 Shi 2
M-112 She 2
M-112 Sh. 1
1 0-51 Pump 1A may supply either Units 1 or 2
1 1-1F
1 1-1F
1 Outside Areas Common for Units 1 6 2
1 Outside Areas Common for Units 1 & 2
1 Outside Areas Common for Units 1 & 2
1-1G
ES-Ell-1K603A
Fl-Ell-1R602A
Division II,1P-506B
Po$ $er Supply
RHR Ht. Ex. 1A SW Flow Indicator
M-151 Sh. 2
M-112 Sh. 1
M-112 Sh. 1 2$ 3
0-27E Common with RHR System
0-26H
0-52 Pump 1B may supply eithe;Unite 1 or 2
HV-11210B
HV-11215B
HV-01224Bl
HV-01224B2
HV-01222B
tm/)9001:nas
RHR Ht. Ex. IB SW Inlet Valve
RHR Ht. Ex. 1B SW Outlet Valve
ESW Spray Pond Header Valve
ESW Spray Pond Header Valve
ESW Spray Pond Bypass Valve
M-112 Sh. 1
M-112 She 1
M-112 Sh. 2
M-112 Sh. 2
M-112 Sh. 2
2 $ 3
2 $ 3
1-1E
1-1E
2,3 Outside Areas Common for Units 1 & 2
3 Outside Areas Common for Units 1 6 2
2,3 Outside Areas Common for Units 1 6 2
V. hSSOCIhTED SUPPORT FUNCTIONS
h.l RHR Service Mater S stem
Re uired C onents (Unit 1)
%'-8=MA@16 Rev Z'ageg'f of 35
Pag8~ss
Component Description References
Sa e ut ownPath(s)
RequiringComponent
PireZone Remarks
FT-Ell-IN007B
ES-EII-IK603B
FI-El1-IR602B
FI-11207B
Instrumentation
RHR Ht. Ext. 1B SW FlowTransmitter
Power Supply
RHR Ht. Ex. 1B SM FlowIndicator from FT-Ell-1N007B
Flow Indicator
M-112 Sh. 1
M-151 Sh. 2 ~
M-112 Sh. 1
M-112MSS-15110A~ Sh. 1
213
2 $ 3
2/3
0-27E Path 2 for spurious only.Common with RHR system
0-26H Path 2 for spurious only.
1-2D
1-3B-N Path 2 for spurious only.
ES-11207B Power Supply M-112J-498, Sh. 4
1-2D Power Supply Cables do notpass through Control Room.
tm/)9001:nas
V. ASSOC1..-W SUPPORT FUNCTIONS
B. REACIOR BUILDING HVAC SYSTEM
Re uired C onents Unit 1)
Page ~f 3
=~=m~rS s<v. y~,...,..„,Page
Com onent
Division IDescri tion References
Sa eShutdownPath(s)
RequiringCom onent
FireZone Remarks
1V208A
1V208B
1V222A
HD-17630h
1V210A
lV211A
1V211C
TSH-17661A
TSH-17661B
TSH-17631A
FSL-17630A
Division II1V222B
HD-17630B
RCIC Pump Room (1-12) Unit Cooler h
RCIC Pump Room (1-12) Unit Cooler B
Emergency Swgr. and Load Center RoomCooling Unit A
Motor-Operated Damper on Discharge oflv222A
RHR Pump Room (1-14) Unit Cooler A
Core Spray Pump Room (1-10) Unit Cooler A
Core Spray Pump Room (1-10) Unit Cooler C
Temperature Switch for 1V208h
Temperature Switch for lV208B
Discharge Air Temperature Switchfor 1V222A
Common Duct Air Flow Switch for lV222A
Emergency Swgr. and Load Center RoomCooler Unit B
Motor-operated Damper on Discharge of1V222B
H-176
H-176
H-176
V-176M-176
M-176
H-176
M-176
VC-176V-176 Sh. 8
VC-176V-176 Sh. 8
VC-176V-176 Sh. 2
VC-176
M-176
VC-176
2 . 1-1D
2 1-1D
1 1 1-4A-S~ goPgIV P
1,2 1-4A-S
1-1F
1-lA
1-1D
1-1D
1-4A-S
1-4A-S
g,3 ~ 1-4h-Sgr/(Ijpy.
1-4A-S203
Division I only.
Division I only.
1V210B
1V211B
1V211D
TSH-17631B
Upper RHR Pump Room (1-103)Unit Cooler B
Core Spray Pump Room (1-17) Unit Cooler B
Core Spray Pump Room (1-17) Unit Cooler D
Discharge Air Temperature Switch for 1V222B
M-176
M-176
M-176
VC-176V-176 Sh. 2
2/3
2/3
1-lE
1-1B
1-1B
1-4A-S
V. ASSOCIATED SUPPORT FUNCTIONS
B. REACTOR BUILDING HVAC SYSTEM
Re uired C onents (Unit 1)
~F -8-MA~616 Rev. 3Page gJ of 35
Pageos
Co onent
FSL-17630B
1V223
LITS-B21"1N026A
Descri tion
Coaaanon Duct hir Flow Switch for 1V222B
- Remote Shutdown Panel Room (1-109)Ventilation Fan
Reactor Vessel Level 2 IndicatingSwitch
References
VC-176V-176 Sh. 2
M-176
H-142
a eShutdownPath(s)
RequiringCom onent
FireZone
1-2B
1-SA-S
2/3 1-4A-S
Remarks
Interlock Component
LITS-B21-IN026B
LITS-B21-1N026C
LITS-B21-1N026D
Reactor Vessel Level 2 IndicatingSwitch
Reactor Vessel Level 2 IndicatingSwitch
Reactor Vessel Level 2 IndicatingSwitch
M-142
H-142
H-142
2/3 1-5A-S
1-5A-S
1-5A-S
Interlock Component
Interlock Component
Interlock Component
FPD-3-28-4-1 Fire Protection Damper (FPD) - EmergencySwitchgear Room Cooling
V-28-4 See SEA-ME-097 Rev. 1 Mechanical Component
FPD-3-28-4-2
FPD-3-28-4-3
FPD-3-28-4-4
FPD-3-28-5-1SC
FPD-3-28-5-2SC
FPD-3-28-5-3
FPD-3-28-5-4
FPD-3-29-4-1
FPD-3-29-4-2
FPD-3-29-4-3
FPD-3-29-4-4
FPD Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgeer Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgeer Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-3-29-Sh-1SC FPD-Emergency Switchgear Room Cooling
FPD-3-29-Sh-2SC FPD-Emergency Switchgear Room Cooling
V-28-4
V-28-4
V-28-4
V-28-5
V"28"5
V-28-5
V-28-5
V-29-4
V-29-4
V-29-4
V-29-4
V-29-5A
V-29-5A
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
Mechanical Component
Mechanical Component
Hechenical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
CgV. ASSOCIaiXD SUPPORT FUNCTIONS
B. REACTOR BUIU)ING HVAC SYSTEM
R uired C onente (Unit 1)
SE -B-NA'm916 Rey 3 "''"'age
SR of 35
Page~
onent
FPD-3-29-5A-3
FPD-3-29-5A-0
Deecri tion
FPD-Emergency Switchgesr Room Cooling
FPD-Emergency Switchgear Room Cooling
References
V-29-5A
V-29-5A
a eShutdownPath(e)
RequiringC onent
FireZone
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
Remarks
Mechanical Component
Mechanical Component
tm/h306i:mg
SE'B- M 'A< I 6Re'age~qg
.
VI. ELECTRICAL SYSTEM
A. Unit 1
tm/hlOOi:nas
VI~ ELECLasiCAL SYSTEM
h. R uired C onents (Unit 1)
NOTE: All Electrical Sysc.em components to bedetermined by NPE Electrical. Thissection is provided for "information only"
SF -8-' A~V 1 6 PopPage 3'g of 35
J'a e<O
C onent
Division Ilh201
1A203
1B210
1B230
1B216
18217
1B219
1B236
1B237
1X210
1X230
1Y20lh
1Y216
1Y236
1D254
1D652
1D651
1D653A
1D653B
3D650
1D612
ID632
1D614
Descri tion
4.16KV Safeguard Switchgear
4.16KV Safeguard Switchgear
480 V AC Load Center
480 V AC Load Center
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC L.C. Transformer
480 V AC L.C. Transformer
120 V AC Distribution Panel
120 V AC Distribution Panel
120 V AC Distribution Panel
250 V DC Control Center
250 V DC Load Center
250 V DC Fuse Box
250 V DC Battery Charger
250 V DC Battery Charger
250 V DC Battery
125 V DC Load Center
125 V DC Load Center
125 V DC Distribution Panel
References
E103/1/19
E103/7/13
E64/ll/18
E64/12/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E157/1/14
E24/1/16
E25/1/16
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
SafeShutdownPath(s)
RequiringCom onent
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
1,2
FireZone
1-5G
1-4D
1-5G
1-4D
1-3h
1-5G
1-2h
1-4D
1-2h
1-5G
1-4D
1-5A-S
1-3h
1-4A-S
1-2h
0-28B-II
0-28I
0-28B-II
0-28B-II
0-28-I
0-28B-II
0-28B-II
0-28B-II
Remarks
7
Com onent
1D634
1D611
1D631
1D613
1D633
1D610
1D630
Division II
Descri tion
125 V DC Distribution Panel
125 V DC Fuse Box
125 V DC Fuse Box
125 V DC Battery Charger
125 V DC Battery Charger
125 V DC Battery Bank
125 V DC Battery Bank
VI. ELECTRICAL SYSTEH
A. Re uired C onents (Vnit 1)
References
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
SafeShutdownPath(s)
RequiringCom onent
1,2
1,2
1,2
1,2
1,2
1,2
1,2
NOTE: All Electrical System components to bedetermined by NPE Electrical. Thissection is provided for "information only"
FireZone Remarks
0-28B-II
0-28K
0-28L
0-28B-II
0-28B-II
0-28K
0-28L
SF =8=MA@16 Rey. 3' 'Page ~of 35
PB 8
lA202
1B220
1B240
1B226
1B227
1B229
1B246
1B247
V(220
1X240
1Y201B
1Y226
lY246
19264
1D274
4.16KV Safeguard Switchgear
4.16KV Safeguard Switchgear
480 V AC Load Center
480 V AC Load Center
480 V AC HCC
480 V AC HCC
480 V AC MCC
480 V AC MCC
480 V AC MCC
480 V AC L.C. Transformer
480 V AC L.C. Transformer
120 V AC Distribution Panel
120 V AC Distribution Panel
120 V AC Distribution Panel
250 V DC Control Center
250 V DC Control Center
E103/4/15
E103/11/20
E64/ll/18
E64/12/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E157/1/14
E25/1/16
E25/1/16
E26/1/21
E26/1/21
2 $ 3
2 $ 3
2$ 3
2$ 3
2$ 3
2$ 3
2 ~ 3
2 $ 3
2$ 3
2 $ 3
2 $ 3
2 $ 3
1-5F
1-4C
1-5F
1-4C
1-3B-N
1-5F
1-4A-N
1-4C
1-2B
1-5F
1-4C
1-5A-S
1-3B-N
1-4A-N
1-3B-N
1-3B-N
VI. ELECTkfCAL SYSTEM
A. Re uired C onents (Unit 1)
NOTE: All Electrical Sy~ ~ components to bedetermined by NPE Electrical. Thissection is provided for "information only"
RP'R- M'A=57~ Pev 'fPage 35 of 35
rdge
nent Descri tion References
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
1D662
1D661
1D663
1D660
1D622
1D642
1D624
1D644
1D621
1D641
1D623
1D643
1D620
1D640
250 V DC Load Center
250 V DC Fuse Box
250 V DC Battery Charger
250 V DC Battery
125 V DC Load Center
125 V DC Load Center
125 V DC Distribution Panel
125 V DC Distribution Panel
125 V DC'use Box
125 V DC Fuse Box
125 V DC Battery Charger
125 V DC Battery Charger
125 V DC Battery Bank
125 V DC Battery Bank
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
EZ6/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
3 0-28M
0-28N
0-28B-I
0-28B-I
0-28M
0-28N
3 0-28B-I
3 0-28 J
3 0-28B-I
3 0-28J
3 0-28B-I
3 0-28B-I
3 0-28B-II
3 0-28B-II
tm/h3lli:mg
8~ =8=MA~916 Re(
Pagt.~ <<<
APPENDIX R - SAFE SHUTDOWN
COMPONENT LIST
APPENDIX B
UNIT ¹2
RE VIREO COMPONENTS
tm/h203i:dek
I. REACTIVITY CONTROL UNIT 2
A. CRD System (SCRAM Only)
B. Reactor Recirculation System
tag/i065i:dek
Thia page ie left intentionally blank.
PGg 'g 'Page ( of 34
PQg8 ~4K
This page is left intentionally blank
This page is left intentionally blank.
QW =P= g g f g Pgp Pg Page 7of 34
Page~~-
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SB ~B= N Ar6 1 6 ReV. 3 'aSe 4 «34
page~~
I. REACTIVx~a CONTROL
A. CRD S stem (Scram Circuits Onl )
Re uired C onents (Unit 2)
Page 1 of 1
SP "-B=hl A~016 R8y. 3 "Page 5'of 34
i'age~>-
C onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
Division I II139 Valve(XV-126)(XV-127)
SV-C12-2F009A
orSV-C12-2F009B
Scram Pilot Air Valve
SDV Vent & DrainPilot Solenoid Valves
orSDV Vent 6 DrainPilot Solenoid Valves
M-2147
M-2147FF-122610 Sh. 505
M-2147FF-122610 Sh. 505
1,2,3
1,2,3
1,2,3
2-4A-S2-4A-N
2-4A-W
2-4A-W
Typical of 185 scram pilotvalves. These valves do nothave individual numbers butcan be uniquely identified byHCU numbers. The I.D. numberfor each HCU is the same as thecontrol rod drive that itserves. Both divisions of RPSmust de-energize in order toassure the SCRAM function.
These dual solenoid valves supplyair 6 control SDV vent & drainvalves by venting air pressureoff valves (XV-2F180,2F181,2F011,2F010). Either SV-C12-2FlB2'or'SV-C12-2F009 must close(i.e. de-energized) to assureSDV drain & vent isolation.
tm/h2001:dek
I. REACTIVXXY CONTROL
B. Reactor Recirculation S stem
Re uired C onents (Unit 2
Page 1 of 1
SE'=B=N>40?'6 Peg. 3 Paged of 34
Page
C onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
Division I2P-401A
PSL-C72-2NOOSAPSL-C72-2N0058ZS-C72-2N006BZS-C72-2N006APSH-C72-2N003APSH-C72-2N003B
Division IIHV-B31-2F023B
2P-401B
PSL-C72-2NOOSDPSL-C72-2N005CZS-C72-2N006DZS-C72-2N006CPSH-C72-2N003CPSH-C72-2N003D
Reactor Recirculation Pump
Pressure Switch Turbine CV-1Pressure Switch Turbine CV-2Limit Switch Turbine HSV-2Limit Switch Turbine HSV-1Pressure Switch Rx PowerPressure Switch Rx Power
Rx Recirc. Pump B Suction Valve
Reactor Recirculation Pump
Pressure Switch Turbine CV-4Pressure Switch Turbine CV-3Limit Switch Turbine HSV-4Limit Switch Turbine MSV-3Pressure Switch Rx PowerPressure Switch Rx Power
M-2143
Ml-C72-22Hl-C72-22Hl-C72-22Hl-C72-22Hl-C72-22Hl-C72-22
~ H-2143E-151 Sh. 23
M-2143
Hl-C72-22Hl-C72-22Ml-C72-22Hl-C72-22Ml-C72-22Ml-C72-22
1,2,3
1,21,21,21,21,21,2
1,2,3
2 j32 j32 j32 j32 j32 j3
2-4F
Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.
2-4F
2-4F
Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.Turb. Bldg.
The capability of shutting downthis pump both automatically inthe event of turbine trip andmanually must be available.
The capability of shutting downthis pump both automatically inthe event of turbine trip andmanually must be available.
Path 2 shown for both Divisionsis an "or" relationship exceptfor 1P401A,B and HV-B31-2F023B.2P401A must be manuallytripped for shutdown cooling-and must automatically trip forturbine trip.
tm/h2001:dek
PP8L Co.
COR RECTION
THlS DOCUMENT HAS BEEN
REMICROFILMEDTO ASSURE LEGlBILlTYAND iTS llNAGE APPEARSlMMEDlATELY HEREAFTER.
SE =H=NART6 r
Page~
II. REACTOR COOLANT MAKEUP UNIT 2
A. Main Steam Isolation Valves
B. Core Spray
C. RCIC
D. Nuclear Boiler Instrumentation
tm/h203i:dek
"NII. REACIOR COOLANT MAKEUP
A. Main Steam Isolation Valves
Re uired C onents (Unit 2)
Page 1 or 2
H=lN 0 5I 6 PBv. '3'pege'7of 34
Page
Com onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
Fire.Zone Remarks
Division ISV-24123A1
SV-24123A2
SV-2412381
SV-24123B2
SV-24123C1
SV-24123C2
SV-24123D1
SV-24123D2
Pilot Solenoid Valve for HV-2F022A
Pilot Solenoid Valve for HV-2F002A
Pilot Solenoid Valve for HV-2F022B
Pilot Solenoid Valve for HV-2F022B
Pilot Solenoid Valve for HV-2F022C
Pilot Solenoid Valve for HV-2F022C
Pilot Solenoid Valve for HV-2F022D
Pilot Solenoid Valve for HV-2F022D
Instrumentation
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
M-2141FF-114510 Sh.
10112
10112
10112
10112
10112
10112
10112
10112
1,2
1,2
1,2
1,2
1)2
1)2
1)2
1,2
2"4F
2-4F
2-4F
2-4F
2-4F
2-4F
2-4F
2-4F
Indication for the Inboard MSIVsis'provided on the RSP.
PSH-B21-2N056A Main Condenser Low Vacuum Switch
PSH-B21-2N056B Main Condenser Low Vacuum Switch
M-2141, M-2142)FF-114510 Sh.
M-2141) M-2142)FF-114510 Sh.
M-213910107
M-213910108
1,2
1,2
Turb. Bldg.
Turb. Bldg.
Division IISV-24129A1
SV-24129A2
SV-24129B1
Pilot Solenoid Valve for HV-2F028A
Pilot Solenoid Valve for HV-2F028A
Pilot Solenoid Valve for HV-2F028B
M-2141FF-114510 Sh.
M-2141FF"114510 Sh.
M-2141FF-114510 Sh.
10113
10113
10113
2-4G
2"4G
2-4G
r
II. REAC1bi. ASLANT MAKEUP
A. Main Steam Isolation Valves
Re uired Com onents Unit 2)
Page 2 of 2
% =B= 8 A'. 6 1 6 Rgy. 3 Page 8 of 34
Pagem~g-
Com onent
SV-24129B2
Descri tion
Pilot Solenoid Valve for HV-2F028B
SV-24129Cl Pilot Solenoid Valve for HV-2F028C
SV-24129C2 Pilot Solenoid Valve for HV-2F028C
SV-24129D1 Pilot Solenoid Valve for HV-2F028D
SV-24129D2 Pilot Solenoid Valve for HV-2F028D
PSH-B21-2N056C Mein Condenser Low Vacuum Switch
PI-20502
PT-20502C
Main Condenser Vacuum Indication
Condenser C Vacuum Transmitter
PSH-B21-2N056D Main Condenser Low Vacuum Switch
References
M-2141FF-114510 Sh. 10113
M-2141FF-114510 Sh. 10113
M-2141FF-114510 Sh. 10112
M-2141FF-114510 Sh. 10113
M-2141FF-114510 Sh. 10113
M-2141) M-2142, M-2139FF-114510 Sh. 10107
M-2141) M-2142) M-2139FF-114510 Sh. 10108
J405 Sh. 5
J405 Sh. 5
Sa eShutdownPath(s)
RequiringCom onent
FireZone
2-4G
2-4G
2-4G
2-4G
2) 3 Turb. Bldg.
293 Turbo Bldg.
1,3
1,3
0-26H
Turb. Bldg.
3 2-4G
Remarks
Required at low power (i.e. lessthen 3(A power) when low vacuumswitches are biwassed.
tm/h20li:dek
0 5
(
I
II~ REACTOR COOLANT MAKEUP
Re uired Co onents (Unit 2)
Page 1 of 2
SF -8-gP'=Ore Pgg P wage go~ ~Page
Com onent Descri tion References
SafeShutdownPath(s)
RequfrfngCom onent
FireZone Remarks
Division IHV-E21-2FOOlh
2P-206A
2P-206C
HV-E21-2F031A
HV-E21-2F015A
FT-E21-2N003h
FI-E21-2R60lh
Suppression Pool Suction Valve
Core Spray Pump 2h
Core Spray Pump 2C
Minimum Flow Valve
Full Flow Test Valve
Loop A Flow Transmftter
Loop A Flow Indication
FIS-E21-2N006h Mfn-Flow Switch
HV-E21-2F004h
HV-E21-2F005h
Division IIHV-E21-2FOOlB
2P-206B
2P-206D
HV-E21-2F015B
HV-E21-2F031B
Outboard Injection Valve
Inboard Injection Valve
Suppression Pool Suction Valve
Core Spray Pump 2B
Core Spray Pump 2D
Full Flow Test Valve
Minimum Flow Valve
FT-E21-2N003B
FI-E21-2R601B
HV-E21-2F004B
HV"E21-2F005B
Loop B Flow Transmitter
Loop B Flow Indicator
Outboard InJection Valve
Inboard Injection Valve
FIS-E21-2N006B Min-Flow Switch
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
M-2152
2-1B
2-1B
2-1B
2-2A
2-3C-S
2-3B-N
0-26H
2-3B-N
2-5B
2-5B
2-IA
2-1A
2-1A
2-3C-N
2-2B
2-3B-N
2-3B-N
0-26H
2-5B
2-5B
II, REACXux COOLANT HAKEUP
B. Core S ra S stem
Re uired C onents (Unit 2
C onent Descri tion
CSS-2-I-Control CSS Div. I Auto Actuation Logic
References
Hl-E21-20
a eShutdownPath(s)
RequiringCom onent
FireZone
1,2,P ~~ VariousI 1'«/n
Page 2 of 2
tit 4~5 1 6 Pgy 3'age loof m
Page~
Remarks
See SEA-EE-049Pseudo ComponentPath 2 is only for spurious.
CSS-2-II-Control CSS Div. II Auto Actuation Logic Hl-E21"20
1%e/e7
Various See SEA-EE-049Pseudo ComponentPath 2 is only for spurious.
tm/h2011: d ek
II. RELCXL .. sXSLAHT MAKEUP
C. R~CIC S steo
Re uired Com onents Unit 2)
Page 1 ur 2
SE -B=NA416 ReV. 3 ~ag'l«34Page~eo-
Com nent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
Division IHV-E51-2F007
HV-E51-2F008
HV-E51-2F010
HV-E51-2F012
HV-E51-2F013
HV-E51-2F022
HV-E51-2F031
HV-E51-2F059
HV-E51-2F060
HV-E51-2F062
HV-E51-2F084
FV-E51-2F019
HV-25012
HV-E51-2F045
HV-E51-2F046
FV-25013
Steam Supply Line (ContainmentIsolation Valve)
Stean Supply Line (ContainmentIsolation Valve)
Pump Suction Valve from CondensateStorage Tank
Pump Discharge Valve to Reactor
Pump Discharge Valve to Reactor
Test Bypass Valve to Condensate StorageTank via HPCI
Pump Suction from SuppressionPool (Containment Isolation Valve)
Turbine Exhaust to SuppressionPool (Containment Isolation Valve)
Vacuum Pump Discharge to SuppressionPool (Containment Isolation Valve)
Vacuum Relief Line (ContainmentIsolation Valve)
Vacuum Relief Line (ContainmentIsolation Valve)
Minimum Flow Valve to Suppression Pool
Turbine Stop Valve
Steam Supply Line (Turbine IsolationValve)
Lube Oil Cooling Water Valve
Turbine Throttle Valve
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2149
M-2150
M-2150
M-2150
M-2150
2-4F
2-3C-W
2-1D
2-2B
2-4C
2"2B
2-ID
2-ID
2-1D
2"1D
2-1D
2-1D s
2-ID
2-1D
lII
This valve is powered fromDivision II'
This valve is powered fromDivision II
'A I
II. REACTbRR COOLANT MAKEUP
C. ~RCIC R stem
Re uired C onents (Unit 2)
Page 2 of 2
$P -8- N p'g y'g @gal )gage]>f 34
I'amte
~5'om
nent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
FT-E51-2N003
2P-203
2S-212
XY-E51-2K603
ES-E51-2K604
2P-219
2P-220
RCIC Pump Discharge Flow Transmitterto FY-2K601 & FY24903
RCIC Pump
RCIC Pump Turbine
Inverter
Power Supply
Barometric Condenser Vacuum Pump
Vacuum Tank Condensate Pump
M-2149
M-2150
M-2150
M-2149
M-2150HSS-24902B Sh. IR2
M-2150HSS-24902A She 1,2
2 2-1D
2-1D
2-1D
0-27A
0-27A
2-1D
2-1D
Turbine Driven MechanicalComponent
Steam Driven MechanicalComponent
FY24903
FY24903A
ES24903
SI-25001B
SE-25001
FIC-24903
Flow Transducer
Flow Transducer
Power Supply
RCIC Turbine Speed Indicator (Remote)
RCIC Turbine Speed Element
RCIC System Flow Indicator Controller
PS-EQ-2NOIOA
PS-E11-2N010B
PS-E11-2N010C
PS-Ell-2N010D
Hi Primary Containment Pressure Switch
Hi Primary Containment Pressure Switch
Hi Primary Containment Pressure Switch
Hi-Primary Containment Pressure Switch
HV"B21-2FOIIA
tm/h201i:dek
Feedwater A Stop Valve
RCIC-2-I-Control RCIC Div. I Auto Actuation Logic
RCIC-2-II-Control RCIC Div. II Auto Actuation Logic
M-2150HSS-24901A She 1
M-2151 Sh. 1
M-2151 Sh. 2
M-2151 She 1
M-2151 Sh. 2
Ml-E51-90
Ml-E51-90
M-2141
1,2,3
1,2R3
1,2R3
1,2,3
2-2A
2-2A
2-2A
2-2A
2-2A
2-2A
2-6D
2-6A
2-6D
2-6A
Various
Various
2-4F
These are interlock components.
See SEA-EE-049 Psuedo Component
See SEA-EE-049 Pseudo Componnent
Path 2 for spurious closure only.
0II. REAC~ .i COOLANT MAKEUP
D. Nuclear Boiler Instrumentation (Refer to Section 4.0)
Re uired Com onents (Unit 2)
Page 1 of 2
~E -8- tIt A%1't) 859'. 3'age loof 34
Page
C onent
Division IDescri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
LIS-B21-2N024A Rx Level Indicating Switch M-2142 Sh. 1
LIS-B21-2N024B
LT-B21-24201A
LIS-B21-2N031A
LIS-B21-2N031C
PS-B21-2N021A
PS-B21-2N021C
PT-24201A
PI-24202A
LI-24201A
PS-B21-2N023A
PS-B21-2N023B
Division II
Rx Level Indicating Switch
Wide Range Level Indication to LI-24201A
Rx Level Indicating Switch
Rx Level Indicating Switch
Rx Pressure Switch
Rx Pressure Switch
M-2142 Sh. 1
H-2142 Sh. 1
H-2142 Sh. 1
H-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
Wide Range Pressure Indicator fromPT-24201A
Wide Range Level Indication from LT-24201A
Pressure Switch
Pressure Switch
M-2142 Sh. 1
H-2142 Sh. 1
M-2142
M-2142
Wide Range Rx Press. Transmitter to PI-24202A M-2142 Sh. 1
1,3
2-5A-N
2-5A-N
2-5A-N
2-5A-N
2-5A-N
2-5A-N
2-4A-S
2-5A-N
0-26H
0-26H
2-5A-N
2-5A-N
On Path 2, a manual SCRAM fromthe Hain Control Room is postulated.The manual SCRAH circuitry is tobe assured.
LIS-B21-2N024C
LIS-B21-2N024D
LT-24201B
LIS-B21-2N031B
LIS-B21-2N031D
PIS-B21"2N021B
PIS-B21-2N021D
PT-24201B
Rx Level Indicating Switch
Rx Level Indicating Switch
Wide Range Level Indication to LI-24201B
Rx Level Indicating Switch
Rx Level Indicating Switch
Pressure Indicating Switch
Pressure Indicating Switch
Wide Range Pressure Transmitter toPI-24202B
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
M-2142 Sh. 1
2-5A-N
2-5A-N
2-5A-N
2-SA-N
2-5A-N
2-5A-N
2-4A-N
2-5A-N
Can onent Descri tion
II. REACXOR COOLANT MAKEUP
D. Nuclear Boiler Instrumentation (Refer to Section 4.0)
Re uired C onents (Unit 2)
References
SafeShutdownPath(s)
RequiringCom onent
PireZone Remarks
Page c of 2
QP =P= g P4Q ) 6 Rgy 3'age +of 34.
Page ~e.
PI-24202B
LI-24201B
PS-B21-2N023C
PS-B21-2N023D
iiide Range Pressure Indication fromPX-24201B
Mide Range Level Indicators from LT-24201B
Pressure Switch
Pressure Switch
H-2142 Sh. 1
H-2142 Sh. 1
M-2142 Sh. 2
N-2142 Sh. 2
3 0-26H
0-26H
2-5A-N
2-5A-N
tm/h2021:dek
SE =B=MA%1'6 Re
Page ~o
III. REACTOR HEAT REMOVAL PROCESS UNIT 2
A. Automatic Depressurization System
B. RHR Suppression Pool Cooling 8 Shutdown Cooling
C. Safety Relief Valves
tm/h203i:dek
III. REA< ~R HEAT REHOVAL PROCESS
A. Automatic De ressurization S stem (ADS)
Re uired Com onents Unit 2)
Page 1 of 3
C onent
Division ISV-24113G1
SV-24113J1
SV-24113K1
SV-24113L1
SV-24113Hl
SV-24113N1
PS-E21-2N009A
PS-E21-2NOOSA
SV-22654A
2T-213
Division IISV-24113G2
SV-24113J2
SV-24113K2
SV-24113L2
SV-24113H2
SV-24113N2
PS-E21-2N009B
PS-E21-2NOOBB
Descri tion
Solenoid Valve for PSV-2F013G (HSL h)
Solenoid Valve for PSV-2F013J (HSL B)
Solenoid Valve for PSV-2F013K (HSL D)
Solenoid Valve for PSV-2F013L (HSL C)
Solenoid Valve for PSV-2F013H (HSL B)
Solenoid Valve for PSV-2F013N (HSL D)
Pressure Switch Permissive for ADS onCS Pump Disch. Prese.
Pressure Switch Permissive for ADS onCS Pump Disch. Press.
150S Header Inlet To PSV-2F013G,J,M,
Containment Instrument Gas Bottles
Solenoid Valve for PSV-2F013G (HSL h)
Solenoid Valve for PSV-2F013J (HSL B)
Solenoid Valve for PSV-2F013K (HSL D)
Solenoid Valve for PSV-2F013L (MSL C)
Solenoid Valve for PSV-2F013H (MSL B)
Solenoid Valve for PSV-2F013N (HSL D)
Pressure Switch Permissive for ADS onCS Pump Disc. Press.
Pressure Switch Permissive for ADS onCS Pump Disch. Press.
References
H-2141
M-2141
H-2141
M-2141
H-2141
H-2141
H-2152FF-114511 She 0204
H-2152FF-114511 Sh. 0204
M-2126
M-2126
M-2141
M-2141
M-2141
H-2141
M-2141
M-2141
M-2151 Sh. 2FF-114511 Sh. 0204
M-2151 Sh. 2FF-114511 Sh. 0204
a eShutdownPath(s)
RequiringCom onent
1>2 '
1,2,3
1,2,3
1,2,3
1,2>3
1,2,3
1,2,3
1,2,3
1,3
1,3
1,2>3
1,2>3
1,2>3
1,2,3
1>2>3
1>2>3
1,2>3
1>2>3
FireZone
2-4F
2-4F
2-4F
2-4F
2-4F
2-4F
2-1B
2-1B
2-5E
2-5A-W
2-4F
2-'4F
2-4F
2-4F
2-4F
2-4F
2-lh
2-lh
Remarks
Circuits that allow opening ofindividual ADS valves as well ascircuits that can actuate an entiredivision must be protected fromspurious actuation. Solenoids(Gl> Jl> Kl> Ll> Ml>" Nl) as wellas control circuits necessaryfor the operation of thesesolenoid valves must be protectedto actuate on Path l.
This valve is normally open andfails open. For the system tofunction properly, this valvemust not close.
This is a mechanical component.
Circuits that allow opening ofindividual ADS valves as wellas circuits that can actuate anentire division must be protectedfrom spurious actuation. Solenoids(G2, J2, K2, M2, N2) as well ascontrol circui.ts necessary foroperation of these solenoid valvesmust be protected to actuate onPath 3.
III. REAC~ < HEAT REMOVAL PROCESS
A. Automatic De ressurization S stem (ADS)
Re uired C onents (Unit 2)
Page 2 of 3
8~ ~ =- N A>0 1 6 Pgy. 3'age I&f34
Page a .i,-
C nent
SV-22654B
Descri tion
150'eader Inlet to PSV-2F013K,L,N
References
M-2126
Sa eShutdownPath(s)
RequiringCom onent
FireZone
1,3 2-4B
Remarks
This valve is normally open andfails open. For the system tofunction properly, this valvemust not close.
2T-212 Containment Instrument Gas Bottles
ADS-2-I-Control ADS Div. I Auto Autaaatic Logic
ADS-2-II-Control ADS Div. II Auto Automatic Logic
M-2126
Ml-B21-102
Ml-B21-102
1,3
1,2,3
2-5A-N
Various
Various
This is a mechanical component.
See SEA-EE-049 Pseudo Component.Spurious for Paths 2 and 3
See SEA-EE-049 Pseudo Component.Spurious for Paths 1 and 2
LIS-B21-2N042A
LIS-B21-2N042B
PS-Ell-25010A
PS-Ell-2NOIOB
PS-Ell-2N010C
PS-Ell-2N010D
PS-B21-2N022A
PS-B21-2N022B
PS-B21-2N022C
PS-B21-2N022D
PS-B21-2N022E
PS-B21-2N022F
PS-B21-2N022G
PS-B21-2N022H
PS"B21-2N022J
PS-B21-2N022K
PS-B21-2N022L
Reactor Vessel Level 3 Indicating Switch
Reactor Vessel Level 3 Indicating Switch
Hi Primary Contairment Pressure Switch
Hi Primary Containment Pressure Switch
Hi Primary Containment Pressure Switch
Hi Primary Containment Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
M-2142
M-2142
M-2151 Sh. 1
M-2151 Sh. 1
M-2151 Sh. 1
M-2151 Sh. 1
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M"2142
M-2142
1,2,3
1,2,3
1,2~3
1,2,3
1,2~3
1,2,3
1,2~3
1,2,3
1,2~3
1~2,3
1,2~3
1,2,3
1,2,3
1,2~3
1,2,3
1,2~3
1,2~3
2-5A-N
2-5A-N
2-6D
2-6A
2-6D
2-6A
2-5A-N
2-5A-N
2-5A-N
2-SA-N
2-5A-N
2-5A-N
2-SA-N
2-SA-N
2-5A-N
2-5A-N
2-5A-N
PS-E11-2N016A,B,C,D andPS-E11-2N020A,B,C,D areinterlock components.
III. REA~ .< HEAT REMOVAL PROCESS
h. Automatic De ressurization S stem (ADS)
Re uired Com onents (Unit 2)
Page ~ of 3
Sf -I-. N A'4'1'6 Rov. 3'" '7"Page ~a3
Com nent
PS-B21-2N022M
PS-Ell-2N016h) B)C,D
PS"Ell-2N020h)B)C)D
PS-B21-2N022N
PS-B21-2N022P
PS-B21-2N022R
PS-B21-2N022S
tm/h202indek
Descri tion
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure S~itch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
References
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
a eShutdownPath(s)
RequiringCan onent
1)2)3
1,2,3
1,2)3
1)2)3
1,2,3
1)2,3
1,2,3
FireZone
2-5A-N
A 2:1G B 2-3B-NC 2-21G D 2-3B-N
h 2-1G B 2-3B-NC 2-21G D 2-3B-N
2-5A-N
2-5A-N
2-5A-N
2-5A-N
Remarks
III. REACIOR HEAT REHOVhL PROCESS
B. RHR SYSTEM
Re uired onents (Unit 2)
Page 1 of 5
~E'B- MA@ 1'6 PeV. 3'ge~~'age~
nent
Division IDescri tion References
Sa eShutdownPath(s)
RequiringCom onent
FireZone Remarks
HV-Ell-2F009
HV-Ell-2F006A
HV-Ell-2P004h
2P202h
HV-Ell-2F007A
HV-Ell-2F048A
SV-2515lh
SV"25152A
Shutdown Cooling Inboard Isolation Valve
Pump 2A Shutdown Cooling Suction Valve
Pump 2A Suppression Pool Suction Valve
RHR Pump 2h
Loop h Minimum Flow Bypass Valve
Heat Exchanger Bypass Valve
Solenoid ValveActuates PV-Ell-2F05IA
Solenoid ValveActuates PV-Ell-2F-52h
HV-E11-2F003h
HV"E11-2P047h
HV-E11-2P028h
HV-Ell-2P024h
HV-Ell-2P026h
Heat Exchanger Outlet Valve
Heat Exchanger Inlet Valve
Suppression Pool Cooling Spray Valve
Test Line Control Valve
Condensate Return (Steam CondensingMode)
HV-Ell-2F016h Drywell Spray Outboard IsolationValve
M-2151 Sh. 2
M-2151'Sh. 1
H-2151 Sh. 1
M-2151 Sh. 1
H-2151 Sh. 1
M-2151 Sh. 1
M-2151 Sh. 1
H-2151 Sh. 1
H-2151 Sh. 1
M-2151 Sh. 1
H-2151 Sh. 1
M-2151 Sh. 1
M-2151 Sh. 1
M-2151 Sh. 1
1,2
1,2
1,2
1,2
1,2
1,2,3
1 ~ 2)3
1,2
1)2
l)21,2
1,2
1,2
2-4F
2-1F
2-IF
2-1F
2-IF
2-3C-S
2-1F
2-1F
2-5E
2-1P
2-3C-S
2-3C-S
2-1F
On Path 1 this valve serves asa flow diversion barrier endmust remain closed unless it isdemonstrated that valveHV-Ell-1F008 is closed. OnPath 2, this valve must bcoperable to support thefunctioning of RHR in theshutdown cooling mode.
Solenoid Valves SV"1515lh andSV-15152A are controlled from acommon hand-switch.They actuate PV-Ell-1F051h andPV-Ell-1F052h allowing steamflow to the RHR Heat Exchengere.Either SV must stay de-energized to keep the accce-panying PV closed. The PV'eare in series and ere normallyclosed. NCR-1373 to dispositionthe need for these valves. hDCP is planned to gsg thc PVs.
HV-E11-2P017h
HV-E11-2F015h
TE-Ell-2N027A
TT-25127h
TI"25127h
In)ection Outboard Isolation Valve
In]ection Inboard Isolation Valve
Instrumentation
Heat Exchanger h Outlet Temp. to
Temperature Transmitter
Heat Exchanger Outlet Temp. Indicationfrom TE-Ell-2N027h
M-2151 Sh. 1
H-2151 Sh. 1
H-2151 Sh. 1
M-2151 Sh. 1
H-2151 Sh. 1
1,2
2-3C-S
2-3C-M
2-3C-'N
0-27A
0-26H
I II. REACxuR HEAT REHOVAL PROCESS
B. RHR SYSTEM
Re uired C onents Unit 2)
Page 2 of 5
SF'B- M A'=6 1'6 ReV. 3 I'age
Page~~
onent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
PS-Ell-2N021A Hinimum Plow Switch
PS-B31-2NOMA - SDC Rx Low Presa. Permissive
FF-124510 Sh. 2904M-2151 Sh. 1
FF-124510 Sh. 2904H-2143
1 2"3h
2-3B-N
PT-Ell-2N015A
ES-Ell-2K603A
PI-Ell-2R603h
FY-Ell-2K60QA
Division IIHV.-E11-2F004B
HV-Ell-2F008
RHR Loop h Flow Transmitter to FI-2R603h
Power Supply
RHR Loop h Flow Indicator from FT-2N015A
Plow Transducer
Pump 2B Suppression Pool Suction Valve
Pump Suction Valve from Reactor Vessel
H-2151 Sh. 1
M-2151 Sh. 1
H-2151 Sh. 1
H-2151 Sh. 1
M-2151 Sh. 2
M-2151 Sh. 2
1,2
1,2
1,2
213
2-3h
0-27A
0-26H
0-27A
2-1E
2-3C-W
Common with RHR service watersystem.
Spurious for Path 2
Spurious for Path 2
On Path 3 this valve serves asa flow diversion barrier andmust remain closed when it isdemonstrated that valveHV-Ell-IN009 is closed. OnPath 2 this valve mustremain operable to supportthe functioning of RHR in theshutdown cooling mode. SV-15151B and SV-15152B are con-trolled from a common hand-switch. Simultaneous openingof both of these valves wouldallow steam flow to the RHRHeat Exchangers. The SVsactuate PV-1F051B and PV-lP052B.Either SV must stay de-energisedto keep the accompanying PVclosed. The PV's are in seriesand are normally closed.
HV"Ell-2F006B
2P202B
HV-Ell-2F007B
Pump 2B Shutdown Cooling Suction Valve
RHR Pump 2B
Loop B Hinimum Flow Valve
HV-Ell-2F04?8 Heat Exchanger Inlet Valve
H-2151 Sh. 2
M-2151 Sh. 2
M-2151 Sh. 2
H-2151 Sh. 2
2-lE
2-1E
2 lE
III. REACTOR HEAT RBSVAL PROCESS
B. RHR SYSTEM
Re uired C onents (Unit 2)SE -B- N A~9 1 6 Rev. 3
Page 3 of 5
Page~
C nant
HV-Ell"2F048B
HV-Ell-2F003B
HV-Ell-2F017B
HV"Ell-2F015B
SV-25151B
SV-251528
Descri tion
Heat Exchanger Bypass Valve
Heat Exchanger Outlet Valve
In)ection Outboard Isolation Valve
In]ection Inboard Isolation Valve
Solenoid Valve Actuates PV-Ell-2F051B
Solenoid Valve Actuates PV-Ell-2F052B
References
M-2151 Sh 2
H-2151 Sh. 2
M-2151 Sh. 2
H 2151 Sh. 2
H-2151 Sh. 2
H-2151 Sh. 2
a eShutdownPath(s)
RequiringCom onent
1,2,3
1,2,3
FireZone
2-3C-W
2-1E
2-3C-N
2-3C-W
2-lE
2-lE
Remarks
Solenoid Valves SV-25251B andSV-25152B are controlled froma common switch. Simultaneousopening of these valves willallow steam flow to the RHRHeat Exchanger. Either SVmust stay de-energixed andPV closed. NCR-1373 todisposition the need for thesevalves. h DCP ia planned togsg the PVs.
HV-Ell-2F026B
HV-Ell-2F016B
HV-Ell 2F028B
HV-Ell-2F024B
Instrumentation
TE-Ell-2N027B
TI 25127B
TT-25127B
FS-Ell 2N021B
Condensate Return (Steam Condensing Mode)
Drywell Spray Outboard Isolation Valve
Suppression Pool Cooling Block Valve
Test Line Control Valve
Heat Exchanger Outlet Temp. Element toTI-25127B
Heat Exchanger Outlet Temp. Indicationfrom Te-2N027B
Temperature Transmitter
Minimum Flow Switch
M-2151 Sh. 2
H-2151 Sh. 2
M-2151 Sh. 2
M-2151 She 2
M-2151 Sh. 2
M-2151 Sh. 2
FF-114510 Sh. 98204M-2151 Sh. 1
FF-124510 Sh. 7M-2151 Sh. 2
3 2-1E
3 2-5B
3 2-3C-N
3 2-3C-N
2-3C-W
0-26H
0-240
2-3B-N
PS-B31-2N018B SDC Low Press Permissive Switch (F008) FF-114510 Sh. 10110FF-124510 Sh. 7
M-2143
2-3B-N
FX-Ell-2N015B RHR Loop B Flow Transmitter to FI-Ell-2R603B M-2151 Sh. 2 2-3B-H
III. REACLuR HEAT RBSVAL PROCESS
B. RHR SYSTEH
Re uired C nents (Unit 2)
Page 4 of 5
SE -B- N A=0 1 6 R«. 3Page
nt Deacri tion References
a eShutdownPath(s)
RequiringCom anent
FireZone Remarks
PI-Ell-2R603B
PY-Ell-2K600B
ES-Ell-2K603B
HV-Ell-2F006D
RHR Loop B Plow Indicator from FT-2N015B
Flow Transducer
Power Supply
Pump Suction Valve Frco Reactor Vessel
H-2l51 Sh. 2
M-2151 Sh. 2
H-2151 Sh. 2
M-2151HSS-251llh, Sh. 4
3 0-26H
3 0-24G
203 0-240
2 2-lE
Path 2 is for Spurious
HV-Ell-2F006C Pump Suction Valve Froa Reactor Vessel H-2151HSS-25113B, Sh. 364
2-1F
FI-25105
PY-25105
RHR System Flow Indicator
Plow Transducer
H-2151HSS-25110h~ Sh. 1
H-2151HSS-25110h, Sh. 1
2-2h
2-2h
III. REACTOR HEAT REHOVAL PROCESS
B. RHR SYSXEH .
R uired Can onents (Unit 2}
Page 5 of 5
SE -B- NA~'016 Rey. 3'age >>of 34
Page'
onent Descri tion References
a eShutdownPath(s}
RequiringCom onent
FireZone Remarks
ES-2120lh Power Supply H-2151HSS-25110A, Sh. 1
2 2-2A
RHR-2-I-Control RHR Div. I Auto Actuation Logic
RHR-2-II-Control RHR Div. II Auto Actuation Logic
PS Ell 2N016hiB~CiD
PS El1 2N020hiBiC~D
Hl-Ell-66
Hl-Ell-66
1,2,3
1%2>3
1,2,3
Various
Yariaus
See SEA-EE-049 Pseudo Component
See SEA-EE-049 Pseudo Component
PS Ell 2N016hsBiCsD andPS-E11-2N020A,B,C,D, areinterlock components.
tmIh300i > mg
III. a . TOR HEAT REHOVAL PROCESS
C. SAPE1Y RELIEF VALVES
Re uired C onents (Unit 2)
Page 1 of 2
SE -B- N A=016 Bey. 3 'Page'23 of 34
Page
C onent
SV-24113B
SV-241UD
SV-24113F
SV-24113H
SV-24113K3
SV-24113L3
SV-24113N3
SV-24113R
SV-24113A
SV-24113C
SV-24113E
SV-24113G3
SV-24113J3
SV-24113M3
SV-24113P
SV-24113S
PS-B21-2N022A
PS-B21-2N022B
PS-B21-2N022C
PS-$ 21-2N022D
PS-B21-2N022E
PS-B21-2N022P
PS-B21-2N022C
PS-B21-2H0228
Descri tion
Solenoid Valve Actuates PSV-2F013B
Solenoid Valve Actuates PSV-2F0139
Solenoid Valve Actuates PSV-2F013P
Solenoid Valve Actuates PSV-2F013H
Solenoid Valve Actuates PSV-2F013K
Solenoid Valve Actuates PSV-2F013L
Solenoid Valve Actuates PSV-2F013H
Solenoid Valve Actuates PSV-2F013R
Solenoid Valve Actuates PSV-2F013A
Solenoid Valve Actuates PSV-2F013C
Solenoid Valve Actuates PSV02F013E
Solenoid Valve Actuates PSV-2F013C
Solenoid Valve Actuates PSV-2F013J
Solenoid Valve Actuates PSV-2F013M
Solenoid Valve Actuates PSV-2F013P
Solenoid Valve
Reactor Vessel
Actuates PSV-2F013S
High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
References
M-2141
M-2141
M"2141
H-2141
M-2141
M-2141
M-2141
M-2141
M-2141
H-2141
H-2141
M-2141
H-2141
M-2141
M-2141
H-2141
M-2142
M-2142
M-2142
M-2142
H-2142
M-2142
M-2142
M-2142
SafeShutdownPath(s)
RequiringCom onent
1,2,3
1,2,3
1,2,3
1>2)3
1,2,3
1,2,3
l>2,3
1,2,3
1,2,3
1,2,3
1,2)3
»2)3
1)2)3
»2,31,2,3
1,2,3
1,2,3
»2)3
1,2,3
1)2,3
»2,3
1,2)3
1,2,3
»2,3
FireZone
2-4F
2-4F
2 "4F
2-4F
2-4F
2-4F
2-4F
2-4P
2-4F
2-4F
2-4F
2-4P
2-4F
2-4F
2-5A-N
2-Sh-H
2-Sh-H
2-5h-N
2-5h-N
2-5h-N
2-5h-N
2-5h-H
Remarks
These solenoid valves must beprevented from causing aspurious actuation of theirrespective PSV.
SV-24113 A,B,C must beoperable with switches onRSP for Path 2.
These pressure switches mustbe prevented from causing aspurious actuation of a PSV.
III REACXOR HEAT REMOVAL PROCESS
Co SAFETY RELIEF VALVES
R uired C nants Unit 2
Page 2 of 2
SE '-B- MA=016 ReV. 3'~'g'<oPage
C nent
PS-B21-2H022J
PS-B21"2H022X
PS-B21-2N022L
PS-B21-2N022M
PS-B21-2N022H
PS-B21-2H022P
PS-B21-2N022R
PS-B21-2N022S
Descri tion
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Switch
Reactor Vessel High Pressure Swi'tch
Reactor Vessel High Pressure Switch
References
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
M-2142
a eShutdownPath(s)
RequiringCom onent
l)2)3
1,2,3
1,2)3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
FireZone
2-5h-N
- 2-Sh"H
2-5A-N
2-Sh-H
2-5h-H
2-5A-H
2-5A-N
2-5h-N
Remarks
tm/h3011:mg
SE -B- NA'=~I'6 ~i
Page~~
IV. MONITORING (UNIT 2)
tm/h100$ : nas
IV. MONI'LURING
Re uired onents (Unit 2
C onent Descri tion References
SafeShutdoMnPath(s)
RequiringC onent
FireZone Remarks
Page 1 of 3
SE'8-NA™51'6 ReV. X Page QPof 34
Pa e
Division ITE-25753
TE-25755
TE-25757
TE-25759
TE-25763
TE-25765
TE-25767
TE-25769
LT-25776A
LR-25776A
TX-25751
TIAH-25751
Division IITE-25752
TE-25754
TE-25758
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Temperature Elementto TX-25751
Suppression Pool Level Transmitter(Mide Range) to LR-25776A
Level Recorder from LT-25775A
Temperature Transducer
Temperature Indicator
Suppression Pool Temperature Elementto TX-25752
Suppression Pool Temperature Elementto TX-25752
Suppression Pool Temperature Elementto TX-25752
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 She 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
M-2157 Sh. 3
1>2
1>2
1,2
1>2
1>2
1,2
1,2
1,2
1,2
1,2
1>2
1>2
2>3
2>3
2>3
2-1H
2-1H
2-1H
2-1H
2-1H
2-1H
2-1H
2-1H
2-IB
0-26H
0-26H
0-26H
2-1H
2-1H
2-1H
Path 2 is spurious only.
Path 2 is spurious only.
Path 2 is spurious only.
IV. MON~ ~$(IHG
Re uired Cog nente (Unit 2)
Page 2 of 3
onent Deecri tion References
SafeShutdownPath(e)
RequiringCom onent
FireZone Remarks
TE-25760 Suppression Pool Temperature Elementto TX-25752
H-2I57 Sh. 3 2$ 3 2-1H
TR-25762
TE-25166
TR-25768
TR-25770
LT-25776B
LR"25776B
TX-25752
TTJN-25752
LI-25776A2
PI-25728A
PT-25728h
Suppression Pool Temperature Elementto TX-25752
Suppression Pool Temperature Elementto TX-25152
Suppression Pool Temperature Elementto TX-25752
Suppression Pool Temperature Elementto TX-25752
Suppression Pool Level Transmitter('Mide Range) to LR-25176B
Level Recorder from LT-25775B
Temperature Transducer
Temperature Indicator
Suppression Pool Level Indicator
Drywell Pressure Indicator
Pressure Transmitter
H-2157 Sh 3
M-2151 Sh. 3
M-2157 Sh. 3
H-2157 Sh. 3
H-215? Sh$ 3
H-2157 Sh. 3
H-2157 Sh. 3
M-2157 Sh. 3
M-2157HSS-25110A, Sh. 2
H-2157HSS-25110A$ Sh, 2
H-2157HSS-25110h, Sh. 2
2$ 3
2 '
2$ 3
2 $ 3
2 $ 3
2 $ 3
2$ 3
2 $ 3
2-1H
2-1H
2-1H
2-1H
2-1A
0-26H
0-26H
0-26H
2-2A
2-2h
2-4h-M
Path 2 is spurious only.
Path 2 is spurious only.
Path 2 is spurious only.
TI-25790A2
TT-25790A2
TE"25790B
Drywell Temperature Indicator
Temperature Transmitter for TI-25790A2
Temperature Element
H-2157HSS-25110h $
H-2157HSS-25110h,
H-2157
Sh. 2
Sh. 2
2-2h
2-2h
2-4F Temperature element is isolatedfrom Control Room when transferswitch is in Emergency Position.
IV. MONi ~RING
Re uired nants Vnit 2)
Page 3 of 3
SE 8 NA 5I8 RIV. P P ge37of 34
Pa e
onent
TE-25751
2E-25756
IE-25761
TE-25764
TI-25751
Tl-25752
TI-25725A
TT-25725A
TE-25725
Descri tion
Temperature Element
Temperature Element
Temperature Element
Temperature Element
Suppression Pool Temperature Indicator
Suppression Pool Temperature Indicator
Suppression Chamber Temperature Indicator
Temperature Transmitter for TI-25725A
Temperature Element
References
M-2157
M-2157
M-2157
M-2157
M"2157HSS-24901A, Sh. 2
M-2157HSS-25118A~ Sh. 1
M-2157HSS-25110A, Sh. 3
M-2157HSS-25110A, Sh. 3
M-2157HSS-25110A, Sh. 3
SafeShutdownPath(s)
RequiringCom onent
1,2,3
1,2,3
1,2,3
1,2,3
FireZone
2-1H
2-1H
2-1H
2-1H
2-2A
2-2A
2-2A
2-2A
2-IH
Remarks
Assure that the failure of thesetemperature elements cannot causea failure of all suppressionpool indication.
Indication can be lost due to aC.R. Fire. However, temp.indicators are redundant and RHRsuction temp. could be obtained.See Deviation Request 02.One Division or the other mustbe provided to TI"25751 orTI-25752.
LI-24262
PI-24262
Reactor Vessel Level Indicator on RSP
RPV Pressure Indicator on RSP
PT-24262
XIT-25701A
Pressure Transmitter for PI-24262
SPDS Mux
LITS-B21-2N026B Level Transmitter for LI-24262
M-2142
M-2l42
M-2142
M-2142
M-2157
2-2A
2-2A
2-SA-N
2-5A-N
0-27A Spurious Only.
tm/h302i:mg
V. ASSOCIATEO SUPPORT FUNCTIONS
A. Warn> (Unit 2)
B. Reactor Building HVAC (Unit 2)
0,
V, ASSOClaCED SUPPORT FUNCTIONS
h. RHR SERVICE WATER SYSTEM
Re uired C ents Unit 2)
Page 1 of 2
K -B-.NAQfra s.v, s" ""~)") ~ j'~ sa ~ -
Page
onent
Division IDescri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
2P-506A
HV-21210A
HV-21215A
HV-01224Al
HV-01224A2
HV&1222A
RHRSW Pump 2A
RHR Ht. Ex. 2A SM Inlet Valve
RHR Ht. Ex. 2A SW Outlet Valve
Refer to RHRSW System Unit 1 for thiscomponent
Refer to RHRSW System Unit 1 for thiscaaponent
Refer to RHRSM Systea Unit 1 for thiscomponent
M-2112
H-2112
H-2112
H-2112
H-2112
H-2112
172 0-51
1,2 2-1F
1)2 2-1F
1,2 Outside Areas Common for Units 1 & 2
1 Outside Areas Coamon for Units 1 & 2
1,2 Outside Areas ~ Common for Units 1 & 2
FT-Ell-2N007h
ES-Ell-2K-603A
Fl-Ell-2R602A
Division II. 2P-506B
Instrumentation
RHR Ht. Ex. 2A SW Flow Transmitterto FI-Ell-2R602A
Power Supply
RHR Ht. Ex. 2A SW Flow Indicatorfrom FT-Ell-2N007h
RHRSW Pump 2B
H-2112
H-2151
H-2112
H-2112
1)2 2-IG
0-27A
0-26H
0-52
Common with RHR System
Pump 2B may supply eitherUnits 1 or 2
HV-21210B
HV-21215 B
HV-01224Bl
RHR Ht. Ex. 2B SW Inlet Valve
RHR Ht. Ex. 2B SW Outlet Valve,
Refer to RHRSW System Unit 1 forthis Component
H-2112
M-2112
H-2112
3 2-1E
3 2-1E
3 Outside Areas Common for Units 1 & 2
HV&1224B2
HV-01222B
Refer to RHRSM System Unit 1 forthis Cceponent
Refer to RHRSM System Unit 1 forthis Component
M-2112
M-2112
3 Outside Areas Common for Unite 1 & 2
3 Outside Areas Common for Units 1 & 2
V. ASS&.a@TED SUPPORT FUNCTIONS
A. RHR SERVICE MASER SYSTEH
Re ired C onents (Unit 2)
Page 2 of 2
D g 'p'P ~ig ~ iq Page 'R'V of 34
Page~<
nant
FT-Ell-2N007B
ES-Ell-2K603B
Descri tion
Instrumentation
RHR Ht. Ext. 2B Sl Flow Transmitterto FI-Ell-2R602B and FI-21207A
Power Supply
References
H"2112
H-2151.
a eShutdownPath(s)
RequiringCom anent
2 j3
2 $ 3
FireZone
2-3B-N
0-27E
Remarks
Common with RHR SystemPath 2 is for spurious only.
FI-Ell-2R602B RHR Ht. Ex. 28 SM Flow Indicatorfrom FT-Ell-2N007B
H-2112 213 0-26H Path 2 is for spurious only.
FI-21207A
ES-21207A
Flow Indicator
Power Supply
H-2112
H-2112
2-2A
2-2A
tm/h 305 i:mg
Ccm nent
Division IDescri tion
V. ASSOCIATED SUPPORT FUNCTIONS
Bg*
REACTOR BUILDING HVAC SYSIEM
R uired C onents (Unit 2)
References
a eShutdownPath(s)
RequiringCom onent
Page 1 of 2
FireZone Remarks
SE -B- N A."--.5'fb Bev. 3'g g w.g gg
Page~<
2V208A
2V208B
2V222A
HD-27630h
2V210A
2V2llh
2V211C
TSH-27661A
RCIC Pump Room (11-12) Unit Cooler A
RCIC Pump Room (11-12) Unit Cooler B
Emergency Swgr. and Load Center RoomCooling Unit A
Motor~crated Damper on Discharge of2V222A
RHR Pump Room (11-14) Unit Cooler A
Core Spray Pump Roaa (11-17 Unit Cooler h
Core Spray Pump Room (11-17) Unit Cooler C
Temperature Switch for 2V208h
M-2176
M-2176
M-2176
V-2176M-2176
M-2176
M-2176
M-2176
VC-2176
1,2
1,2
1,2
2-1D
2-1D
2-4A-S
2-4A-S
2-1F
2-1B
Division I only.
Division I only.
TSH-27661B
TSH-27631A
FSL-27630h
Division II
Temperature Switch for 2V208B
Discharge hir Temperature Switchfor 2V222A
Common Duct hir Flow Switch for 2V222Afor 1V222A
VC-2176
VC-2176
VC"2176
1,2
1,2
2-1D
2-4A-8
2-4A-S
2V222B
HD-27630B
2V210B
2V211B
2V211D
TSH-27631B
FSL-27630B
Emergency Swgr. and Load Center RoomCooler Unit B
Motor-operated Damper on Discharge of2V222B
Upper RHR Pump Room (11-103)Unit Cooler B
Core Spray Pump Room (11-10) Unit Cooler B
Core Spray Pump Room (11-10) Unit Cooler D
Discharge Air Temperature Switch for 2V222B
Cocmmon Duct hir Flow Switch for 2V222B
M-2176
VC-2176M-2176
M-2176
M-2176
M-2176
VC-2176
VC-2176
3 2-4A-S
2-4A-S
2"1E
2-lh
2-lh
2-4A-S
2-4A-S
V. ASSQ ~ SUPPOKE FUNCXIONS
B. REACXOR BUILDING HVAC SYSTEM
Re uired C nents (Unit 2)
Page 2 of 2
C nent
FPD-3-33-4-1
FPD-3-33-4-2
FPD-3-33-4"3
FPD-3-33-4-4
FPD-3-33-5-1
FPD-3-33-5-2
FPD-3-33-5-3
FPD-3-33-5-4
FPD-3-34-4-1
FPD-3-34-4-2
FPD-3-34-4-3
FPD-3-34-4-4
FPD-3-34-5B-1
FPD-3-34-5B-2
FPD-3-34-5B-3
FPD-3-34-5B-4
Descri tion
Fire Protection Damper (FPD)-EmergencySwitchgear Roce Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Roaa Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgesr Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
FPD-Emergency Switchgear Room Cooling
References
V-33-4
V-33-4
V-33-4
V-33-4
V-33-5
V-33-5
V-33-5
V-33-5
V-33-4
V-34-4
V-34-4
V-34-4
V-34-5B
V-34-5B
V-34"58
V-34-5B
a eShutdownPath(s)
RequiringCom onent
FireZone
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
Remarks
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Hechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
Mechanical Components
tm/h3071:mg
VI. ELECTRICAL SYSTEM
A. UNIT 2
tm/h100i: nas
VI. ELt RICAL SYSTEH
h. R uired Cog nents (Unit 2)
HQTE: All Electrical System Componentsto be determined by Electrical-HPE.This is provided for information only.
Page 1 of 3
SE -B- N A.-5 I 6 Rgy, 3 Page '3Q,of '34
Ps g~fgl 195
C onent
Division IDescri tion References
SafeShutdownPath(s)
RequiringC onent
FireZone Remarks
2A201
2A203
2B210
28230
28216
2B217
2B219
28236
2B237
2X210
2X230
2Y20lh
2Y216
2Y236
2D612
2D632
2D614
2D611
2D631
2D613
2D633
2D610
4.16KV Safeguard Svitchgear
4.16KV Safeguard Suitchgear.
480 V AC Load Center
480 V AC Load Center
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC L.C. Transformer
480 V AC L.C. Transformer
120 V AC Distribution Panel
120 V AC Distribution Panel
12Q V AC Distribution Panel
125 V DC Load Center
125 V DC Load Center
125 V DC Distribution Panel
125 V DC Distribution Panel
125 V DC Fuse Box
125 V DC Fuse Box
125 V DC Battery Charger
125 V DC Battery Charger
125 V DC Battery Bank
E103/13/15
E103/19/16
E64/21/18
E64/22/10
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E157/4/12
E24/2/14
E25/2/14
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
1 . 2-5G
1 2-4D
1 2-5G
1 2-4D
1 2-3h
1 2-5G
1 2-2h
1 2-4D
1 2"2A
2-5G
2-4D
2-5h-8
2-3h
=2-4A-S
Q-28A-II
0-28A-II
0-28A-II
0"28A-II
0-28C
0-28T
0-28A-II
0-28A-II
0-28C
VI. ELEC~a.ICAL SYSIEH
h. Re uired Can nents (Unit 2)
NOTE: All Electrical System Componentsto be determined by Electrical-NPE.This is provided for information only.
Page 2 of 3
pg -p- g /gal g g pgy 3 Ps8e $3ofpygmy
'b
C nent Descri tion References
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
2D630
Division II2A202-
2B220
2B240
2B226
2B227
28229
28246
2B247
2X220
2X240
2Y201B
2Y226
2Y246
2D662
2D264
2D274
2D661
2D663
2D660
2D622
2D642
125 V DC Battery Bank
4.16KV Safeguard Switchgear
4.16KV Safeguard Switchgear
480 V AC Load Center
480 V AC Load Center
480 V AC HCC
480 V AC HCC
480 V AC ICC
480 V AC HCC
480 V AC HCC
480 V AC L.C. Transformer
480 V AC L.C. Transformer
120 V AC Distribution Panel
120 V AC Distribution Panel
120 V AC Distribution Panel
250 V DC Load Center
250 V DC Control Center
250 V DC Control Center
250 V DC Fuse Box
250 V DC Battery Charger
250 V DC Battery
125 V DC Load Center
125 V DC Load Center
E26/1/21
E103/16/16
E103/22/15
E64/21/18
E64/22/10
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E157/4/12
E25/2/14
E25/2/14
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
1 0-28T
3 '-5F3 2-4C
3 2-5F
3 2-4C
3 2-3B-N
3 2-5F
3 2-4A-N
3 2-4C
3 2-2B
3 2-5F
3 2-4C
3 2-5h-N
3 2-3B-N
3 2-4A-N
3 0-28A-I
2 2-3B-N
3 2-3B-N
3 0-280
3 0-28A"I
3 0-28G
3 0-28A-I
3 . 0-28A-I
1~
VI. ELL ICAL SYSIEH
A. Re uired Can onents (Unit 2)
NOTE: All Electrical System componentsto be determined by Electrical-NPE.This is provided for information only.
Page 3 of 3
$ E -B- M A'=0 1' ReV. 3'Page 3<of 34
ae
Caa nent Descri tion References
SafeShutdownPath(s)
RequiringCcm anent
PireZone Remarks
2D624
2D621
2D641
2D623
29643
2D620
2D640
125 V DC Distribution Panel
125 V DC Distribution Panel
125 V DC Puse Box
125 V DC Fuse Box'25
V DC Battery Charger
125 V DC Battery Charger
125 V DC Battery Bank
125 V DC Battery Bank
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
E26/1/21
3 0-28A-II
3 0-28A-II
3 0-28E
0-28D
0-28A-I
0-28A-I
0-28E
0-28D
bs/h313i: mg
APPENDIX R - SAFE SHUTDOMN
COMPONENT LIST
APPENDIX C
COMMON
RE UIRED COMPONENTS
tm/h100i: nas
>E -~" N'A=016 Rev.,:
Page~os
I. ASSOCIATED SUPPORT FUNCTIONS
A. ESW (Common)
B. Control Structure HVAC
C. ESSW Pumphouse HVAC
D. Diesel Generator HVAC and Auxiliary Systems
tm/h100i: nas
I. ASS, ~K) SUPPORT FUNCI'IONS
h, EMERGENCY SERVICE WATER SYSIEH
R uired Cas onents (Cccsson
SE -B- MAm01 6 Pgy. 3 Page 1 of 2
Page l of 13
Page~>o
C onent
Division IDescri tion References
SafeShutdownPath(s)
RequiringCom onent
FireZone Remarks
OP-504h
OP-504C
FT&1109h
ESW Pump h
ESW Puurp C-
Pump Discharge Flow Transmitterto FY-01109hl
M-illSh. 1
H-ill Sh. 1
H-ill'Sh. 1
172 0-51
1,2 0-51
1,2 Outside Areas
FY-01109hl
FI-01109h
FSL-01109hl
HV&lll2A
HV-01122A
HV-01112C
HV-01122C
Division II
Pump Discharge Flow Sq. Rt. Converterto FI-01109A
Pump Discharge Flow Indicatorfrom FY-01109Al & FT-01109A
Flow Switch for Auto Valve Transfer
ESW Loop h Supply Valve to EDG h
ESW Loop h Return Valve From EDC h
ESW Loop h Supply Valve to EDG C
ESW Loop h Return Valve from EDG C
H-ill Sh. 1
M-illSh. 1
H-ill Sh. 1
H-ill Sh. 1
H-111 Sh. 1
H-illSh. 1
H-ill Sh. 1
1,2
- 1,2
1 ~ 2
0-27E
0-26H
0-27E
0-4lh
0-41A
0-41C
0-41C
Path 2 for spurious only.
OP-504B
OP-504D
FT-01109 B
ESW Pump B
ESW Pump D
Pump Discharge Flow Transmitter toFY-01109Bl
M-ill Sh. 1
M-111 Sh. 1
M-illSh. 1
2 j3 0-52
2/3 0 "52
2,3 Outside Areas
FY-01109Bl
FI-01109B
HV-01110C
HV-01120C
HV-01110B
HV-Oll20B
Pump Discharge Flow Sq. Rt. Converterto FI-01109B
Pump Discharge Flow Indicator fromFY-01109Bl & FT-01109B
ESW Loop B Supply Valve to EDG C
ESW Loop B Return Valve from EDG C
ESW Loop B Supply Valve to EDG B
ESW Loop B Return Valve from EDC B
M-illSh. 1
M-111 Sh 1
M-illSh. 1
H-111 Sh. 1
H-111 Sh. 1
H-ill Sh. 1
2f3
2 p3
2/3
2 j3
0-24D
0-26H
0-41C
0-41C
0-41B
0-41B
Powered from Division IPowered from Division I
I. ASSOCIATED SUPPORT FUNCTIONS
h. EMERGENCY SERVICE WATER SYSTEM
R uired C onents Coamon)
Q g 6 Bey 3 Pag 2 of 2
Page Q, of 13
Page~o9s
C nent
HV-01110D
HV-01120D
ESW-XFER-I
ESW-XFER-II
HV-01110h
HV-01112B
HV-01112D
HV-01120h
HV-OII22B
HV-01122D
Descri tion
ESW Loop B Supply Valve to EDG D
ESW Loop B Return Valve from EDG D
ESWS Loop h Transfer Logic
ESWS Loop B Transfer Logic
Diesel Generator h CoolantLoop B Inlet Valve
Diesel Generator B CoolantLoop h Inlet Valve
Diesel Generator D CoolantLoop A Inlet Valve
Diesel Generator h CoolantLoop B Outlet Valve
Diesel Generator B CoolantLoop A Outlet Valve
Diesel Generator D CoolantLoop h Outlet Valve
References
M-illSh. 1
M-111 Sh. 1
E-146
E-146
H-ill, Sh. 1
H-ill> Sh. 1
H-ill, Sh. 1
H-ill, Sh. 1
H-ill, Sh. 1
M-ill, Sh. 1
a eShutdownPath(s)
RequiringCom onent
2>3
2>3
1,2
1>2
213
2>3
1,2
2>3
213
FireZone
0-41D
0-41D
Various
Various
0-4lh
0-41B
0-41D
0-4lh
0-41B
0-41D
Remarks
See SEA-EE-049Pseudo Component
See SEA-EE-049Pee'udo Component
tm/h303i:mg
C nent
Division IDescri tion
I. ASSOt ~uED SUPPORT FUNCTIONS
B. COHTROL STRUCXURE HVAC SYSTEM
Re uired C onents Cog>non)
References
Sa eShutdownPath(s)
RequiringCaa onent
FireZone Remarks
Page 1 of 3
SE -B- NAWTB peg g'~ >e s o "Page~i
OV116A
HD-07871hl
HD-078 71A2
FSL-0787lh
Division IIOV116B
HD-07871B1
HD-0787182
PSL-07871B
FSL-0780lh
FSL&7801B
Battery Room Exhaust Fan h
Battery Room Exhaust System h M.O. Damper
Battery Room Exhaust System A H.O. Damper
Flow Switch
Battery Room Exhaust Fan B
Battery Room Exhaust System B H.O. Damper
Battery Room Exhaust System B H.O. Damper
Plow Switch
Control Room h/C Unit for OV103hLow Plow Switch
Control Room h/C Unit for OV103BLow Flow Switch
H-178
H-178
H-178
VC-178
H-178
H-178
M-178
VC-178
H-178
M-178
1;2
1,2
1>2
1,2
2>3
2>3
2>3
2>3
1,2
2>3
0-29B
0-29B
0-29B
0-29B
0-29B
0-29B
0-29B
0-29B
0-29B
0-29B
Power Supply from Div. IIFor Path 2, either one BatteryRoom Exhaust System or theother must be operable.
Power Supply From Div. I
FPD-3-12-9-9
FPD-3-12-9-10
FPD-3-12-9-11
FPD-3-12-9-12
PPD-3-12-9-13
FPD-3-12-9-14
FPD-3-12-9 17
FPD-3-12-9-18
FPD-3-12-9-19
Control Structure Battery Room ExhaustPire Protection Damper (FPD)
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Roan Exhaust FPD
Control
Control
Structure Battery Room Exhaust FPD
Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
V-12-9
V-12-9
V-12-9
V-12-9
V-12-9
V-12-9
V-12-9
V-12-9
V-12-9
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
Sns SEA-HE-097 Rev. 1
See SEA-HE-097 Rev. 1
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Hechanical Component
Mechanical Component
Mechanical Component
I. ASSOCIATED SUPPORT FUHCXIOHS
B. COHTROL STRUCTURE HVAC SYSTEM
R uired C onents Coannon
Page 2 of 3
SE -B- N'A"-0 1'6 Rev. g
Page~
nant Deacri tion References
a eShutdownPath(s)
RequiringCan onent
FireZone Remarks
FPD-3-12-9-20
FPD-3-12-9-21
FPD-3-12-9-22
FPD-3-12-9-23
FPD-3-12-9-24
Control Structure Battery Room Exhaust FPD
Control Structure Battery" Room Exhaust FPD
Control Structure Battery Roaa Exhaust FPD
Control Structure Battery Roon Exhaust FPD
Control Structure Battery Room Exhaust FPD
FPD-3-12-9»29SC Control Structure Battery Room Exhaust FPD
FPD-3-21-9-3
FPD-3-21-9-4
FPD-3-21-9-5
FPD-3-21-9-6
FPD-3-21-9-7
FPD-3-21-9-8
FPD-3-21-9-9
FPD-3-21-9 10
FPD-3-21-9-11
FPD-3-21-9-12
FPD-3-21-9-13
FPD-3-21-9-14
FPD-3-21-9-15
FPD-3-21-9-16
Control Structure Battery Roca Exhaust FPD
Control Structure Battery Roaa Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Rocm Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Roan Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
Control Structure Battery Roon Exhaust FPD
Control Structure Battery Room Exhaust FPD
FPD-3-21-9-20SC Control Structure Battery Room Exhaust FPD
FPD-3-21-9-21SC Control Structure Battery Room Exhaust FPD
FPD-3"21-9-22SC Control Structure Battery Room Exhaust FPD
V-12-9
V-12"9
V-12-9
V-12-9
V-12-9
V-12-9
V-21-9
V-21-9
V-21-9
V-21-9
V-21-9
Y-21-9
V-21-9
V-21-9
V-21-9
V-21-9
V-21-9
V-21"9
V-21-9
V-21-9
V-21-9
V-21-9
V-21-9
See SEA-HE-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEh-HE-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-%-097 Rev. 1
See SEA-HE-097 Rev. 1
See SEA-ME-097 Rev. 1
See SEA-ME-097 Rev. 1
Mechanical Component
Mechanical Ccaponent
Hechsnicsl Component
Mechanical Component
Mechanical Component
Mechanical Component
Hechsnicsl Component
Hechanical Component
Mechanical Component
Mechanical Component
Hechanical Component
Mechanical Component
Hechanicsl Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
Hechanical Component
Hechanicsl Component
Mechanical Component
Mechanical Component
Mechanical Component
Mechanical Component
I. hSQR~ED SUPPORT FUNCTIONS
B. CONTROL STRUCTURE NVhC SYSTEM
R uired C onents (Canon)
Page 3 of 3
$E'.-8= N Aim) $ 6 'PjV, 3 page g of 13
Page~os'
onent
FPD-3-21-10-1
FPD-3-21-11-7
Descri tion
Control Structure Battery Room Exhaust FPD
Control Structure Battery Room Exhaust FPD
FPD-3-21-11-8 - Control Structure Battery Room Exhaust FPD
References
V-21"9
V-21-9
V-21-9
a eShutdownPath(s)
RequiringCom anent
FireZone
See SEh-HE-097 Rev. 1
See SEh-HE-097 Rev. 1
See SEh-HE-097 Rev. 1
Remarks
Mechanical Component
Hechanical Component
Mechanical Component
tm/h308i:mg
I. ASS(X:ABATED SUPPORX FUNCTIONS
C. ESSM PUMPHOUSE HVAC SYSTEM
R uired Ccxa onents Cccaon
Page 1 of 3~rs gf
$f -8- N A=tt $ 6 Hell. 3 pege co< xs
Page
C nent
Division IOV521A
OV521C
1V506A
2V506h
TD-08206Clthru C4
TD-08206hlthru h4
TD-2820lhlthru h4
XD-1820lhlthru h4
TSH-08206h, C
TSL-08206AI C
TSH-1820lh
TSL-18201A
TSH"2820lh
TSL-28201A
TE, TTITYITIC"1820lh
TE,TT,TY,TIC-2820lh
TE,TT,TYITIC-08206A
TE,TT,TYITIC-08206C
Descri tion
ESSI Pump Bouse Supply Fan
ESS/ Pump Bouse Supply Fan
ESSM Pump House Supply Fan
ESSM Pump House Supply Fan
ESSI Pump House Motor~cratedDsmpers for OV521C
ESSW Pump House Motor~cratedDampers for OV521A
ESSM Pump House Motor-OperatedDampers for 2V506h
ESSW Pump House Motor-OperatedDampers for 1V506h
Temp. Switches for OV521A, C
Temp. Switches for OV521A, C
Temp. Switch for lV506h
Temp. Switch for 1V506h
Tea@. Switch for 2V506A
Temp. Switch for 2V506A
Xemperature Components on Panel OC578for TD-1820lhl to h4 Damper Control
Temperature Components on Panel OC578for TID-2820lhl to A4 Damper Control
Temperature Components on Panel OC578for XD-08206hl to h4 Damper Control
Temperature Components on Panel OC578for TD-08206C1 to C4 Damper Control
References
M-182
M-182
M-182
M-182
M-182
M-182
M-182
M-182
E-207 She 1
E-207 Sh. 1
E-207 Sh. 3
E-207 Sh. 3
E 207 Sh. 5
E-207 Sh. 5
V"482 Sh ~ 3
V-482 Sh. 3
V-482 Sh. 3
V-482 Sh. 3
a eShutdownPath(s)
RequiringCom onent
1,2
1,2
1,2
1,2
1,2
1 ~ 2
1,2
1,2
1I2
1,2
1I2
1,2
1,2
1,2
1I2
1,2
1,2
1,2
FireZone
0-51.
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
0-51
Remarks
n
I. hSSO.i jjXED SUPPORT HJNCTIONS
C. ESSM PUMPHOUSE HVAC SYSXEH
Re uired C nents Cosmjon)
Page 2 of 3
B- N A=0 g 6 Rev. 3
page
onent Descri tion References
Sa eShutdownPath(s)
RequiringCom onent
FireZone
Division IIOV521B
OV521D
1V506B
2V506B
TD-08206Dlthru D4
XD-08206Blthru B4
TD-2820181thru B4
TD-18201Blthru 84
TSH-08206Bj D
TSL-08206B, D
TSH-18201B
TSL-18201B
'TSH-282018
TSL-28201B
XE,XTjTY,TIC-18201B
XE,TT,TYjTIC-28201$
TE,TTjTY,TIC-08206B
XE,TT,TYjTIC-08206D
ESSM Pump House Supply Fan
ESSM Pump House Supply Fan
ESSM Pump House Supply Fan
ESSM Pump House Supply Fan
ESSM Pump House Hotor-OperatedDampers for OV521D
ESSM Pump House Hotor-OperatedDampers for OV521B
ESSM Pump House Motor-OperatedDampers for 2V5068
ESSM Pump House Hotor-OperatedDampers for lV506B
Temp. Switches for OV521B, D
Temp. Switches for OV5218, D
Temp. Switch for 1V506B
Temp. Switch for 1V506B
Temp. Switch for 2V506B
Temp. Switch for 2V506B
Temperature Components on Panel OC579for XD-1820181 to B4 Damper Control
Temperature Components on Panel OC579for TID-28201$1 to B4 Damper Control
Temperature Components on Panel OC579for XD-08206Bl to B4 Damper Control
Temperature Components on Panel OC579for XD-08206Dl to D4 Damper Control
M-182
M-182
H-182
M-182
H-182
H-182
H-182
H-182
E-207 Sh. 1
E-207 Sh. 1
E-207 Sh. 3
E-207 Sh. 3
E-207 Sh. 5
E-207 Sh. 5
V-482 Sh. 3
V-482 Sh. 3
V-482 Sh. 3
V-482 Sh. 3
2j3
2 j3
2j3
2j3
2 j3
0-52
0-52
0-52
0 52
0-52
2j3 0-52
2 j3 0"52
2j3 0 "52
2j3 0-52
2 j3 0-52
2j3 0-52
2 j3 0-52
2 j3 0-52
2 j3 0-52
2 j3 0-52
2 j3 0-52
2j3 0-52
2,3 0-52
I. ASSOCIATED SUPPORT FUNCTIONS
C. ESQI PUHPHOUSE HVhC SYSTEH
R uired Con onents Coaeon
Page 3 of 3
SE -g- N A=0 I 6 Rev. 3
Page~i>
C nant
HV-01110h
HV-01120h
HV-01112B
HV-011228
HV-01112D
HV-0112 2D
Descri Cion
Diesel Generator h Coolant Loop BInlet Valve
Diesel Generator h Coolant Loop BOutlet Valve
Diesel Generator B Coolant Loop hInlet Valve
Diesel Generator B Coolant Loop hOutlet Valve
Diesel Generator D Coolant Loop AInlet Valve
Diesel Cenerator D Coolant Loop hOutlet Valve
References
H ill, Sh. 1
H-ill, Sh. 1
H-ill, Sh..l
H-111$ Sh. 1
H-ill, Sh. 1
H-111$ Sh. 1
a eShutdownPath(s)
RequiringC onent
1$ 2
1$ 2
2 $ 3
2$ 3
2$ 3
2$ 3
FireZone
0-41A
0-41A
0-41B
0-41B
0-41D
0-41D
Remarks
tm/h309i:mg
P C
ASSOCIATED SUPPORT FUNCTION
D. EHERGENCY DIESEL GENERATORS HVAC &
AVXILIARYSYSXKHS RE UIRED COHPONENTS Coaaaon)
Page 1 of 4
$ F -B-NA.-016 "~~ 5 "ge
Page
C nent Descri tion References
e eShutdownPath(s)
RequiringCora onent
FireZone Remarks
Division IOV-512A
OV-512C
Diesel Generator Enclosure VentilationSupply Fan
Diesel Generator Enclosure VentilationSupply Fan
M-182
M-182 1,2 0-41C
1,2 . 0-4lh
TD-08271hl,A2i A3
TD-082>ICI,C2a C3
OP-531A
Diesel Generator Enclosure Dampers forOV-512A
Diesel Generator Enclosure Dampers forOV-512C
Standby Jacket Water Pump (AC MotorDriven)
M-182
M-182
H-134
102
1,2
1,2
0-4lh
0-41C
0-4lh
OP-531C
OP-514A
OP-514C
OP-533A
OP-533C
OP-538A
Standby Jacket Mater Pump (AC HotorDriven)
Fuel Oil Storage Tank Transfer Pumps
Fuel Oil Storage Tank Transfer Pumps
Standby Lube Oil Pump (AC Hotor Driven)
Standby Lube Oil Pump (AC Motor Driven)
Standby Lube Oil Booster Pump (DC MotorDriven)
H-134
M-120
M"120
H-134
H-134
H-133
1,2 0-41C
1,2
1,2
0-41A
0-41C
0-4IA
1,2 Outside Areas
1,2 Outside Areas
QP-538C Standby Fuel Oil Booster Pump (DC HotorDriven)
M-134 1,2 0-41C
SV-03445hl-1 &hl-2
SV-03445C1-1 &C1-2
SV&3445A2"1 &h2"2
hir Start Solenoide
hir Start Solenoids
hir Start Solenoids
SV-03446hl & h2 hir Start Solenoids
SV-03446Cl & C2 hir Start Solenoids
M-134
M-134
M-134.
M-134
M-134
1,2
1,2
1,2
1,2
0-4lh
0-41C
0-4lh
0-41C
0-4lh
I. ASSOClhTED SUPPORT FUNCTION
D. EMERGENCY DIESEL GENERATORS HVAC &
AUXILIARYSYSTEHS RE IRED COMPONENTS (Common)
Page 2 of 4
$ E -B- NA416 ReV. 3 Page IOof 13
Page
C nent Deecri tion References
a eShutdownPath(e)
RequiringCom onent
FireZone Remarks
SV<3445C2-I & hir Start SolenoidsC2-2
H-134 1,2 0-41C
Division IIOV-5128
OV-512D
TD-08271Bl,B2, B3
TD-08271D1 $
D2$ D3
OP-531B
OP-53ID
Diesel Generator Enclosure VentilationSupply Fan
Diesel Generator Enclosure VentilationSupply Fan
Diesel Generator Enclosure Dampers forOV-512B
Diesel Generator Enclosure Dampers forOV-512D
Standby Jacket Mater Pump (AC HotorDriven)
Standby Jacket i(ster Pump (AC HotorDriven)
H-182
H-182
H-182
H-182
M-134
H-134
2$ 3
2$ 3
2 ~ 3
2$ 3
2 $ 3
0-41B
0-41D
0-41B
0-41D
0-41B
0-41D
OP-514B
OP-514D
OP-533B
OP"533D
OP-538B
Fuel Oil Storage Tank Transfer Pumps
Fuel Oil Storage Tank Transfer Pumps
Standby Lube Oil Pump (AC Hotor Driven)
Standby Lube Oil Pump (AC Hotor Driven)
Standby Lube Oil Booster Pump (DC MotorDriven)
M"120
M-120
H-134
M-134
H-134
2,3 Outside Areas
2,3 Outside Areas
2,3 0-41B
2 $ 3 0-41D
2$ 3 0-41B
OP-538D Standby Fuel Oil Booster Pump (DC HotorDriven)
M-134 2$ 3 0-41D
SV-03445B1-1 &Bl 2
hir Start Solenoids
SV&3446Bl & B2 hir Start Solenoide
SV&3446D1 & D2 hir Start Solenoide
M-134
H-134
M-134
2$ 3
2 $ 3
2$ 3
0 "41B
0-41D
0-41B
SV-03445Dl-1 &Dl-2
hir Start Solenoids M-134 2 $ 3 0-41D
ASRX.>hTED SUPPORT FUNCTION
D$ EMERGENCY DIESEL GENERATORS HVAC &
AUXILIARYSYSTEHS RE IRED COHPONENTS Common)
Page 3 of 4
Sf Q- N A=0 I 6 RCV 3 age li o
Page~<
nent Descri tion References
s eShutdownPath(s)
RequiringCom onent
FireZone- Remarks
SV&3445B2-I &B2-2
hir Start Solenoids M-134 2>3 0-41B
SV&3445D2-1 &D2-2
TSH&8271C
TSH-08271D
LS-0202lh
LS&2021B
LS&2021C
LS&2021D
TSH&8271A
TSH&8271B
hir Start Solenoide
Diesel Generator Building Vent Fan QV512CHigh Temperature Switch
Diesel Generator Building Vent Fan OV512DHigh Temperature Switch
Diesel Generator Day Tank A Low LevelSwitch
Diesel Ccnerator Day Tank B Low LevelSwitch
Diesel Generator Day Tank C Low LevelSwitch
Diesel Generator Day Tank D Low LevelSwitch
Diesel Generator Building Vent Fan OV512AHigh Temperature Switch
Diesel Generator Building Vent Fsn OV5128High Temperature Switch
H-134
H-182
H-182
H-120
H-120
H-120
H-120
H-182
M-182
2 $ 3
1,2
2>3
1,2
2>3
1>2
2>3
1,2
2 $ 3
0 "41D
0-41C
0-41D
0-4lh
0-41B
0-41C
0-41D
0-41h
0-418
OP-533E
OP-514E
OP-538E
OP-531E
DG h thru E
DG h thru E
DG h thru E
OE-569 h thru R
Standby Lube Oil Pump (AC Hotor Driven)
Fuel Oil Storage Tank Transfer Pumps
Standby Fuel Oil Booster Pump (DC Motor Driven)
Standby Jacket 'Mater Pump (AC Hotor Driven)
Main Lube Oil Pump (Engine Driven)
H-134
H-120
M-134
H-134
M"134
Hain Jacket Pump (Engine Driven)
Diesel Generator Enclosure Unit Heaters(Except I&0)
M-134
H-182
Fuel Oil Infection (Impulse) Pumps (Engine Driven) M-134
1,2,3
1>2>3
1,2,3
1,2$ 3
1,2,3
1$ 2,3
1>2,3
1>2,3
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
I. AS~xhXFD SUPPORT FUNCTION
D. EHERGENCY DIESEL GENERATORS HVAC &
AUXILIARYSYSTEHS RE IRED COHPONENTS (Coamon)
Page 4 of 4
$F B„N A=0 $ 6 /gal g Page t2of 13
Page~
C onent
SV-03445E1-1
SV-0344581-2
SV-0344582-1
SV-0344582-2
OV512El
OV-512E2
OV-512E3
OV-51284
OV5118
%827185
XD0827lE5
XD0827186
XDH-0827 1E6
TN-0827187
TD0827187
TSH-08271E2
TSH-08271E1
TSH-0827183
Descri tion
Diesel Generator E
Diesel Generator 8
Diesel Generator 8
Diesel Generator 8
Diesel Generator 8
Diesel Generator E
Diesel Generator 8
Diesel Generator 8
Diesel Generator E
Diesel Generator 8
Diesel Generator 8
Diesel Generator 8
Diesel Generator 8
Diesel Generator E
Diesel Generator E
Diesel Generator 8
Diesel Generator 8
Diesel Generator 8
References
s eShutdomPath(s)
RequiringCan onent
1,2,3
1,2>3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2,3
1,2>3
1,2,3
1>2>3
1>2,3
1,2,3
1,2,3
1,2,3
1>2,3
FireZone
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
0-41E
0-418
0-41E
0-41E
0-418
0-418
0-41E
0-41E
0-41E
0-41E
0-418
Remarks
See Section 4.0
See Section 4.0
See Section 4.0
'See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
See Section 4.0
tm/h3101:ug
SE -B-NA=UYE i
Page~i
II. ELECTRICAL SYSTEM
A. Co+non
tmlh1003: nas
II. EL LRICAL SYSTEH
A. R uired Com onents (Cccsson)
NOTE: hll Electrical System Componentsto be determined by NPE Electrical,this is provided for information only.
P
SE -B- N A=616 Rev. 3Page 13 of 13
C onent
Division IOA510A
OA510C
0050lh
OG501C
OB136
OB516
OB517
OB536
Division IIOA510B
QA510D
OG501B
OG501D
OB14&
OB526
OB527
08546
Descri tion
4.16 KV Transfer Sritchgeer
4.16 KV Transfer Svitchgear
Diesel Cenerator
Diesel Generator
480 Y AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
4.16 KV Transfer Svitchgear
4.16 KV Transfer Svitchgesr
Diesel Generator
Diesel Generator
480 V AC HCC
480 V AC HCC
480 V AC HCC
480 V AC HCC
References
E23/6/15
E23/6/15
E105/1/16
E105/ll/17
E24/1/15
E24/1/15
E24/1/15
E24/1/15
E23/6/15
E23/6/15
E105/10/17
E105/7/19
E24/1/15
E24/1/15
E24/1/15
E24/1/15
Se eShutdownPath(e)
RequiringCom onent
FireZone
0-4lh
0-41C
0-4lh
0-41C
0-29B
0-4lh
0-51
0-41C
0-41B
0-41D
0-41B
0-41D
0-29B
0-41B
0-52
0-41D
Remarks
tm/h314itmg
SF -B-NA=OI 6 ae
Page~i+'PPENDIX
R - SAFE SHUTDOWN
COMPONENT LIST
APPENDIX D
FLOW DIVERSION PATHS
tm/h100i: nas
I. UNIT 81 - FLOW DIVERSION
A. Isolation Valves
B. RCIC
C. HPCI
D. ADS
E. Core Spray
F. RHR
G. .RHR Service Water
H. Suppression Pool Monitoring
I. CRD
J. Main Steam
K. Reactor vessel Loss of Coolant
tm/h100i: nas
This page was left intentionally blank
SE -B- N A 4 1 8 peg. jPage 1 of 47
Page~e~-
s/hlOli:nas
I. Unit tlh. Isolation Valves
C onents Mith PotentialFor Flow Diversion Unit 1
SE -B- N A'=i . 6 Rev. 3Sheet 1 of 2
Page Q,of 41
Pg(IB
Component Description References
Safe ShutdownPath(s)
Requiring FireComponent - Zone Remarks
HV-B21-1F016 Isolation Valves-Inboard Div. Ior -Outboard Div. II
HV-B21-IF019
H-141 (1,2)(2,3)
1-4F1-4G
Valves are not required forsafe shutdown.However, simultaneous open-ing of 'both valves wouldresult in an L.O.C. fromthe R.P.V. Either valvemust close and stay closed.
HV-G33-1F001or
HV-033-1F004
HV-B21-1F001or
HV-B21-1F002
Isolation Valves-Inboard Div. I-Outboard Div. II
Isolation Valves-Inboard Div. I-Outboard Div. II
M-144
H-141
(1,2)(2,3)
(1,2)(2,3)
1-4FI-5D
1-4F1-4F
Valves are not required forsafe shutdown.However, simultaneous open-ing of both valves wouldresult in an L.O.C. fromthe R.P.V. Either valvemust close and stay closed.
Valves are not required forsafe shutdown.However, simultaneous open-ing of both valves wouldresult in an L.O.C. fromthe R.P.V. Both insidecontainment. Either valvemust remain closed.
i. Unit tih. Isolation Valves
C onents Mith Potentialor ow vers on n t
SE -B- N A'=0 lb Rev. 3'
Sheet 2 of 2
Page 3 of 47
PB~B~
Component Description 'eferences
Safe ShutdownPath(s)
Requiring " FireComponent Zone Remarks
HV-15766or
HV-15768
Isolation Valve - Inboard Div. IIsolation Valve - Outboard Div. II
N-157 Sh. 1
N-157 Sh. 1
(1,2)
(2,3)
1-lh
1-lh
Valves are not required forsafe shutdown. However,simultaneous opening of bothvalves could result in flowdiversion from suppressionpool. Either valve mustremain closed.
dk/tbd380i:nas
Z. UNIX tlB. RCIC S stem
Flow Diversion Paths (Unit 1)
SE -8-N A=0 I6 Rev. „1Sheet 1 of 2
Page f of 47
PBgB~a
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
For FlowDiversion Division 'eferences Remarks
6'HBB-113 &41'HBB-113
Suction Line fromRHR Heat Exchanger
No HV-1F054h(RHR)HV-1F054B(RHR)
N/A H/h M-149, Valve CV-1F054h & B are check valvesM-151 Sh. 1 in line 4"HBB-113 that restricts& 2 flow
3"DBB-109
24'9)BB "118
hux. Steam SupplyLine
Feedwater Supply Line
1-21-006
No HV-1F032h
N/A
H/h I M-1411M-149
This is a motor-operated check valvewhich will close upon the lose ofthe feedwater pumps and will be heldclosed by reactor pressure and RCICsystem pressure.
N/h M-150, Normally closed manual valve.M-121
41'DBB-109 &26" GOOI
16"HCB-102
16"HCB-103
2'HCD-110
Main Steam Line "C"
Core Spray SuctionLine from CST
HPCI Suction Linefrom CST
Filling Line
No
Ho
No
HV-1F022C
1-52-021
HV-1F045See Remarks
1-49-015
N/h
N/A
H/h
N/A
! M-141,M-149
N/A M-152
H/h M-155
N/A M-149
MSIV closure upon loss of offsitepower or manually closed byoperators.
Manual valve 1-52-021 is lockedclosed.
Line contains check valve.
Check valve restricts flow.
(
I. UHIT Ol
B. RCIC S stem
Flow Diversion Paths (Unit I)
Sheet 2 of 2
SE -B- N A4 1' Ray. i3.$ Page g of 47
P8 "8~q
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References', Remarks
1"DBB-109 Pot Drain to MSDrain Line
HV-1F025HV-1F026
H/h H/h M-149,M-150
Automatically close when HV-1F045opens or manually closed byoperators.
1" lines and smaller RCIC Steam Supplyand Exhaust, PumpSuction and Dischargeand Vacuum Pump Dis-charge Vent, Drain,Test and InstrumentLines
Ho See Remarks See Remarks H/h M-149,M-150
The flow in these lines (with theexception of 1"DBB-109 above) isrestricted by either. an excess flowcheck valve, single closed manualvalve or double closed manualvalves, and therefore is notconsidered a problem.
dk/tbd409i
I. UNIT Sl
C. HPCI S stem
Flow Diversion Paths (Unit 1
Sheet 1 of 2
SE -8- N A=0 1'6 Rey. 3 Page (o of 47
pnls ~95
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
For FlowDiversion Division References Remarks
26" G001 Hain Steam Line 'B'o HV-1F022B N/h „- I M-155n M-141 MSIV closure upon loss of offsitepower or manually closed byoperators.
4" CBD-112
24" DDB-119
16" HCB-102
6" HCB-104
2" HCD-110
10n DBB-115
Aux. Steam Supply Line
Feedwster Supply Line
Core Spray Suction Linefran CST
RCIC Line to CST
Filling Line
Line to RHR Ht. Ex.
No
No
No
No
No
1-21-007
HV-1F032B
1-52-021
1F0301F047
1-55-012
PV-1F052A,BPV-1F051A)B
N/A
N/h
N/A
N/A
N/A
N/h
N/A M-155, M-121 Normally closed manual valve.
II M-155, M-141 Ibis is a motor-operated check valvewhich will close on loss of feedwater6 will be held closed by reactorpressure and K'.CI system pressure.
N/h M-155, M-152 1-52-021 is locked closed.
N/h M-155, M-149,- No flow diversion if RCICM-150 in operation. Lines contain
check valves.
N/A M-155 Check valve restricts flow.
N/h M-155, Valves are normally closed and failM-151, Sh. 1 closed. Spurious operation considered.
1" DDB-114 Pot Drain to MS Drain Line No HV-IF028HV-1F029
N/A N/A M-155 hutanatically close when HV-1F001opens or manually closed byoperators.
I. UNIT OlSheet 2 of
C. HPCI S stem
Flow Diversion Paths (Unit 1
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentN/Potential
For FlowDiversion Division References Remarks
1" Lines andSmaller
HPCI Steam Supply & ExhaustPulp Suction & Discharge andVacuum Pump Discharge Vent,Drain, Test and InstrumentLines
No See Remarks See Remarks N/h M-155, M-156 The flow in these linesis'estrictedby either an excess flow
check valve, single closed manualvalve or double closed manualvalves and therefore is not con-sidered a problem.
4" DBB-112 RCIC Test Line No 1F023 N/h N/h H-155, H-149 Check valve restricts flow.
dk/tbd410i
i. UHIT ~ 2
D. Automatic De ressurization S stem (ADS)
Flow Diversion Paths Unit 1
She 1 of 1
SE -B- N'A=O16 Rev. 3'"'g'""Page~i~z
Flow Path Description
PotentialFlow
Diversion
ponent sthat
PreventsFlow
Diversion
ComponentM/Potentialfor FlowDiversion Division References Remarks
Downcomers ADS Valves No N/A PSV-2F013G, I,II H-2141 See SEA-EE-051J,K,L,H,H Spurious openings of ADS valves
will be protected against.
dk/tbd303Ai
I. UNIT 01
E. Core S ra S stem
Flaw Diversion Paths (Unit 1
Sheet 1 of
st= -g- N 'A'=g y'6 RBy 3''g''f 4~
Page~„;
Flaw Path Description
PotentialFlow
Diversion
Component(s)thar.
PreventsFlow
Diversion
ComponentH/Potential
For FlowDiversion Division References Remarks
16" HBB-104
1" HBB-104
1 1/2" CBB-101
Suction Line fry CST
Suction Relief Line
Discharge Relief Line
No
No
1F002h
PSV-1F032A
PS V-1F012A
N/A
N/h
H/A
M-152
M-152
g-152
Locked Closed Manual Valve
Relieves Pressure Only, No MultipleFailure Considered
Relieves Pressure Only, Minimal FlawHo Multiple Failures Considered
2" CBB-101 Condensate TransferFill Line
No 1F030A1F029A
N/A M-152 Double Check Valves in SeriesRestrict Flaw
1" Lines Vent, Drain, Pump ShaftSeal, Instrument Tsp,Test 6 Equalising Lines
See Remarks N/A M-152 Flow in These Lines ia Prevented ByLocked Closed Manual Valves, Caps,or Excess Flow Check Valves, andTherefore is Not a Problem
I. NNI1 Nl
E. Core S ra S stem
Flow Diversion Paths (Unit 1
Sheet 2 of
SE'B-NASL'6 Rey 3Page fOof47
Page~ivz
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References Remarks
16" HBB-104
3" CBB-102
1" HBB-104
1 1/2" CBB-101
Suction Line from CST
Condensate Transfer Make-Up NoFill Line
Suction Relief Line
Discharge Relief Line
IF002B
1-52-005
PSV-1F032B
PSV-1F012B
N/A
N/A
N/A
N/A
H-152
H-152
H-152
H-152
Locked Closed Hsnual Valve
Check Valve Restricts Flow
Relieves Pressure with Minimal FlowHultiple Failures Not Considered
Relieves Pressure with Hinimal FlowHultiple Failures Not Considered
2" CBB-101 Condensate TransferFill Line
No 1F030BIF029B
N/A M-152 Double Check Valves in. SeriesRestrict Flow
1" Lines Vent, Drain, Pump ShaftSeal, Instrument Tap,Test 6 Equalising Lines
No See Remarks N/A H-152 Flow in These Lines is Prevented ByLocked Closed Manual Valves, Caps,or Excess Flow Check Valves, andTherefore is Not a Problem
dk/tbd412i
I. Ualt ~
F. RHR S stem
Flow Diversion Paths Unit 1)
1of 3
~~ -~- MA=61'6 Ray. 3 Page i)of 47
Psgs~iez
Flow Path Description
PotentialFlow
Diversion
Canponent(s)t'ha't
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References Remarks
12" GBB-113 RHR Fuel Pool Cooling& Cleanup
1-51-070 N/A N/A M-151Sh. 1
Manual valve locked closed.
28" G001 Reactor Recirc.Loops A 6 B
No See Remarks N/A I/II M-151Sh. 1 & 2M-143
See Pape 8 of Reactor Vessel L.O.C.Flow Diversion Paths (Unit 1)
6" GBB-119 RHR Service Water Crosstie No 1F078A N/A N/A M-112 Sh. 1M-151)Sh. 1
Check valve restricts flow.
2" GBB-105 Heat Exchanger A SteamSupply Drain (SteamCondensing)
HV-El1-1F129A N/A I M-151,Sh. 1
Air operated valve fails closed.This line is too small to causeany significant flow diversion.
The Steam Condensing Mode of RHRis being blocked by capping thethe line in which PV-Ell-1F05IAand PV-Ell-1F052A is located.
2" DBB-107 Condensate Transfer
6" GBB-105 Pressure Relief
No
No
1F090A1F058A
PS V-1F055A
N/A
N/A
N/A M-151Sh. 1
N/A M-151Sh. 1
1F090 is a check valve1F058 is a manual valve thatblocks flow.
Mechanical Relief Valve opens onlyon overpressure condition.
Z. Ualt tlF. RHR S stem
Flow Diversion Paths Unit 1
Sheet 2 of 3
SE -8- N A=5 I 6 ReV. 3 P 8» f 47
Page~»
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References Remarks
6" GBS-119 RHR Service Water & Ht.Exchanger Discharge
No 1F078B N/A M-112 Sh. 1 Check valve restricts flow.M-151 Sh. 2
24" GBB-ll5 RHR Loops A & B Cross Connect Ho HV-1F010AHV-1F010B
H/h I & II M-151,Sh.l & 2
Two motor operated valves in seriesnormally closed (power disconnected)
1" Lines &Smaller
Relief, Vent, Drain andInstrument Lines
No See Remarks H/A N/A M-151)Sh.l 6 2
These lines are too small to causeany significant flow diversion.
16" HBS-112
2n HBB-111
4" HCD-112
2" DBB-107
6" GBB"108
RHR Fuel Pool Cooling& Cleanup
From Condensate Transfer toSDC Suction Header (Flush)
From Condensate Transfer toSDC Suction Header (Flush)
Condenser TransferMakeup
Head Spray Line toCondensate Transfer System
No
Ho
No
1-51-060
1F083
1-51-083
1F058B1F090F
1F0821-51-057
N/A
N/h
N/A
H/A
N/A
N/A
N/A
N/h
N/A
N/A
M-151)Sh. 2
M-151)She 2
M-151,Sh. 2
M-151Sh. 1
M-151
Manual valve locked closed.
1F083 is a normally closed manualvalve.
1-51-083 is a normally closedmanual valve.
1F058B is a normally closed manualvalve. 1F090B is a check valve.
1F082 is a normally closed manualvalve 1-51-057.
I. Unit slF. RHR S stem
Flow Diversion Paths (Unit 1)
Sheet 3 of 3
~E -8- N A=6 I"6 R9\f. 3 P ge )3of 47
Page~~-.
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
For FlowDiversion Division References . Remarks
2" GBB-105 RHR Heat Exchanger B SteamInlet Drain Line (SteamCondensing)
6" GBB-105 Pressure Relief No
HV-IF129B
PSV-1F055B
N/A
N/A
M-151,Sh. 2
N/A M-151,Sh. 1
Air operated valve fails closed.This line is too small to causeany significant flow diversion.The Steam Condensing mode of RHRis being blocked by capping theline. in which PV-Ell-IF0$1B and.PV-Ell"1F052B ie located. <i>
/'f/'SY-1F055B
ie a mechanical reliefvalve that opens only on over-pressure condition.
dk/tbd413i
I, Unit Ol
C. RHR Service Water S stem
Flow Diversion Paths (Unit 1)
Sheet 1 of 1
SE- 'B N A Q $
'R8y 3'age I/of 47
Page~~s
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References Remarks
6" CBB-119
6" CBB-119
2" HRC-114
4" HRC-114
2" HRC-114
4" HRC-114
1" lines andsmaller
RHRSW Loop hContainment FloodingSupply to RHR Loop A
RHRSW Loop BContai(ssent FloodingSupply to RHR Loop B
Demin Water Makeup
Pressure Relief
Demin Water Makeup
Pressure Relief
Various Vent andDrain Lines
No
No
No
N/h
N/A
1F122A
PSV-11212A
1F122B
PSV-11212B
SeeRemarks
HV-1F073h(N.C. )HV-lF075h(N.C.)
HV-1F073B(N.C.)HV-1F075B(N.C.)
N/h
N/A
N/A
N/A
N/h
I M-112 Sh. 1 RHR System operatee at a higherpressure. Therefore no flowdiversion vill occur.
II M-112 Sh. 1 RHR system operatee at a higherpressure. Therefore no flovdiversion will occur.
I M-112 Sh. 1 Normally closed manual valve.
I M-112 Sh. 1 Mechanical valve opens only onoverpreseure.
II M-112 Sh. 1 Normally closed manual valve.
II - M-112 Sh. 1 Mechanical valve opens only onoverpreesure.
N/h M-112 Sh. 1 These lines are too small topose any significant flovdiversion path. In addition,these lines are usually protectedwith single or double lockedclosed manual valves.
dk/tbd414i
I. UN11 tl
Flow Diversion Paths Unit 1
Sheet x of 1
$ E '-8- N A-0 I 6 ReV. 3 Page i<of 47
page~>
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
For FlowDiversion References Remarks
6" Line HBB-121 Suppression PoolCleanup Pump Line
No HV-15766 (N.C.)HV-15768 (N.C.) N/A M-157 Sh. 1 hn analysis has been performed
ensuring that both valves cannot open spuriously.
dk/tbd415i
I. Unit 01
I. CRD S stem
Flow Diversion Paths (Unit 1
Sheet 1 of 1
SF -B-NA416 Peg. g'Page gof 47
Page~
i'low
Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentN/Potential
For FlowDiversion Division References Remarks
1/2" DCD
1/2" DCD
SV-121) SV-122)SV-123 & SV-124
1" DCB
Charging Mater Header
Cooling Hater Header
Rod Insert &Mithdrawal Valves
Scram Discharge VolumeVent & Drain Lines
No
No
115
138
N/A
See Remarks
H/A
N/A
H/A
N/A
H/A
H/A
H/A
NIA
M-147
M-147
M-147
M-147
Check valve 115 restricts flow.(Typical for'185 valves)
Check valve 138 restricts flow.(Typical for 185 valves)
Spurious opening of one of thesevalves can cause rod(s) insertionbut cannot prevent it and cannotcause rod withdrawal.
These lines are protected bydouble locked closed manual valves
dk/tbd416i
.
I, Unit flJ. Hain Steam Isolation Valves
Flow Diversion Paths (Unit 1
Sheet 1 of 1
~< ->- M A'4 1''ev. 3'~, i7,~ <>
PBg8
~95'low
Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentW/Potential
For FlowDiversion Division References Remarks
3" DM-108 HSL Bypass to Condenser No HV-IF016HV-IF019
N/A III
M-141 Spurious signal will only open onevalve.
die/tbd4171
,(
I. UNIX Ul
K. Reactor Vessel L.O.C.
Flow Diversion Paths (Unit 1)
Sheet 1 of 9
~"' A'=0 1'6 ReV', 3'age lgof 47
Page~8'low
Path DescriptionPotential
L.O.C. from R.P.V.
Component thatPrevents L.O.C.
from R.P.V,
Component M/Potentialfor L.O.C. from
R.P.V. Division References Remarks
N4D, E, F - Feedwater SupplyLines (12" DLA-102 to 24"DQ-102)
N4, A, B, C - Feedwater SupplyLines (12" DLA-104 to 24"DLA-104)
No
No
1F010A
IF010B
N/A
N/A
N/A
N/A
H-141
H-141
3 feedwater branch outlets tieinto a single supply header witha check valve to restrict back-flow from RPV.
3 feedwater branch outlets tieinto a single supply header witha check valve to restrict back-flow from RPV.
N3A - Hain Steam Line'A'26
Gool)
No
N/A
HSIV's NV-IF022Aor NV-IF028A
PSY lF013AUC>E>GUS(N C ) II
N/A
M-141
H-141
Spurious openings of SRVs arebeing prevented.
I. UNIT Nl
K. Reactor Vessel L.O.C.
Flow Diversion Paths (Unit 1
S<.-8-NA'=Q] 6 ReV. 3Sheet 2of 9
<J,. /1 ~~ +7
Page~
Flow Path DescriptionPotential
L.O.C. from R.P.V.
Component thatPrevents L.O.C.
from R.P.V.
Component M/Potentialfor L.O.C. from
R.P.V. Division References Remarks
N3h - Hain Stcam Line'h'ypass(2" DBA-108 to
3" DBA-108)
N/A HV-1F016 (N.O.)HV-1F019 (N.O.)
III
H-141 Valves normally close ona main steam isolation signal.Manual action may be requiredto close either valve.
N3B - Hain Steam Line'8'26"
G001)N/A PSV-1F013P,H, & J (H.C.) II H-141 Spurious openings are being
prevented.
N3B - Main Steam Line 'B'ypass(2" DBA-109 to 3" DBA-108)
No
HV-1F022B (N.O.)(Solenoid valvesSV-14123Bl, B2)
H/h
'/ASee Remarks I/II
M-141
M-141 Same valves as N3h - Hain SteamLine 'h'ypass.
I. UNIT tlK. Reactor Vessel L.O.C.
Flow Diversion Paths (Unit 1
SE -8- NA=01'6 Rev. 3'age goof 47
Page~
Flow Path DescriptionPotential
L.O.C. from R.P.V.
Component thatPrevents L.O.C.
from R.P.V.
Component M/Potentialfor L.O.C. from
R.P.V. Division References Remarks
N3B - HPCI Steam Supply Linc(10" DBA-102) from HainSteam Line
'B'o HV-1F001 (N.C.) N/A H-155 The HV-1F001 valve is (N.C.) andis in seriee with the HPCI TurbineStop and Governor valves. Thesecan not open unlese Aux Oil Pumpoil is supplied. An analysis hasbeen done to ensure that HV-1FQQlcannot spuriously open and theAux Oil Pump spuriously start dueto the same fire.
N3C - Hain Steam Line'C'26u
G001)I
No
No
N/A
HV-1F022C (N.O.)(Solenoid valvesSV-14123Cl, C2)
PSV-1F013B~ L~ & R (N.C.) I
N/A
H-141
H-141
Spurious actuation is beingprotected against.
HSIV closure ie being protected.
i. UNIT tlK. Reactor Vessel L.O.C.
Flov Diversion Paths (Unit 1
sE'-B-MARI'6 Re 3'""""'agegf of 47
Page~vs
Pleat Path DescriptionPotential
L.O.C. fran R.P.V.
Component thatPrevents L.O.C.
fran R.P.V.
Component M/Potentialfor L.O.C. from
R.P.V. Division References Remarks
N3C - RCIC Steam Supply Line(4" DBA-105) fr~ HainSteam Line
'C'3C
- Hain Steam Line'C'ypass(2" DBA-110 to
3" DBA-108)
No
NV-1F045 (N.C.)
N/A
N/A
See Remarks 1/ll
H-150
H-141 Same valves as N3h - Main SteamLine 'h'ypass.
N3D - Hain Steam Line'D'26"
C001)N/A
NV-1F022D (N.O.)(Solenoid valvesSV-14123Dl, D2)
PSV-lF013DiF, & K (N.C.) I
N/h
H-141
H-141 Spurious actuation villbe protected against.
3D - Hain Steam Line 'D'ypass(2" DBA-ill to 3" DBA-108)
No N/A See Remarks 1/zz M-141 Same valves as N3h.- Hain SteamLine 'h'ypass.
I. UNIT Sl
K. Reactor Vessel L.O.C.
Flow Diversion Paths (Unit 1)
SF -8-@pe'~|) R«3 ~'""''"'age
Pgof 47
Page~I
Flow Path DescriptionPotential
L.O.C. from R.P.V.
Canponent thatPrevents L.O.C.
from R.P.V.
Component N/PotentialEor L.O.C. from
R.P.V. Division References Remarks
N5A - Core Spray SystemIn)ection Line 'A'12"DCA-107)
N5B - Core Spray SystemIn)ection Line 'B'12"DCA-107)
Ho
HV-1F006A
HV-1F0068 (N.C.)
N/A
H/A
I H-141 & Check valve restricts flowH-152 from RPV.
II H-141 & Check valve restricts flowM-152 from RPV.
H7 - Reactor Vent to DrywellEquip. Drain Tank Line(2n DBA-112)
HV-1F001 (N.C.)HV-1F002 (H.C.)
N/A I M-141II
Spurious opening will beprotected against.
N7 - To Nuclear BoilerInstrumentation (2" DBA-112 toln DCA-145)
No XV-1F041 N/A N/A M-141 & Excess flow check valveH-142 restricts flow from RPV.
N9 - Capped Connection
H6A - Flsnged Connection
Ho
No
Capped 4" Hmsle
6" Mating FlangeConnection
N/A
N/A
N/A M-141
N/A H-141
No L.O.C. possible.
Ho L.O.C. possible.
N6B - RHR Reactor HeadSpray Line (6" DCA-ill)
N13 - RPV Instrument Line(1" DCA-101)
Ho
1F019
XV-1F0091-41-014 &1-41-015
N/A
H/A
N/A H-141 & Check valve restrictsH-151 Sh.l backflow from RPV.
H/A M-141 'xcess flow check valve anddouble locked closed manualvalves restrict flow from RPV.
I. UIIIT tlK. Reactor Vessel L.O.C.
Flow Diversion Paths Unit 1
Sheet 8 of 9
-"- N A=V 1 6 Bey. Pkege 95of 47
Page~ca
Flow Path DescriptionPotential
L.O.C. froa R.P.V.
Component that Component W/PotentialPrevents L.O.C. for L.O.C. from
frcca R.P.V. R.P.V. Division References
NlB - Loop B RecirculationSuction Lines (28" G001 to 4"DCA-102 to 6" DBA-101) to RMCU
NlA - Loop A RecirculationSuction Line (28" COOl to 4"DCA-102 to 6" DBA-101) to RMCU
H15 - RMCU Line from RPV (4"DCA-103 to 6" DBA-101)
H15 - Instrument Sensing Linefroe RMCU (1" DCA-103)
CRD Exhaust Mater Header(1/2" DCD) (Typ, of 185)
No
No
No
No
N/A
N/A
N/A
XV-1F046
N/A
HV-1F001 (H.O.)HV-1F004 (H.O.)
HV-1F001 (N.O.)HV-1F004 (H.O.)
HV-1F001 (N.O.)HV-1F004 (N.O.)
'/A
SV-12 (ND)SV-121 (HD)SV-122 (HD)SV-123 (ND)
H/A
I/II
N-143 &H-144
N-143 &H-144
H-144
N-144
H-147
Closure of one valve is assured.
See HlB - Loop B RecirculationSuction Line above.
See NlB - Loop B RecirculationSuction Line above.
Excess flow check valverestricts flow from RPV.
These valves are typical for185 CRDs,
Scram Discharge Volume DrainLine (2" DCB)
SVlF009 (XV-1F011 FC)
N/A I/II M-147 Valves close on scram andprevent L.O.C. inventory.
I'NITslK. Reactor Vessel L.O.C.
Flew Diversion Paths Unit 1
Sheet 9 of 9
Page QCoE 47
Page~gg
Flew Path DescriptionPotential
L.O.C. froa R.P.V.
Cceponent that Component M/PotentialPrevents L.O.C. for L.O.C. fran
froo R.P.V, R.P.Vo Division References
Scraa Discharge Volume Vent
Scraa Inlet Line(1/2" DCD)
Drive Mater Header(1/2" DCD)
SVlF009 (XV-1F010; FC)
115
137
N/A
N/A
N/A
I/XI
N/A
N/A
H-147
H-147
H-147
Valves close on scraa andprevent L.O.C. inventory.
Check valve restricts L.O.C.floe path.
Check valve restricts L.O.C.flow path.
dk/tbd418i
II. UNIT P2 - FLOW DIVERSION
A. Isolation Valves
B. RCIC
C. HPCI
D. ADS
E. Core Spr ay
F. RHR
G. RHR Service Water
H. Suppression Pool Monitoring
I. CRD
J. Main Steam
K. Reactor Vessel Loss of Coolant
tm/hl00i: nas
II. Unii
h. Isolation Valves
.,eet 1 of 1
SE -B- N A.=016 ReV. 3 Pageg7nf 47
C onents Mith Potential
For Flow Diversion (Unit 2
Component Description References
ae ut ownPath(s)
RequiringComponent
FireZone Remarks
HV-B21-2F016 Isolation Valves - Inboard Div. Ior
HV-b21-2F019 Outboard Div. IIM-2141 (1,2)
(2,3)
2-4F
2-4G
Valves are not required forsafe shutdown.However, simultaneous open-ing of both valves wouldresult in an L.O.C. fromthe R.P.V. Either valvemust close and stay closed.
HV-G33-2F001or
HV-G33-2F004
isolation Valves - Inboard Div. I- Outboard Div. II
M-2144 (1,2)
(2,3)
2-4F
2-5D
Valves are not required forsafe shutdown.HoMever, simultaneous open-ing of both valves wouldresult in an L.O.C. fromthe R.P.V. Either valveaust close and stay closed.
HV-B21-2F001 Isolation Valves - Inboard Div. Ior
HV-B21-2F002 - Outboard Div. IIM-2141 (1,2)
(2,3)
2-4F
2-4F
Valves are not required forsafe shutdown.However, simultaneous open-ing of both valves wouldresult in an L.O.C. fromthe R.P.V. Both insidecontainment. Either valvemust remain closed.
HV"25766
HV-25768
Isolation Valve - Inboard Div. I
Isolation Valve - Outboard Div. II
M-2157
M-2157
(1,2)
(2i3)
2-1B
2-1B
Valves are not required forsafe shutdown. However, .
simultaneous opening of bothvalves could result in flowdiversion from suppressionpool. Either valve mustremain closed.
sSee Remarks
dk/tbd38li: nag
II. Unit s2
8. ~RCIC S Item
Flow Diversion Paths Unit 2
Sheet, l. of 1
SE -B- N A=D 1 6 Rsy, 3 Page Qgof 47
Page ~o
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
For FlowDiversion Division References
6" HBB-231 &4u HBB 213
3" DBB-209
24n DBB 218
4" DBB-209 &26" G001
16" HCB-202
6u HCB-203
2" HCD-210
1" DBB-209
1" Lines andSaaller
Suction Line fromRHR Heat Exchanger
Aux. Steam Supply Line
Feedwater Supply Line
Hain Steam Line "C"
Core Spray SuctionLine froa CST
HPCI Suction Linefrom CST
Filling Line
Pot Drain to HS DrainLine
RCIC Steam Supply andExhaust, Pump Suction& Discharge and VacuumPump Discharge Vent,Drain, Test, andInstrument Lines
No
No
No
No
2F054h (RHR)2F054B (RHR)
2-21-006
HV-2F032A
HV-2F022C
2-52-021
2FO45See Remarks
2.-49-015
HV-2F025)HV-2F026
See Remarks
N/A
N/A
N/h
N/h
N/h
N/A
N/A
N/h
See Remarks
N/A = M-2149,H-2151Sh. 2
N/h H-2150,H-2121
I H-2141,H"2149
I H-2141)H-2149
N/A H-2152
N/A M-2155
N/A M-2149
N/h H-2149,H-2150
N/h M-2149H-2150
Valve 2F054A 6 2F054B arecheck valves in 4" HBB-213 thatrestrict flow.
Normally closed manual valve.
This is a motor-operated checkvalve which will close uponloss of the feedwater pumps andwill be he)d closed by reactorpressure & RCIC systea pressure.
HSIV closure upon loss ofoffsite power or manually closedby operators.
Hanual valve 2-52-021 ialocked closed.
Line contains check valve.
Check valve restricts flow.
Automatically closed whenHV-2F045 opens or aanuallyclosed by operators.
The flow in these lines (withthe exception of 1" DBB-209above) is restricted by eithersn excess for check valve,single closed asnual valve ordouble closed aanual valves,and therefore are not con-sidered a problem.
II. UNIT )2
Q) HPCI S etea
Flow Diversion Pacha Unit 2
Sheet 1 of 2
<< ->- NA"=5It2 p,v 3U.).aq.).2
Page~~
Flow Path Description
PotentialFlov
Diversion
Coarponent(e)that,
PreventsFlov
Diversion
ComponentN/Potentialfor FlowDiversion Division References
26') G001
4" CBD-212
242) DDB-219
Hain Steaa Line'B'ux.
Steam Supply Linc
Feedwater Supply Line
No
No
HV-2F022B
2-21-007
HV-2F032B
N/h
N/A
N/A
N/h
H-2155, H-2141 Motor-operated check valve closeson loss of feedvater & will beheld closed by reactor prcssureand HPCI system pressure.
M-2155, H-2141 HSIV closure upon loss of offsiteor manually closed by operators.
M-2155, M-2121 Normally closed valve.
16" HCB-202
6" HCB-204
Core Spray Suction Linefroa CST
RCIC Line to CST No
2-52-021
2F0302F047
N/A
N/h
N/h M-2155, H-2152 Hsnual valve is locked closed.
N/h H-2155, H-2149 Lines contain check valves.H-2150
2" HCD-210
10" DBB-215
1" DDB-214
Filling Line
Line to RHR Ht. Ex.
Pot Drain Line to MSDrain Line
No
2-55-012
P V-2F052A, BPV-2F05lh, B
HV-2F028HV-2F029
N/A
N/h
N/A
N/A
N/h
N/h
H-2155
H-2155)H-2151 Sh 1
H-2155
Check valve restricts flow.
Valves are noraally closed andfail closed. Spurious operationconsidered.
Automatically close when HV-2F001opens or manually closed byoperators.
II. UNIT S2
Flow Diversion Paths Unit 2
Page 2 of 2
SE '-B- M A=9 I 6 ReV. 3 Page Proof 47
Page~
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentH/Potentialfor FlowDiversion Division'eferences Reaarks
1" Lines andSmaller
4" DBB-212
HPCI Steaa Supply &Exhaust, Pump Suction& Discharge and VacuuaPump Discharge Vent,Drain, Teat andInstrument Lines.
RCIC Teat Line
Ho SeeRemarks
2F023
SeeRemarks
N/A
N/h
H/h
H-2155, M-2156 The flow in these: lines isrestricted by either an excessflow check valve, single closedmanual valve or double closedmanual valves arid therefore isnot considered a problem.
H-2155, M-2149 Check valve restricts flow.
dk/tbd421i
I. UNIT e2
D. Automatic De reseurixation S stem (ADS)
Flow Diversion Paths Unit 1
Sheec 1 of 1SE -B- MA=016 ReV. 3 P~eg(of 47
Page~
Flow Path Description
PotentialFlow
Diversion
Casponent ethat
PreventsFlow
Diversion
ComponentM/Potentialfor FlowDiversion Division References
Downc ace ra ADS Valves No N/h PSV"2F013G, IillJ,K,LiM,N
H-2141 See SEA-EE-051Spurious openings of ADS valveswill be protected egajnst.
dk/tbd303hi
II. UNIT NI
E. Core S ra S stem
Flow Diversion Paths Unit 2)
Sheet 1 of 2
$ E -B- N A=0 1 6 ReV. 3 'Page goof 47
Page~iq;
Flow Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potentialfor FlowDiversion Division References
16" HBB-204
1" HBB-204
CBB-201
2" GBB-201
1" lines
Suction Line fry CST
Suction Relief Line
Discharge Relief Line
Condensate TransferFill Line
Vents, Drains, PtapShaft Seal, InstruaentTaps, Test & EqualisingBypass Linea
NoSee Remarks
No
2F002A
PSV-2F032A
PSV-2F012A
2F030A2F029A
See Remarks
N/A
N/A
N/A
N/AN/A
N/A
M-2152
H-2152
H-2152
H-2152
Locked closed manual valve.
Hechanical valve opens onoverpressure only.
Mechanics! valve opens onoverpressure only.
Double check valves in seriesrestrict flow.
Flow in these lines is preventedby locked closed manual valves,caps or excess flow check valvessnd ia therefore not a problea.
Ij. UHIX 02
E. Core S ra S stea
Flow Diversion Paths Unit 2
Sheet 2 of 2
SE -8- MA=616 RBV. g Page +of 47
Flow Path ,Description
PotentialFlow
Diversion
Canponent(s)that
PreventsFlow
Diversion
ComponentN/Potential
for FlewDiversion Division References Remarks
16" HBB-204
3n CBB-202
Suction Line Prem CST
Condensate Transfer Makeup NoFill Line
2F002B
2-52-005
N/h
N/A
H-2152
H-2152
Hanusl valve locked closed.
Check valve restricts flew.
I" HBB-204
CBB-201
2u GBB-201
1" lines
Suction Relief Line
Discharge Relief Line
Condensate Transfer
Vents, Drains, PumpShaft Seal, InstrumentTaps, Test 6 EqualizingBypass Lines
NoSec Remarks
No
PSV-2F032B
PSV-2F012B
2F030B2F029B
N/h
N/A
N/h
N/h
N/h
M-2152
H-2152
H-2152
H-2152
Mechanical valve opens onoverpressure only.
Mechanical valve opens onoverpressure only.
Double check valves in seriesrestrict flow.
Flow in these linci is preventedby locked closed manual valves,caps or excess flew check valvesand therefore is not a problem.
dk/tbd423i
II. UNI.
F. RHR S stem
Flow Diversion Paths Unit 2)
Sheet 1 of 2
8E -B- N A.=5 1' Rev. 3'"'e" "Page~>~
Flow Path Description
PotentialFlow
Diversion
Component(a)that
PreventsFlow
Diversion
ComponentW/Potential
for FlowDiversion Division References
2" CBB-205 Ht Exchanger A SteamSupply Drain (St~Condensing)
HV-Ell"2F129A N/ALV-Ell-2F130A N/A
H-2151Sh, 1
Air operated valve fails closed.;This line is too small to causeany significant fgow diversion.
The Steam Condensing Mode ofRHR is being blocked by cappingthe line in which PV-Ell-2F051Aand PV-Ell-2F052A is located.
6" GBB-219
24" GBB-215
IUlR Service WaterCrosstie
RHR Loops A snd BCross Connect
2F078A
HV-Ell-2F010A
N/A
N/A
H-2112
I & II H-2151Sh. 1 & 2
Check valve restricts flow.
Two motor-operated valves inseries normally closed (powerdisconnected).
12" GBB-213
28u G001
6o CBB 219
6" GBB-205
RHR Fuel Pool Cooling &Cleanup
Reactor Recirc. LoopsA&B
RHR Service WaterCrosstic
Pressure Relief
No
See Remarks
2-51-070
2F078B
PSV-2F055A
N/A
N/A
N/A
N/A
N/A
N/A
H-2151Sh. 1
M-2151Sh. 1H-2143
H-2112
M-2151
Manual valve locked closed.
See Page 8 of Reactor vesselL.O.C. Flow Diversion Paths(Unit 2).
Check valve restricts flow.
Hechanical Relief Valve open onlyon overpressure condi.tion.
1" Lines &Smaller
Relief, Vent, Drain, and See Remarks See RemarksInstrument Lines
N/A N/A H-2151Sh. 1 & 2
These lines are too small to poseany significant flow diversion,and therefore, arc not considereda problem.
11. VMIT e'j
P. RHR S stem
Plow Diversion Paths Unit 2)
'heet~ .c 2
oA-171~ PPV ~ F'.p 35-Fir
Page~s'low
Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
ComponentM/Potential
for FlowDiversion Division References
16" HBB-212
2" HBB-211
4" HCD-212
RHR Fuel Pool Cooling6 Cleanup
Frca Condcnsatc Transferto SDC Suction Header(Flush)
From Condensatc Transferto SOC Suction Header(Flush)
No
No
2-51-060
2F083
2-51-Q83
N/A
N/A
N/h
N/A H-2151Sh. 2
N/A H-2151Sh. 2
H-2151Sh. 2
Hanual valve locked closed.
2F083 is a normally closedmanual valve.
2-51-083 1s a normally closedmanual valve.
2" GBB-205
2n DBB"207
6" CBB-208to
2u GBB-217
RHR Heat Exchanger BSteam Inlet Drain Line(Stcam Condensing Hode)
From Condensate Transfer
Head Spray Line to Con-densate Transfer System
Sce Remarks HV-2F129B
2-F090h2-F089A
2-FQ822-51-057
N/A
N/hN/h
N/hN/A
N/AN/A
N/AN/A
H-2151Sh. 2
.H-2151Sh. 1
M-2151 Sh. 1H-2151 Sh. 1
hir operated valve fails closed.This line is too s~all to poseany significant flow diversionpath.
The Steam Condensing mode of RHRis being blocked by capping theline in which PV-Ell-2F051B andPV-Ell-2F052B is located.
2F090 is a normally closed manualvalve. 2F089h ia a check valve.
2F082 is a normally closed manualvalve. 2-51-57 is a check valve.
6" CBB-205
dk/tbd424i
Pressure Relief PSV-2F055B N/A N/h M-2I51 Sh. 2 Hechanical Relief Valve opens onlyon overpressure condition.
II. UNI7
C. RHR Service Mater S stem
Flow Diversion Paths Unit 2
Sheet 1 of 1
SF -B- N A-0 1 6 Rey. 3 Page((of 47
Page~we
Flow Path Description
PotentialFlow
Diversion
Component(s)that
'reventsFlow
Diversion
ComponentW/Potentialfor FlowDiversion Division References
6 "GBB-219
6'CBB-219
RHRSM Loop h ContairmentFlooding Supply to RHRLoop h
RHRSM Loop B ContainaentFlooding Supply to RHR
Loop B
No
No
N/h HV-2F073h (N.C.)HV"2F075A (N.C.)
N/h HV-2F073B (N.C.) IIHV-2F075B (N.C.)
H-2112
M-2112
RHR System operates at e higherpressure. Therefore, no flowdiversion wiil occur.
RHR System operates at a higherpressure. Therefore, no flowdiversion will occur.
2" HRC-214
4" HRC-214
2" HRC-214
4u HRC-214
1" Lines andSasller
Deain Mater Makeup
Pressure Relief
Deain Mater Makeup
Pressure Relief
Various Vent andDrain Lines
No
No
No
No
IF122h
PSV-21212A
1F122B
PS V-21212B
See Reasrks
N/A
N/A
N/h
N/h
N/A
H-2112
H-2112
M-2112
M-2112
N/h M-2112
Normally closed manual valve.
Hechanical valve opens only onoverpressure.
Normally closed aanual valve.
Mechanical valve opens onlyon overpressure.
These lines sre too small topose any significant flowdiversion path. In addition,these lines are usuallyprotected with single or doublelocked closed manual valves.
dk/tbd425i
II. UNIT 02
H. Su ression Pool Monitors
Floe Diversion Paths Unit 2
Sheet 1 of 1
SE -8- NA'=016 ReV. 3 PsSe R«47
Pag8~qg.
Flm Path Description
PotentialFlow
Diversion
Component(s)that
PreventsFlow
Diversion
Component1/Potential
for FlowDiversion References Remarks
6" Line HBB-211 Suppression Pool ClearmpPuap Line
N/A M-2157 Sh. 1 hn analysis hss been performed toHV-25766 (N.C ) ensure that both valves can not openHV-2576S (N.C.) spuriously.
dk/tbd426i
II. VNIT S2Sheet 1 of 1
I. CRD S stea
Flow Diversion Paths Unit 2)
Flow Path Description
PotentialFlow
Diversion
Coaponent(s)that
PreventsFlow
Diversion
ConponentM/Potentialfor FlowDiversion Division References Reaarks
1/2" DCD Charging Mater Header No N/A N/h N"147 Check valve ll5 restrictsflow. (Typical, for 185valves)
1/2" DCD Cooling Mater Header 138 N/h N/h N-147 Check valve 138 restrictsflow. (Typical for 185valves)
SV-121)SV-122~SV-123) &SV-124
1" DCB
Rod Insert & MithdrawalValves
Serai Discharge VoluneVent & Drain Lines
NoSee Reaarks
N/A
See Rensrks
N/h
N/A
N/h
N/A
N-147
N-147
Spurious opening of one ofthese valves can causerod(s) insertion butcannot prevent it andcannot cause rod withdrawal.
Xhese lines are protectedby double locked closedaanual valves. (Typicalof 20 Lines)
dk/tbd427i
12. UNIT 22
J. Hain Stcam Isolation Valves
Flow Diversion Paths Unit 2
Sheet 1 of 1
SE -8-MA=616 R'ev. 5Page~~s.
Flow Path Description
PotentialFlow
Diversion
Caaponent(s)that
PreventsFlow
Diversion
ComponentM/Potentialfor FlowDiversion Division References
3''DBh-288 HSL Bypass to Condenser Ycs HV"2F016HV-2F019
H/h H-2141 Spurious signal due to fire villonly open one valve. Paths areprotected.
dk/ tbd428i
IZ. ISIT t2
K. Reactor Vessel L.O.C.
Flow Diversion Paths Unit 2)
SE -B- N A=016 Rev. 3
Sheet 1 of 8
Page~re<
Flow Path Description
Coeponent thatPotential Prevents L.O.C.
L.O.C. frca R.P.V. free R.P.V.
Ccaponent M Potentialfor L.O.C. from
R.P,V. Division References
H4D,E,F - Feedwater SupplyLines (12" DLA-202 to 24"DlA-202)
H4A,B,C - Feedwater SupplyLines (12" DLA-204 to 24"DLA-204)
No
2F010A
2FOlOB
N/A
N/A
H/A
H/h
H-2141
H-2141
3 Feedwater branch outlets tieinto a single supply headerwith a check valve to restrictbackflow ftea RFf,
3 Feedwater branch outlets tieinto a single supply headerwith a check valve to restrictbackflow frola RPV.
N3h - Hain Steaa Line'A'26"
G001)No
See ReaarksH/A PSV-2F013A,
CsEsOiSi(Solenoid Valves
SV"24113A, C, E, & S,respectively)
H-2141
No BV-2F022A (H.O.)(Solenoid valvesSV-24123hl~h2
N/A H-2141 HSIV closure is being assured
IZ. UllIT 02
K. Reactor Vessel L.O.C.
Flov Diversion Paths Unit 2
SE -B- g A~6 1 6 Rev. 3
Sheet 2 of 8
Page+I of 47
Page leFloe Path Description
PotentialL.O.C. fry R.P.V.
Coeponent thatPrevents L.O.C.
froa R.P.V.
Coeponent M Potentialfor L.O.C. from
R.P.V. Division References Pcaarts
N3A - Hain Steta Line'h'ypass(2" DBA-208 to 3"
DBA-208)
N/h NV-2F016 (N.O.)BV-2F019 (N.O.)
III H-2141 Closuro of one valve is beingensured
N3B - Hain Stem Line 'B"(26" GOOI)
NoSee Reaarks
N/A PSV-2F013P,H,&J (N.C.) II H-2141 Spurious openings are beingprotected against.
N3B - Hain Steaa Line'B'ypass(2" DBA-209 to 3"
DBA-208)
No
Yes
NV-2F022B (N.O.)(Solenoid ValveSV-2412381I B2)
N/A
N/A
See Reaarks
I ~ H-2141
I/II H-2141 See valves as N3h - Hain StemLine 'h'ypass.
jl. UNI? 41
K. Reactor Vessel L.O.C.
Plow Diversion Paths Unit 2
SE =8. N Aco > 6 ReV. 3 Sheet 3 of e
Page goof 47
Page~we
Plow Path Description
Component that Component N PotentialPotential Prevents L.O.C. for L.O.C. from
L.O.C. fry R.P.V. from R.P.V. R.P.V. Division References Remarks
N3B - HPCI Steam SupplyLine (10" DBA-202)
No HV-2P002 (N.C.) N/h - H-2155 &M-2141
The HV-2F001 valve is (N.C.) andis in series with the HPCITurbine Stop and Governor valves.These can not open unless huxOil Pump oil supplied. An analyshas been done to ensure thatHV-2F001 can not spuriously openand the hue Oil Pump spuriouslystart due to the same fire.
N3C - Hain Steam Line'C'26"
0001)N/h PSV-2F013B,L&R (N.C.) H-2141 Spurious openings will be
protected against.
N3C - RCIC Steam Supply Line(4n DBA-105)
HV-2P022C (N.O.)(Solenoid ValvesSV"24123C1,C2)
HV-2P045 (N.C.)
N/A
N/h
H-2141 MSIV closure is being ensured
M-2150
N3C - Hain Steam Line'C'ypass(2" DBA-210 to 3"
DBA-208)
Yes N/A See Remarks I/Ii H-2141 Same valves as N3h - Main SteamLine 'h'ypass.
'L
UNIT 02
K. Reactor Vessel L.O.C.
SE B NA 016 Rey g Sheet 4 of 8
Flov Diversion Paths Unit 2
Flew Path Description
Component thatPotential Prevents L.O.C.
L.O.C. fry R.P.V. from R.P.V.
Component N Potentialfor L.O.C. from
R.P.V. Division References
Page +Jof 47
Psfs~iv5'3D
- Hain Steam Line'D'26"
COOl)
N3D - Hain Stem Line'D'ypass(2" DBA-211 to 3"
DBA-208)
NSA - Core Spray SystemIn)ection Line A (12"DCA-202)
NSB " Core Spray SystemIn)ection Line B (12"DCA-201)
N7 - Reactor Vent to DryvellBquip. Drain Tank (2" DBA-212)
Yes
N/A
(Solenoid ValvesSV-14123Dl>D2)
N/A
HV-2F006A (N.C.)
HV-2F006B (N.Ce)
HV-2F001 (N.C.)HV-2F002 (N.C.)
PSV-2F013D,F,H (N.C.)
See Remarks
N/A
N/A
N/A
M-2141 Spurious openings «il1 be. protected, against.
I/II M-2141 Same valves ss N3A - Main SteamLine 'A'ypass.
H-2141 & Check valve restricts fleetM-2152 from RPV.
M-2141 6 Check valve restricts fleetH-2152 frco RPV.
H-2141 Spurious openings are beingprotected against.
0
Ij. UNIT 42K. Reactor Vssael L.O.C.
Plow Diversion Paths Unit 2
$ E -B- N A=0 1 6 RBV. 3 Sheet 5 of c
Page+I of 47
Page ~iq>
Flow Path DescriptionPotential
L.O.C. free R.P.V.
Component thetPrevents L.O.C.
fram R.P.V.
Cocnponent M Potentialfor L.O.C. from
R.P.V. Division References
N7 - To Nuclear BoilerInstrumentation (2"DBA-212 to 1" DCA-245)
XV-2F041 N/h N/h M-2141 & Excess flow check valveM-2142 Sh.l restricts flow froa RPV.
N9 - Capped Connection
N6A - Flsnged Connection
Capped 4"Noxxlc
6" HatingFlangeConnection
N/A
N/A
N/A
N/A
H-2141 No. L.O.C. possible.
H-2141 No. L.O.C. possible.
N6B - RHR Reactor Head Spray(6" DGl-211)
2F019 N/A N/A H-2141 & Check valve restricts backflowH-2151 Sh.l from RPV,
N13 - RPV Instrument Line(1" DCA-201)
XV-2F0092-41&14 62-41-015
N/A N/h H-2141 Excess flow check valve enddouble locked closed manualvalves restrict flow froa RPV.
Nl0 - Instrument Sensing Line(1" DCA-239)
N10 - Instrument Sensing Line(1" DCA-235)
N10 - Instrument Sensing Line(1" DCA 235)
N10 - Standby Liquid ControlSystem Line (1-1/2" DCA-206)
N12A - Instrument Sensing Line(1" DBA-218)
No
No
No
XV-2F061
XV-2F057
XV-2P055
CV-2F007
XV-2F043h
N/A
N/h*
N/h
N/A
N/h M-2142 Sh.l Excess flow check valverestricts flow froa RPV.
N/A M-2142 Sh.l Excess flow check valverestricts flow froa PRV.
N/h M-2142 Sh.l Excess fIow check valverestricts flow from RPV.
N/h H-2142 Sh.l Check valve restricts backflow& H-2IAS from RPV.
N/A H-2142 Sh.l Excess flow check valverestricts flow from RPV.
11. UNIT s2
K. Reactor Vessel L.O.C.
Flow Diversion Paths Unit 2
SE -8- NA"-016 ReV. 3 Sh~et 6 of.Page+/of 47
Page~tea'low
Path Description
Ccciponent that Caoponent N PotentialPotential Prevents L.O.C. for L.O.C. frow
L.Q.C. fry R.P.V. froa R.P.V. R.P.V. Division References
N12B - Inatruaent Sensing Line(1" DBA-218)
Nllh - Instrument Sensing Line(ln DCA 238)
NllB» Instnment Sensing Line(1" DCA-238)
Nl6A - Instruaent Sensing Line(1" DCA-240)
N16B - Inatruaent Sensing Line(2" DCA-240)
NSA - Inatneent Sensing Linea(1" DCA-244) (Typ. 4 Linea)(lw DCA-326) (Type 2 Lines)(1" DCA-236) (Typ. 2 Linea)
N8B - Inatrunent Sensing Linea(3/4" DCA-244) (Typ. 15 Linea)
(3/4" DCA-244)
N2A B C D,E ~- Loop A
Recirculation Disch. Lines(12" G001 to 28" G001 to24" Ml-210) to RHR
No
No
NoNoNo
No
No
XV-2FO43B
XV-2F047A
XV-2F047B
XV-2F045A
XV-2F045B
XV-2F053h, B,C,DXV-2F051C~ DXV-2F05lh~B
XV 2F059h>B jC~D,E,F,G,H,L,M,P,R,S,T,U
XV-2F059N
HV-2FOSOB
N/A
N/A
N/A
N/h
N/A
N/AN/hN/A
N/A
N/A
N/h
N/h H-2142 Sh. 1 Excess flow check valverestricts flow froa RPV.
N/h H-2l42 Sh. 1 Excess flow check valverestricts flow froa RPV.
N/h H-2142 Sh. 1 Excess flow check valverestricts flow frca RPV.
N/h M-2142 Sh. 1 Excess flow check valverestricts flow froa RPV.
N/h H-2142 Sh. 1 Excess flow check valverestricts flow froa RPV.
N/A H-2142 Shi 1 Excess flow check valveN/h H-2142 Sh. 1 restricts flow froa RPV.N/A H-2142 Sh. 1
N/h M-2142 Sh. 1 Excess flow check valverestricts flow froa RPV.
N/h H-2142 Sh. 1 Excess flow check valverestricts flow froa RPV.
II H-2143 6 Check Valve Restricts Flow.H-2151 Shi 2
-
Il. Uott oo
K. Reactor Vessel L.O.C.
Pleat Diversion Paths Unit 2
8 N A</ $'
Rey 3Sheet 7 of 8
Page Ihof 47
Page~l4 194
Flow Path Description
Coaponent thatPotential Prevents L.O.C.
LoOoCo jA% RoPoV ~ fred RoPoVo
Ccaponent I Potentialfor L.O.C. froa
R.P.V. Division References ReNarks
H2F,G,H,J,L - Loop hRecirculation Disch. Linea(12" 0001 to 28" G001 to24" DCA-210) to RHR
N1B - Loop B RecirculationSuction Line (28n G001 to20n DCA-208) to RHR
H1B - Loop B RecirculationSuction Line (28n C001 to4n DCA-202 to 6n DBA 201)to NCU
Nlh - Loop A RecirculationSuction Line (28n C001 to4n DCA 202 to 6n DBA 201to RQCU
HV-2POSOA
HV-2F009 (H.C.)HV-2F008 (H.C.)
H/h
N/A
N/AN/h
HV-2F001 (H.O.)HV-2P004 (NoO.)
HV-2F001 (N.O.)HV-2F004 (H.O.)
I H-2143 & Check Valve Restricts Plow.H-2152 Sh. 1
I H-2143 & The ability to close oneII H-2151 Sh 2 valve is assured.
H-2144 The ability to close onevalve is ensured,
I H-2143 & See N1B - Lcop B RecirculationII H-2144 Suction l.ine hbove.
H15 - l5CU Line froa RPV(4n DCA-203 to 6n DBA-201)
H15 - Instruaent Sensing Linefroe SCU (ln DCA-203)
H/A
XV-2F046
HV-2P001 (H.O.)HV-2F004 (H.O.)
N/A N/A
H-2144
H-2144
See N1B» Loop B RecirculationSuction Line Above.
Excess flow check valverestricts flow fras RPV.
-
IZ. IlllITt2
K. Reactor Vessel L.O.C.
Flow Diversion Paths Unit 2
S~ -~- N A'1 6 Bey. 3 Sheet 8 of 8
Page 47of 47
Page~~ .
Flow Path DescriptionPo tent ial
L.O.C. frca R.P.V.
Coaponent that Coeponent M PotentialPrevents L.O.C. for L.O.C. frees
froe R.P.V. R.P V. Division References
CRD gxhaust Mater Header1/2u DCD) (Typ. of 185)
N/A SV-120 (ND)SV-121 (ND)SV-122 (ND)SV-123 (ND)
N/A H-2147 Xhese valves are typical for185 CRD.
.Scree Discharge Volume DrainLine (2" DCB)
Scraa Discharge Voluae Drain(1" DCB)
Scraa Inlet Line (1/2" DCD)
Drive Mater Header (1/2" DCD)
SV"2F009(IV-2P011l FC)
SV-2P009(IV-2P010l FC)
CV-115
CV-137
N/A
N/A
N/A
N/h
N/A
N/A
H-2147 Valves close on scree andprevent a L.O.C. inventory.
H-2147 Valves close on screw andprevent a L.O.C. inventory.
H-2147 Check valve restricts L.O.C.flow path.
H«2147 Check valve restricts L.O.C.flow path.
dk/tbd429i
-SF "B- N A=V I'R pt.y g
Page~ vs
I II. COMMON-FLOW DIVERSION
A. EMERGENCY SERVICE WATER SYSTEM
tm/h1001:nas
III. C08%e
h. Eaer enc Service Heter S etea
Flow Diversion Paths Cceaon
Sneet 1 of 1
SE -B- NA'=-Ul'6 ReV. 3 P~e f of
Page~
Plow Path Description
PotentialFlow
Diversion
Caaponcnt(e)that
PreventsFlow
Diversion
Coarpo nantH/Potential
for FlowDiversion References
Line 10'%C-110 ESM Supply Line (Loop 8) toto 2%RC-110 Puel Storage Pool
Line l0%RC-10S ESM Supply Linc (Loop h) toto 2%RC-10S Fuel Storage Pool
No
Valve 1-53-501
Valve 1-53-09lh
N/h
H/h
M-111 Sh. 2~M-153) IDCHM-153-I4 Sh,Rcv. 20
M-ill Sh. 2~M"153
Unit 2 ie siniler except that Line No.is 10"HRC-208 and Valve No. is 2-53-091h.
Lines 1-inch and Saaller See Renerke H/h M-illSh. 1& 2
hll lines 1-inch end eaeller are isolatedby noraelly closed aanually operatedvalves or at instruaents, Xhe HSH Systeleeheres piping with the RHRSM Syetea. Backflow into the RHRSM Syetea is prevented bycheck valves.
dk/tbd419i
~ ~
SE ~-NA~VE'6 Re>
Page~(~-
APPENDIX R - SAFE SHUTDOWN
COMPONENT LIST
APPENDIX E
Non-Fire Unit Shutdown Components( In addition to those on Paths 1 or 3)
Unit 1
A. RCIC and non-electrical support componentsB. HPCI.and non-electrical support components
Unit 2
A. RCIC and non-electrical support componentsB. HPCI and non-electrical support components
tm/h100i: nas
II'EACXua COOIhNT HAKEUP
h. RCIC S stem Non-Fire Unit
Re uired C onents (Unit 1
>neet 1 of 7
SE -8- NA=O16 Rev. 3
PBgB~!9
Coaponent Description References
Safe ShutdownPath(s)
'equiring
ComponentFireZone Remarks
Division IHV-E51"IF007
BV-E-51-1F008
NV-E51-1F010
BV-E51-1F012
BV-E51-1F013
HV-E51-1F022
BV-E51-1F031
BV-E51-1F059
BV-E51-1F060
BV-E51-1F062
BV-E51-1F084
FV-E51-1F019
Stem Supply Line (containaentisolation valve)
Stem Supply Line (containmentisolation valve)
Pump Suction Valve froa CondensateTank
Pump Discharge Valve to Reactor
Pump Discharge Valve to Reactor
Test Bypass Valve to CondensateStorage Tank via BPCI
Pump Suction from Suppression Pool(containaent isolation valve)
Turbine Exhaust to Suppression Pool(contaltaent isolation valve)
Vscuua Pump Discharge to SuppressionPool (contairaent isolation valve)
Vacuua Relief Line (containmentisolation valve)
Vacuum Relief Line (containmentisolation valve)
Hiniaua Flow Valve to Suppression
H-149
H-149
H-149
H-149
H-149
H-149
H-149
H-149
H-149
H-149
H-149
H-149
N/h
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/h
N/A
N/A
N/A
1-4F This valve is powered froa Division II
1-3C-M
1-lD
1-28
1-40
1-2$
1-1D
1-ID
1-1D
1-1D
1-ID This valve is powered from Division II
1-1D
i/h10li:nas
II. REACTOR COOIANT MAKEUP
h. RCIC S stem Hon-Pire Unit
Re uired C nents Unit 1
'\
Sheet 2 of 7
SE -B- N A=O16 Rev,,3
Page~
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
HV-B21-IFOIIA
HV-15012
HV-E51-IP045
HV-E51-IF046
FV-150l3
FT-E51-1H003
PSH-E51-1N009h
PSH-E51-IN009$
PSL-E51-1N006
PSH-E51-1N012h
PSH-E51-1H012B
PSH-E51-1N012C
PSH-E51-1N012D
1P-203
1S-212
EY"E51-IK601
Q-E51-IK603
a/hlOlitnas
Feedwater h Stop Valve
Turbine Stop Valve
Steam Supply Line (turbine isolationvalve)
Lube Oil Cooling Mater Valve
'carbine Throttle Valve
RCIC Pump Discharge Plow Trans.XO PY-IK601
Hi Turb. Exh. Press. Turbine Trip
Hi Turb. Exh. Press. Turbine Trip
Low Pump Suction Press. Turbine Trip
Hi Turbine Exhaust Press. (Isolation)
Hi. Turbine Exhaust Press. (Isolation)
Hi Turbine Exhaust Press. (Isolation)
Hi Turbine Exhaust Press. (Isolation)
RCIC Pump
RCIC Pump Turbine
RCIC Pump Discharge Plow Transducerto PC 1R600
Inverter
H-141
H-150
H-150
H-150
H-150
H-149
H"150
H-150
H"150
H-150
M-150
H-150
M-150
H-150
H-150
M-149
M-149
H/h
N/A
N/h
N/A
Nlh
N/h
N/A
NIA
N/A
N/A
Nlh
N/A'/A
N/h
H/h
N/h
N/h
1-4P
1-1D
1-1D
1-1D
l-lD
1-1D
l-lD1-1D
1-1D
1-1D
1-28
1-1D
1-2B
1-1D
1-1D
0-26H
0 "268
Turbine Driven Hechsnical Component
Steam Drive Mechanical Component
II. REILCIQR COOLANT HAKEUP
h. RCIC S stem Hon-Fire Unit
R uired C onents Unit 1
Sheet 3 of 7
~ - - N A=0 1 6 Ray. 3 Page 7 of 23I
Page~~-
Component Description References
Safe ShutdownPath(s)
RequiringCanponent
PireZone Remarks
FC-E51-1R600
ES-E51-IK600
FI-E51-1R600-1
TE-E51-lN027B
TOSH-E51-1N604B
IK-E51-1H026B
Q-E51-IH602B
TSH-E51-IN02SB
TSH-E51-1N603B
D-E51-18603 B
TE-E51-1N027h
RCIC Flow Controller from FY-1X601
Power Supply
RCIC Pump Discharge Plow Indicatorfrom FC-1R600
Pipe brea Vent Air Exhaust Temp.(Isolation)
Temperature Differential Switch
Pipe brea Vent hir Supply Temp.(Isolation)
Timer
Pipe brea Ambient Temp.(Isolation)
Temperature Switch
Timer
Pipe brea Vent hir Exhaust Temp.(Isolation)
H-149
H-149
H-149
H-150
H-150
H-150
H-150
H-150
H-150
H-150
H-150
N/A
N/A
N/h
N/h
N/h
N/A
N/h
N/h
N/A
N/h
N/h
0-26H
0-26H
0-26H
1-3C-S Division II Component
0-26H Division II Component
1-3C-S Division II Component
0-26H Division II Component
1-3C-N Division II Component
0-26H Division II Component
0-26H Division II Component
1-3C-N
KY-E51"IM602h
TSH-E51-1N603A
Timer
Temperature Switch
TOSH-E51-1N604h Temperature Differential Switch H-150
H-150
H-150
N/A
N/h
N/h
0-26H
0-26H
0-26H
II. REACTOR COOLANT SOKUP
A. RCIC S stem (Non-Fire Unit
Re uired C nents Unit 1
Sheet 4 of 7
SE -B- N A=01 6 Rev, 3
r"age~
Component Description References
Safe ShutdownPath(e)
RequiringCanponent
FireZone Remarks
IE-E51-IN026h
KY-E51-IM603h
IE-E51-IN011B
TSH"E51-IN600B
IE-E51-IN021B
Pipe brea Vent htr Supply Temp.(Isolation)
Timer
M-150
M-150
Temperature Switch
RCIC Area Vent Air Supply Temp.(Isolation)
M-150
M-150
Turbine Room Ambient Temp. (Isolation) M-150
N/A
N/A
N/h
N/A
H/A
1-3C-N
0-26H
l-lD Division II Component
1-lD Division Il Component
0-26H Division II Component
IDSH-E51-IN601$
TE-E51-IN022B
TSH-E51-lN602B
IE-E51-IN023B
TE-E51-1801IA
TSH-E51"1H600h
IE-E51-IN02lh
TDSH-E51-1N60lh
TE-E51-IN022A
Temperature Differential Switch
RCIC brea Vent hir Exhaust Temp(Isolation)
Temperature Switch
RCIC Emergency brea Cooler. Inlet Temp.(Isolation)
Turbine Room Ambient Temp.(Isolation)
Temperature Switch
RCIC brea Vent hir Supply Temp.(Isolation)
Temperature Differential Switch
RCIC Ares Vent Air Exhaust Temp.(Isolation)
M-150
M-150
M-150
M-150
M-150
M-150
M-150
M-150
M-150 ~
N/A
N/A
N/h
N/A
N/A
N/A
N/A
N/A
N/h
0-26H Division II Component
1-1D Division II Canponent
0-26H Division II Component
1-1D Division II Canponent
1-1D
0-26H
1-1D
0-26H
1-1D
n/hl01i:nas
II. REACTOR COOLANT MAKEUP
A. RCIC S stem (Non-Fire Unit
Re uired Com onents Unit 1
R NA-0)6 Rev.3
Sheet 5 of 7
Page~i~
Camponent Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
TE.E51-1N025h
TE"E51-1N023h
Pipe brea Ambient Temp.(Isolation)
RCIC Emergency brea Cooler InletTemp. (Isolation)
H-150
H-150
N/h
N/h 1-ID
TSH-E51-1N602A
PDIS-E51-18017
Temperature Svitch
Hi Stean Line Flow Isolation
PDIS-E51-1N018 Hi Steam Line Flov Isolation
PSL-E51-1N019A 'Rx Lov Press. Isolhtion
PSL-E51-IN019C Rx Lov Press. Isolation
PSL-E51-IN019B Rx Lov Press. Isolation
PSL-E51-1N019D Rx Lov Press. Isolation
PSH-E51-1N020 Miniaaa Flow Pressure Svitch
FISHL-E51-1N002 Hinisaa Flow Switch
LSL-E51-1N035h CST Lov Level Suction Transfer
LSL-E51-1N035E CST Lov Level Suction Transfer
M-150
9M-149FF-129010 Sh. 9003
H-149FF-129010 Sh. 9003
H-149FF-129010 Sh. 9003
M-149FF-129010 She 9003
H-149FF-129010 Sh. 9004
M-149FF-129010 Sh. 9004
H-149FF-129010 Sh. 9004
H-149FF-129010 Sh. 9004
FF-129010 Sh. 9004
FF-129010 Sh, 9004
N/A
N/A
N/h
N/A
N/A
N/A
N/h
N/A
N/h
N/A
N/h
0-26H
1-4h-S
1-4h-'N Division II Component
1-4h-S
1-4A-S
1-4h-N Division II Component
1-4h-N Division II Component
1-ID
l-1D
Outside Areas
Outside Areas
~/hlOli:nas
II. REACunt COOLANT MAKEUP
A. RCIC S stem (Hon-Fire Unit
R uired Coa nents (Unit l
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
1P-219
1P 220
FY-14903
FY-14903A
ES-14903
FIC-14903
PS-Ell-1NOIOA
PS-Ell-IHOIOB
PS-E11-1HOIOC
PS-Ell-lN010D
Barometric Condenser Vacuum Pump
Vacuum Tank Condensate Pump
Flow Transducer
Fiow Transducer
Power Supply
RCIC System Flow Indicator
Hi Primary Containment PressureSwitch
Hi Primary Containment PressureSwitch
Hi Primry Containment PressureSwitch
Hi Primary Containment PressureSwitch
M-150HSS-129028, She 1 & 2
M-150HSS-14902A, Sh. 1 & 2
M-149J-498, Sh. 2
M-149J-498, Sh. 2
M-149J-498> Sh. 2
M-150HSS-14901A> Sh. 1
M-151, Sh. 1
M-151, Sh. 2
M-151, Sh. 1
M-151, Sh. 2
H/A
H/A
H/A
N/A
NIA
N/A
H/A
N/A .
N/A
N/A
1-1D
1"1D
1-2D
1-2D
1-2D
1-2D
1-6D
1-6A
1-6D
1-6A
These components are interlock components.
ll I>
RCIC-1-I-Control RCIC Div. I Auto Actuation Logic
lV208A RCIC Pump Room (1-12) Unit Cooler A
RCIC-1-II-Control RCIC Div. II Auto Actuation Logic
Ml-'E51-90
Ml-E51-90
M-176
N/A
N/A
N/A
Various SEE SEA-EE-049Pseudo Component
Various
1-1D
~/hlOli:nss
II. REAC>uR COOLANT HAKEUP
A. RCIC S stem Non-Pire Unit
Re uired Coe onents (Unit I
SE -B- MA=01'6 Rev. 3Page 7 of 23 ~
Page~
Ccaponent Description References
Safe ShutdownPath(s)
RequiringCoeponent
PireZone Remarks
1V208B
TSH-17661A
TSH-176618
RCIC Puap Roce (1-12) Unit Cooler B
Tesperature Switch for lV208A
Taeperature Switch for 1V208B
H-176
VC-176) V-1?6 Sh. 8
VC-176) V-176 Sh. 8
N/A
N/A
N/A
1-1D
1-1D
1-1D
e/hlOlisnas
II. REACxug COOLANT MAKEUP (Non-Fire Unit)
B. ~HPC1 S stem
R uired Cm nents Unit 1)
~". -B- N A=V I'6 Rev. 3 'age 8 nf 23
Paga~
Component Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
Division IIHV-E41-IF002
HV-E41-1FO03
HV-E41-IF001
HV-E41-1F006
HV-E41-IF007
HV-E41-1F012
HPCI Inboard Stem Supply LineIsolation Valve
HPCI Outboard Stem Supply LineIsolation Valve
HPCI Steam Supply Valve to Turbine
HPCI Pump Discharge Valve
HPCI Pump Discharge Valve
HPCI Minima Flov Bypass Valve toSuppression Pool
M-155
M-155
M-155
M-155
M-155
M-155
N/A
N/A
N/A
N/h
N/h
N/h
1-4H
1-3C-W
l-lc1-4G
1-2B
1-1C
Powered from Divi.sion I
HV-E41-1F079
HV-E41-1FO66
HV-E41-li075
HV E41-1F004
HV-E41-1FOOS
HV-E41-IF042
HV-E41-1F059
HPCI Turb. Exh. Vacuum Bkr. Inbd.Valve
HPCI Turb. Exhaust Valve to SuppressionPool
HPCI Turb. Exh. Vacuum Bkr. OutM.Valve
HPCI Pump Suction Valve fromCondensate Storage Tank
HPCI Test Bypass Valve to CondensateStorage Tank
HPCI Pump Suction Valve FramSuppression Pool
HPCI Lube Oil Cooling Water SupplyValve
M-155
M-155
M-155
M-155
M-155
M-155
M-156
N/A
N/h
N/A
N/h
NIA
N/A
N/h
1-1C Powered from Division I
1-1C
1"1C
1-1C
1-2B
1-1C
1-1C
tm/hl02i:nas
II. REACXOR COOLANT MAKEUP (Non-Fire Unit)
B .~BPCI S eten
R uired C onents Unit 1)
Sheet 2 of 6
Page ~igComponent Description References
Safe ShutdownPat (s)
RequiringComponent
FireZone Remarks
HV B21-1F011B
FV 15611
FV-15612
SV-15661
IS-211
IP-204
IP-209
1P-213
PSH-E41-1N027
Feedwater B Stop Valve
HPCI Turbine Control Valve (IncludingGovernor Unit)
HPCI Turbine Stop Valve
Turbine Trip Solenoid
HPCI Pump Turbine
HPCI Pump
HPCI Booster Peap
HPCI Turbine Auxiliary Oil Pump
Instrumentation
Minimum Flow Discharge PressureSwitch
H-141
H-156
H-156
H-156
H-156
H-156
H-156
M-156
M-155
N/A
N/A
N/A
N/A
N/A
N/A
N/h
N/A
N/h
1-4F
1"1C
1-1C
1 lcl-lc
l-lc
1-1C
1-1C
1"1B
This is for spurious closure only.
Steam Driven MechanicalComponent
Turbine Driven MechanicalComponent
Turbine Driven HechanicalComponent
FT-E41-IN008
PSH-E41-INOllh
PSL-E41-1N010
Hi Exhaust Press. Turb. Trip
HPCI Pump Suction Low Press. TurbineTrip
HPCI Pump Discharge Flow TransmitterFI-1R600-1
PSH-E41-INOllB Hi Exhaust Press. Turb. Trip
H-155
H-156
M-156
M-156
N/h
N/A
N/h
N/A
1-1B
1-1B
1-1B
1"1B
PSH-E41-1N012A Hi (Rupture Diaphragm) Exhaust Press.Isolation
H-156 N/h 1-1C Di.vision I Component
tm/hl02isnas
II. RELY c( COOLANT HAKEUP (Non-Fire Unit)
B. ~HPCI S stea
R uired C onents Unit 1)
Sneet 3 of 6
SE -B-MA=II'6 Rev. 3 'p.„ie.~23
Component Description References
Safe ShutdownPath(s)
RequitingComponent
FireZone Remarks
PSH-E41 INOIZB
PSH-E41-IN012C
PSH-E41-1N012D
PDIS-E41-I N004
PDIS-E41-IN005
Hi (Rupture Diaphragm) Exhaust Press.Isolation
Hi (Rupture Diaphragm) Exhaust Press.Isolation
Hi (Rupture Diaphragm) Exhaust Press.Isolation
Hi Steam Line Flow Switch
Hi Steam Line Flow Switch
H-156
H-156
H-156
H-155FF-127250, Sh. 6905
H-155FF-127250, Sh. 6905
N/h
N/h
N/A
N/h
N/h
1-1B
1-1C Division I Component
1-1B
1-3B-N Division I Component
1-3B-N
PSL-E41" 1NOOlh Low Steam Press. Switch
PSL-E41-1N001C Low Steam Press. Switch
PSL-E41-1N001B Low Steam Press. Switch
M-155FF-127250, Sh. 6905
H-155FF-127250, She 6905
H-155FF-127250, Sh. 6904
N/h
N/A
N/A
1-3B-N Division I CanponentI
1-3B-N Division I Component
1-3B-N
PSL-E41-IN001D
FSHL-E41-1N006
LSLL-E41-1N002
LSLL-E41-1N003
LSH-E41-1NOI5h
Low Steam Press. Switch
Minimum Flow Switch
CST Low Level Suction Transfer
CST Low Level Suction Transfer
Hi Suppression Pool SuctionTransfer
M-155FF-127250, She 6904
H-155FF-127250e Sb 6904
H-108FF-127250e Shi 6904
H-108FF-127250, Sh. 6904
H"155FF-127250, Sh. 6904
N/A
N/A
N/h
N/A
N/A
1-3B-N
1-1B
Outside Areas
Outside Areas
1-2A
tm/h102i:nas
II. REht:IOR COOIANT MAKEUP (Non-Fire Unit)B. H~HCI S etaa
Re uired Ccm onents (Unit 1)
SE -B- N A=5 I'6 Rev. 3Page j( of 23
Page~a
Ccoponent Description References
Sa e utdownPath(s)
RequiringComponent
FireZone Remarks
LSH-E41-1%15 B
K-E41-I%24B
TE-E41-1N028B
'IK-E41-1%298
TE-E41-1%308
TSH-E41-lN600B
Hi Suppression Pool SuctionTransfer
Turbine Room Ambfent Temp.Isolation
Vent hir Supply Temp. Isolation
Vent Air Exheust Temp. Isolation
Emergency brea Cooler Inlet Temp.Isolation
Temperature Switch
H-156FF-127250, Sh. 6904
H-156
H-156
H-156
H-156
M-156FF-114510, Sh. 9802
N/h
N/A
N/A
N/h
N/A
N/A
1-2h
1-1C
1-1C
1-2B
l-lc
0-26H
IMH-E41-IN601B Temperature Df.fferential Switch
TSH-E41-lN602B Temperature Switch
TSH-E51-IN603D Temperature Switch
TDSH"E51-1N604D Temperature Differential Switch
M-156FF-114510$ Sh. 9802
M-156FF-114510~ Sh. 9802
H-150
H-150FF-114510, Sh. 9806
N/h
N/A
N/A
0-26H
0-26H
0-26H
0-26H
XE-E51 1$ 25D
IE-E51-1%26D
XE-E51-1%27D
IK-E41 1N024h
tm/hl02i:nas
Tempera ture Element
Temperature Element
Temperature Element
Turbine Room Ambient Temp.Isolation
H-150FF-114510~ Sh. 9806
H-150FF-114510, Sh, 9806
H-150FF-114510, Sh. 9806
M-156
N/h
N/A
N/A
N/A
1-3C-N
1-3C-N
1-3C-N
1-1C Division I Component
II. REACTOR COOLhHT MAKEUP (Non-Fire Unit)
B. ~HPCI S etaa
Re uired Com onents Unit 1)
I Sheet 5 of 6SE -B- N A=0 1'6 Rev. 3
Page Q of 23
Page~
Caaponent Description References
Safe ShutdownPath(s)
RequiringComponent
FireZone Remarks
XE-E41-lN028h
TE-E41-1N029h
IE-E41-IN030h
TSH-E41-lN600h
Vent Air Supply Temp. Isolation
Vent Air Exhaust Temp. Isolation
Emergency brea Cooler Inlet Temp.Isolation
Temperature Switch
H-156
H-156
H-156
H-156FF-114510, Sh. 9802
N/h
N/A
N/h
N/A
1-1C
1-28
1-1C
Division I Component
Division I Component
Division I Component
0-26H Division I Component
TSH.E41-1N602A Temperature Switch
TSH-E51-1N603C Temperature Switch
XDSH-E51-18604C Temperature Differential Switch
TDSH-E41-lN60lh Temperature Differential Switch H-156FF-114510, Sh. 9802
H-156FF-114510~ Sh. 9802
H-150'F-114510~ Sh. 9802
H 150FF-11451Q~ Sh 98Q2
N/A
N/A
N/A
N/h
0-26H Division I Component
0-26H Division I Component
0-26H Division I Component
0-26H Division I Component
XE-E51-1N025C
TE-E51-1N026C
XE-E51-1N027C
FI-E41-IR600-1
FY-E41-IK601
FC-E41-1R600
Temperature Element
Temperature Element
Temperature Element
Flow Indicator from FT-lNQQB
HPCI Pump Discharge FlowTransducer from FT-1NOQB
HPCI Flow Controller from EY-IK601
H-150FF-114510~ Sh. 9806
H-150FF-114510, Sh. 9806
H-150FF-114510, Sh. 9806
M-155
M-155
M-155
N/h
N/A
N/A
N/A
N/h
N/h
1-1C Division I Component
1-3C-N Division I Component
1-3C-N Division I Component
0-26H
0-26H
0-26H
tm/hl02i:nss
II. REACTOR COOLANT HAKEUP (Non-Fire Unit)
B. ~HPCI S ates
Re uired C onenta (Unit 1)
SE -8- N A=0 I'6 Rev. 3Page l3 of 23
Page~
Coeponent Description References
Safe ShutdownPath(s)
RequiringCcaponent
FireZone Remarks
DC/AC-E41-IK603
ES-E41-1K600
Inverter
Power Supply
HPCI-1-I-Control HPCI Div. I Auto Actuation Logic
M-155
H-155 .
Hl-E41-69
N/A
N/A
N/A
0-24D
0-24
Various See SEA-EE-049Pseudo Component
HPCI-1-II-Control HPCI Dlv. II Auto Actuation Logic Hl-E41-69 N/h Various See SEA-EE-049Pseudo Component
LSHL-15620
1V209A
1V209B
TSH"17 663A
TSH-17663B
HPCI Vscuua Tank Condensate LevelSwitch
HPCI Pusp Rooa (I-II) Unit Cooler A
HPCI Pump Roaa (I-II) Unit Cooler B
Temperature Switch for lV209h
Temperature Switch for 1V209BV-176 Sh. 2
N-156
H-176
H-176
VC-176V-176 Sh. 2
VC-176V-176 Sh 2
N/A
N/A
N/h
N/A
N/A
1-1C
1-1C
1-1C
1-1C
1-1C
ta/hl02i:nas
II. REa~jOR COOLANT HAKEUP (Non-Fire Unit)
h. R~CIC S Item
Re uired Cog onents Unit 2)
SE -B- N A=tI'1 6 tv. 3
Page 1 of 5
Page l$ of 23
Page ~f
Descri tion References
a eShutdownPath(s)
RequiringC onent
FireZone Remarks
Division IHV-E51-2F001
HV-E51-2FOOB
HV-E51-2FOIU
HV E51-2F012
HV-E51-2F013
BV-E51-2F022
HV-E51-2F031
HV"E51-2F059
HV-E51-2F060
HV-E51-2F062
HV-E51-2F084
FV-E51-2F019
HV 25012
HV"E51-2F045
HV-E51-2F046
FV-25013
Stem Supply Line (ContainmentIsolation Valve)
Stem Supply Line (Contairaentisolation Valve)
Pump Suction Valve from CondensateStorage Tank
Pump Discharge Valve to Reactor
Pump Discharge Valve to Reactor
Test Bypass Valve to Condensate StorageTank via HPCI
Pump Suction from SuppressionPool (Containment Isolation Valve)
Turbine Exhaust to SuppressionPool (Contaiaaent Isolation Valve)
Vacuum Pump Discharge to SuppressionPool (Containment Isolation Valve)
Vacuum Relief Line (ContainmentIsolation Valve)Vacuum Relief Line (ContainmentIsolation Valve)
Hinimum Flow Valve to Suppression Pool
Turbine Stop Valve
Steaa Supply Line (Turbine IsolationValve)
Lube Oil Cooling 'Mater Valve
Turbine Throttle Valve
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2149
H-2150
H-2150
H-2150
H-2150
N/A
N/A
N/A
N/A
N/h
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/h
N/h
N/h
2-4F
2-3C-W
2-lD
2-2B
2-4G
2-2B
2-1D
2-1D
2-1D
2-1D
2-1D
2-1D
2-ID
2-1D
2-ID
This valve is powered fromDivision II.
This valve is powered fromDivision II
II. REACTOR COOIANT HAKEUP (Hon-Fire Unit)
h. ~RCIC S stem
Re uired Com nents Unit 2)
SE -B- N A=0 I 6 Rev. 3Page /5 of 23
page J5Q+~<
C nent
FT-E51-2H003
PSH-E51-2H009h
PSH-E51-2H009B
PSL-E51-2N006
PSH-E51-2N012A
PSH-E51-2N012B
PSH-ESl-2N012C
PSH-E51-2N012D
2P-203
2S-212
Descri tion
RCIC Pump Discharge Flow Transmitterto FY-2K601
Bi Turb. Press. Turb. Trip
Hi Turb. Presa. Turb. Trip
Low Pump Suction Press. Turb. Trip
Hi Turb. Exhaust Press. (Isolation)
Hi Turb. Exhaust Press. (Isolation)
Hi Turb. Exhaust Press. (Isolation)
Hi Turb. Exhaust Press. (Isolation)
RCIC Pump
RCIC Pump Turbine
References
H-2149
H-2150
H-2150
H-2150
M-2150
H-2150
H-2150
H-2150
H-2150
H-2150
Ss eShutdownPath(s)
RequiringC anent
Fire2one
H/h
H/h
N/A
N/A
N/A
H/A
N/A
H/h
2-1D
2-2B
2-1D
2-2B
2-ID
H/A 2-1D
N/A 2-1D
Turbine Driven MechanicalComponent \
Steam Driven MechanicalComponent
FY-ESl-2K601 - RCIC Pump Discharge Flow Transducerto FC-E51-2R600
H-2149 N/h 0-26H
XY-E51-2K603 Inverter
FC-E51-2R600 RCIC Flow Controller FY-2K601
ES-E51-2K600
FI-E51-2R600-1
TE-E51-2N027B
Power Supply
RCIC Pump Discharge Flov Indicator FromFC-E51-2R600
Pipe brea Vent hir Exhaust Temp. (Isolation)
TE-E51-2N026B
KY-ES1"2H602B
TE-E51-2H025B
TSH-E51-2H603B
Pipe brea Vent Air Supply Temp. (Isolation)
Timer
Pipe Ares Ambient Temp. (Isolation)
Temperature Switch
TDSB-E51-2H604B Temperature Differential Switch
M-2149
H-2149
M-2149
M-2150
H-2150
M-2150
H-2149
H-2150
H-2149
H-2150
N/h
H/A
N/h
N/A
N/h
H/A
N/h
N/A
N/h
N/h
0-27A
0-26H
0-27A
0-26H
2-3C-S
0-26H
2-3C-S
0-26D
2-3C-H
0-26H
Division II Component
Division II Component
Division II Component
Division II Component
Division II Componet
Division II "oenonent
II. REACTOR COOLANT HAKEUP (Non-Fire Unit)
~ITIC S stem
R uired C nents (Unit 2
Cr -P- M A=V I 6 Rgy. 3 Pm. 3 of 5
Page /Cof 23
Page~~
nant
KY-E51-28603B
XE-E51-2%27h
Dascri tion References
H-2150
Pipe brea Vent hir Exhaust Temp. (Isolation) H-2150
XDSH-E51-2N604A Temperature Differential Switch
KY-E51-2H602A
TSH-E51-2N603A
TE-ESl-2N026A
TE-E51-2N025A
KY-E51-28603h
XE-E51-2N011B
TSH-E51-2N600B
TE-E51-2N021$
Timer
Temperature Switch
Pipe Area Vent Air Supply Temp. (Isolation)
Pipe Area Ambient Temp. (Isolation)
Timer
Turb. Roce Ambient Temp. (Isolation)
Temperature Switch
RCIC brea Vent hir Supply Temp. (Isolation)
XDSH-E51-2N601B Temperature Differential Switch
H-2150
H-2150
H-2150
H-2150
H-2 150
H-2150
M-2150
H-2150
H-2150
H-2150
TE"E51-2N022B
TSH-E51-2N602B
XE-E51"2N023B
RCIC brea Vent hir Exhaust Temp. (Isolation) H-2150
Temperature Switch H-2150
RCIC Emergency Area Cooler Inlet Temp. (Isolation) H-2150
a eShutdownPath(e)
RequiringCom onent
N/A
N/A
N/A
N/h
N/A
N/A
N/A
N/A
N/h
N/A
N/A
N/A
N/A
N/A
N/A
FireZone
0-26P
2-3C-N
0-26H
0-26D
0-26H
2-3C-N
2-3C-N
0-26H.
2-1D
0-26H
2-1D
0"26H
2-1D
0-26H
2-1D
Division II Cosponent
Division II Component
Division II Component
Division II Component
Division I1 Component
Division II Component
Division II Component
Division II Component
P.-E51-2NQUA
TSH-E51-2N600A
XE-E51-2N02lh
Turb. Roca Ambient Temp. (Isolation)
Temperture Switch
RCIC brea Vent Air Supply Temp. (Isolation)
TDSH-E51-2N601A Xesperature Differential Switch
H-2150
H-2150
H-2150
H-2150
N/A
N/A
N/A
N/A
2-1D
0-26H
2-1D
0-26H
XE-E51"2N022A
TE-E51-2N023h
XSH-E51-2N602h
PDIS-E51 2N017
Temperature Switch
Hi Stm. Line Flow Isolation
H-2150
H-2149FF-129010 Sh. 90203
RCIC brea Vent hir Exhaust Temp. (Isolation) H-2150
RCIC Emergency brea Cooler Inlet Temp. (Isolation) H-2150
N/A
N/A
N/h
N/A
2-1D
2-1D
0-26H
2-4A-S
II. REACTOR COOlhHT MAKEUP (Hon-Fire Unit)
h. ~RCIC I ates
R uired Ccu onents (Unit 2)
S~ -B- N A-016 ReV. 3 Page 4 of 5
Page /'7of 23
nent Descri tion References
a eShutdownPath(s)
RequiringCom onent
FireZone Remarks
PDIS-E51-2N018 Hi Stm.Line Plot Isolation
PSL-E51-2H019h Rx Low Press. Isolation
PSL-E51-2N019C Rx Low Press. Isolation
PSL-E51-2H0198 Rx Low Press. Isolation
PSL-E51-2H019D Rx Low Presa. Isolation
PSH-E51-2N020 Minimum Flow Press. Switch
M-2149FF-129010 Sh. 90204
M-2149FF-129010 She 90203
M-2149FF-129020 Sh. 90203
H-2149FF-129010 Sh. 90204
H-2149FF-129010 Sh. 90204
M-2149FF-129010 She 90208
N/A 2-4A-S
N/h 2-4A-S
H/A 2-4A-'H
N/A 2-4h-H
N/A 2-1D
H/A 2-4h-'W
Division II Component
Division II Component
LSL-E51-2H035E
2P-219
CST Low Level Suction Transfer
Barometric Condenser Vacuum Pump
FISHL-E51"2H002 Minimum Flow Switch
LSL-E51-2H035A CST Low Level Suction Transfer
H-2149FF-129010 Sh. 90208
FF-129010 Sh, 90204
FF-129010 Sh. 90204
H-2150HSS-24902B She 1~2
N/A
N/A
H/A
N/A
2-lD
Outside Areas
Outside Areas
2-1D
2P-220
SI-25001B
FY24903
FY24903A
ES24903
FIC-24903
PS-Ell-2H010h
PS-Ell-2H010B
Vacuum Tank Condensate Pump
RCIC Turbine Speed Indicator
Flow Transducer
Flow Transducer
Power Supply
RCIC System Flow Indicator Controller
Ni. Primary Containment Pressure Swi.tch
Hi Primary Contsiaaent Pressure Switch
H-2150HSS-24902A Sh. 1,2
H-2150HSS-2490lh Sh. 2
H-2150HSS-2490lh Sh. 1
H-2151 Sh. 1
H-2151 Sh. 2
N/A
N/A
N/A
N/A
H/h
N/A
H/h
N/A
2-1D
2-2A
2-2h
2-2A
2-2A
2-2A
2-6D
2-6A
These sre interlock components.
These ero interlock comnonentn
II. REACTOR COOLANT HAXEUP (Non-Fire Unit)
A. R~CIC S etea
Re uired C onents (Unit 2
SE -B- N A=0''6 -P8y 3 Page 5 of 5
Page >8 of 23
Page~~S
onent
PS-Ell-2N010C
Descri tion
Hi Primary Contairaent Pressure &itch
LSL-E51-2H035h
LSL-E51-2N035E
Condensate Storage Tank Level Switch
Condensate Storage Tank Level Switch
RCIC-2-I-Control RCIC Div. I Auto Actuation Logic
RCIC-2-JI«Control RCIC Div. II Auto Actuation Logic
2V208A
2V208B
TSH-27661h
TSB-27661B
HV-B21-2FOllh
RCIC Pump Room (II-12) Unit Cooler h
RCIC Pump Room (II-12) Unit Cooler B
Temperature Switch for 2V208A
Temperature Switch for 2V208B
Feedwater h Stop Valve
PS-Ell-2H010D Hi-Primary Contairaent Pressure Switch
References
M-2151 Sh. 1
H-2151 Sh. 2
H-108
H-108
Ml-E51-90
Hl-E51-90
H-2176
M-2176
YC"2176
VC-2176
M-2141
a eShutdownPath(s)
RequiringCom onent
N/A
N/A
N/A
H/A
N/A
N/A
N/A
N/h
H/h
H/h
N/A
FireZone
2-6D
2-6h
Outside Areas
Outside Areas
Various
Various
2-1D
2-ID
2-1D
2-1D
2-4F
Remarks
These are interlock caaponents.
These sre interlock components.
See SEA-EE-049 Psuedo Component
See SEA-EE-049 Pseudo Componnent
This is for spurious operation only.
tm/h202i:dek
II. REACTOR COOLANT MAKEUP (Non-Fire Unit)
B. ~HPCI S stea
R uired C onents Unit 2
~~ -R- N A=0 I 6 Rev. 3Page 1 of 5
Page I'9of 23
Cca nant
Division IIBV-E41-2F002
HV-E41-2FO03
BV-E41-2F001
HV-E41-2F006
HV-E41-2F001
HV-E41-2F012
HV-E41"2F079
BV-E41-2F066
BV-E41-2F015
HV E41-2F004
Descri tion References
HPCI Inboard Stem Supply Line Isolation Valve M-2155
HPCI Stem Supply Valve to Turbine
HPCI Puap Discharge Valve
HPCI Puap Discharge Valve
HPCI MiniauII Flow Bypass Valve to SuppressionPool
HPCI Turbine Exh. Vacua Bkr. Inbd. Valve
HPCI Turbine Exhaust Valve to Suppression Pool
HPCI Turbine Exh. Vacuua Bkr. Outboard Valve
HPCI Pump Suction Valve Pros CondensateStorage Tank
M-2155
M-2155
M-2155
M-2155
M-2155
M-2155
M-2155
M-2155
HPCI Outboard Stem Supply Line Isolation Valve M-2155
s eShutdownPath(s)
RequitingCm nent
N/h
H/A
N/A
H/h
N/A
H/h
N/h
H/h
N/h
H/A
FireZone
2-4P
2-3C-M
2-1C
2-4G
2-2B
2-1C
2-1C
2-1C
2-1C
2-1C
Powered froa Division I
Powered from Division I
HV E41-2F008
BV-E41"2F042
BV-E41-2F059
FV-25611
PV"25612
SV-25661
2S-211
2P-204
HPCI Teat Bypass Valve to CondensateStorage Tank
HPCI Puap Suction Valve Fraa Suppression Pool
HPCI Lube Oil Cooling 'Mater Supply Valve
HPCI Turbine Control Valve (IncludingActuator Unit)
HPCI Turbine Stop Valve
Turbine Trip Solenoid
HPCI Puap Turbine
HPCI Peep
M-2155
M-2155
M-2156
M-2156
M-2156
M-2156
M-2156
M-2156
N/A
N/A
N/A
H/h
Hlh
H/h
N/A
N/A
2-2B
2-1C
2-1C
2-1C
2-1C
2-1C
2-1C
2-1C
Steem Driven Mechanical Conponent
Turbine Driven MechanicalComponent
2P"209
nent
2P-213
PSH-E41-2N027
FX-E41-2N008
Descri tion
HPCI Booster Pump
HPCI Turbine Auxiliary Oil Pump
Instrumentation
Minimum Flov Discharge Pressure Switch
HPCI Pump Discharge Flov Transmitter toFI-2R600-I
II. REA~MR COOLANT HAKEUP (Non-Fire Unit)
B. H~HI S stes
Re uired C onents Unit 2)
References
H-2156
H-2156
H-2155
H-2155
a eShutdownPath(s)
RequiringCom anent
FireZone
N/A 2-1C
N/A
N/A
N/A 2-1C
N AO'I 6 Bey 3Page 2 of 5
Psgegdof 23
Page ~q>
Turbine Driven HechanicalComponent
PSH-E41-2N017$
PSH-E41-2NOI7A
PSL-E41-2N010
PSH-E41-2N012A
PSH-E41-2N012B
PSH-E41-2N012C
PSH-E41-2N012D
PDIS-E41-2N004
PDIS-E41-2N005 Hi Steam Line Flow Switch
PSL-E41-2NOOlh Low Steam Press. Svitch
PSL-E41-2N001C Low Steam Press. Switch
PSL-E41"2N001B Low Steam Press. Switch
PSL-E41-2NOOID Low Steam Press. Switch
FSHL-E41-2N006 Minimum Flow Sv itch
Hi Exhaust Press. Turb. Trip
Hi Exhaust Press.. Turb. Trip
HPCI Pump Suction Low Press. Turb. Trip
Hi (Rupture Diaphragm) Exh. Press. Isolation
Hi (Rupture Diaphragm) Exh. Press. Isolation
Hi (Rupture Diaphragm) Exh. Press. Isolation
Hi (Rupture Diaphragm) Exh. Press. Isolation
Hi Steam Line Flow Switch
H-2156
H-2156
H-2156
H-2156
H-215&
H-2156
H-2156
H-2155FF-127250 Sh. 5905
M-2155FF-127250 Sh. 5905
H-2155FF-127250 Sh. 5905
H-2155FF-127250 Sh. 5905
H-2155FF-127250 Sh. 5905
H-2155FF-127250 Sh. 5905
H-2155FF-127250 Sh. 5904
N/A
N/A
N/A
N/A
N/h
N/A
N/A
N/A
N/h
N/h
N/h
N/A
N/h
N/A
2-lh
2-1C
2-lh
2-1C
2-lh
2"3B-N
2-3B-N
2-3B-N
2-3B-N
2"3B"N
2-3B-N
2-lh
Division I Component
Division I Component
Division I Component
Division I Cceponent
Division I Component
II. lb . D'OR COOLANT MAKEUP (Non-Fire Unit)
B. ~HPCI S mtea
R uired C onents (Unit 2
(',~ -p- M A=616 Rev. 3Pegeg)of 23paga~
nent Descri tion References
Se eShutdownPath(s)
RequiringCoa onent
FireZone Remarks
LSLL-E41-2N002 CST Low Level Suction Transfer
LSLL-E41-2N003 CST Lov Level Suction Transfer
LSH-E41-2N0158 Hi Suppression Pool Suction Transfer
IE-E41-2N024B
TE-E41-2H028B
IE-E41-2N029B
TE-E41-2N030B
TSH-E41-2N600B
Turb. Room Ambient Tcap. Isolation
Vent hir Supply Temp. Isolation
Vent hir Exhaust Temp. Isolation
Emergency Area Cooler Inlet Temp. Isolation
Temperature Svitch
TDSH"E41-2N60IB Teaperature Differential Switch
TSH-E41"2N602B
TSH-E51-2N603D
Teapereture Suitch
Temperature Switch
TDSH-E51-2N604D Temperature Differential &>itch
TE-E51-2N025D Temperature Element
TE-E5 1"2N026D Temperature Element
IE-E51-2N027D Temperature Element
K-E41-2N024h
TE-E41-2N028A
IE-E41-2N029h
Turbine Room Ambient Temp. Isolation
Vent hir Supply Temp. Location
Vent Air Exhaust Temp. Isolation
LSH-E41-2N015h Hi Suppression Pool Suction Transfer
H-108FF-127250 Sh. 5904
H-108FF-127250 Sh. 5904
H-2155FF-127250 Sh. 5904
H-2155FF-127250 Sh. 5904
H-2156
H-2156
H-2156
H-2156
H-2156
H-2156
H-2156
H-2150FF-114510 Sh. 8202
M-2150FF-114510 She 8202
M-2150FF-114510 Sh. 8206
M-2150FF-114510 Sh. 8206
M"2150FF-114510 Sh. 8206
M-2156
M-2156
M-2156
N/A Outside hreee
N/A 2-2A
N/A
N/A
N/A
N/A
N/A
N/h
N/h
N/A
N/A
2-1C
2-1C
2-1C
2-1C
0-26H
0-26H
0"26H
0-26H
N/A 0-26H
N/A 2-3C-H
N/h 2-3C-N
N/A 2-3C-N
N/h
N/A
N/A
2-1C
2"1C
2-1C
H/A Outside Areas
Division I Component
Division I Component
II. RE+ D'OR COOLANT MAKEUP (Hon-Fire Unit)
B. l~lCI S ates
R uired onents Unit 2
SE -B- N A'-.-6 1'ping, 3 'g' '
Page Qf 23
Page~
nant
TE-E41-2H030h
XSB-E41-2H600A
Descri tion
Eaergency Area Cooler Inlet Teap. Isolation
Temperature Switch
IDSB-E41-2H&QIA Tcaperature Differential Switch
References
M-2156
H-2156PP-114510 Sh. 8202
H-2156PF-114510 Sh. 8202
a eShutdownPath(s)
Requiringnent
PireZone
HIA Q-2&8
N/h 2.-1C
N/A 0"268
Division I Coaponent
Division I Coeponent
Division I Ccmponent
TSH-E41-2H602A Temperature Switch
TSH-E51-2H603C Temperature Switch
IDSB-E51-2H604C Temperature Differential Switch
XE-E51-2H025C Teeperature Elelent
IE-E51-2H026C Tcaperature Element
XE-E51"2N02?C Tcaperature Elcaent
PI-E41-2R600-1
FY-E41-2K601
FC-E41-2R600
Plow Indicator from FX-2N008
BPCI Pulp Discharge Flow Transducer fromPT"2HQ08
BPCf Flow Controller froa PY-1K&01
DC/AC-E41-2K603 Inver ter
ES-E41-2K600 Power Supply
LSBL-25620
2V2Q9h
2V209B
BPCI Vacuum Tank Condensate Level Switch
BPCI Puap Room (II-ll)Unit Cooler A
HPCI Pump Room (II-ll)Unit Cooler B
BPCI-2-IControl BPCI Div. I Auto Actuation Logic
BPCI-2-II&ntrol BPCI Div. II Auto Actuation Logic
H-2156FF-114510 She 8202
H-2150FF-114510 Sh. 8202
H-2150FF-11451D She 8202
H-2150PF-114510 Sh. 8206
M-2150FP-114510 Sh, 8206
M-2150PF-114510 Sh. 8206
H-2155
H-2155
H-2155
M-2155
H-2155
Hl-E41 59
Hl-E41-59
H-2156
M"2176 *
H-2176
HIA
H/h
N/A
NIA
N/A
N/A
NIA
N/A
N/A
NIA
N/A
N/A
N/h
H/h
N/h
N/A
0-268
0-268
0-268
2-3C"N
2-3C-H
2"3C-N
0-268
0-268
0-268
0-2?A
0-24G.
Various
Various
2-1C
2-1C.
2-1C
Division I Component
Division I Component
Division I Component
Division I Component
Division I Cceponent
Division I Component
Sec SEA-EE~9 Pseudo Component
See SEA-EE&49 Pseudo Component
II. RL dR COOIANT HAKEUP (Non-Fire Uni t)B. ~NPCI S stem
Re ired Cpa onents Unit 2)
SE -B- N A-.-G I 6 Rev. 3Pa8e/3of 23
Page~~<
C anent Deacri tion References
a eShutdownPath(s)
RequiringCon onent
FireZone Remarks
TSH-27663A
TSH-27663B
HV-B21-2FOIIB
Teaperature Switch for 2V209A
Temperature Switch for 2V209B
Feedwater B Stop Valve
VC-2176
VC-2176
H-2141
N/A 2-1C
N/A 2-1C
N/A 2-4F This is for spurious closure only.
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