revision 3 to 'pump & valve ist program - component tables.' · control switch alone,...
TRANSCRIPT
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page l of 99
RevisionPUMP AND VALVEINSERVICE TESTING PROGRAM-
COMPONENT TABLES'73DP-9XIOl
PROCEDURE INTENT
The purpose of this procedure is to identify the pump and valve testsperformed to meet the requirements of 10CFR50.55a, Section XIof theASME Boiler and Pressure Vessel Code, and Technical Specification 4.0.5.
970SO50aoa 9707Z9'DRADQCK 05000528
P PDR'e.. 4 ~ y'T
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PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TAJ3LES
Reyisiqn73DP-9XI01
TA'BL,E OF CONTENTS
SECTION
1.0. PURPOSE AND SCOPE...
2.0 RESPONSIBILITIES.
3.0 PROCEDURE..
4.0 DEFINITIONSANDABBREVIATIONS,
, 5.0 REFERENCES. 1 h
PAGE
.... 3
.......... 8
'PPENDIX
APPENDIXA - PUMP RELIEF REQUESTS.
APPENDIX B - VALVERELIEF REQUESTS
APPENDIX C - COLD SHUTDOWN JUSTIFICATIONS'.
APPENDIXD - IST PUMP PROGRAM COMPONENTS.
APPENDIXE - IST VALVEPROGRA1iM COMPONENTS
PAGE
... 9
. ......66
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1.0 PURPOSE AND SCOPE
1.1 Purpose
The purpose ofthe Pump and Valve Inservice Testing Program - Component Tablesis to identify the pump and valve tests performed to meet the requirements of10CFR50.55a, Section XIof the ASME Boiler and Pressure Vessel Code, andTechnical Specification 4.0.5
1.2 Scope
This program is applicable to PVNGS Units 1, 2, and 3. The pumps and valveswithin the scope of this program are identified in Appendices D and E respectively.
2.0 RESPONSIBILITIES
Responsibilities for the Pump and Valve Inservice Testing Program are described in73DP-9XI02.
3.0 PROCEDURE
This procedure documents the testing performed in the PVNGS Pump and ValveInservice Vesting Program.
Where Code requirements were determined to be impractical, specific written relief isdocumented in Appendix A (Pump Relief Requests) and Appendix B (Valve ReliefRequests).
Where testing cannot be performed during plant operation, justification for deferringtesting to cold shutdown is documented in Appendix C, Cold Shutdown Justifications.
Pump testing performed under this Program is summarized in Appendix D, IST PumpProgram Components.
Valve testing performed under this Program is summarized in Appendix E, IST ValveProgram Components.
Program administrative requirements are described in 73DP-9XI02.
PVR1040t4 (MS)
age 4 oNUCLEAR ADMINISTRATIVEAND TECHNICALIVIANUAL P '99
GRAM -'UMPANDVALVEINSERVICE TESTING PROO
COWi[PONI NT TABLES73DP-9XIOl
<Pevi~io
'.0
DEFINITIONSANDABjBREVIATIONS
4.1 Definitions - Pmnip Tablies
~porn Ntrmber lists the puimp identi
Puump N;<me describes the pump's fuoperation.
fication nuniber as shown on the P&ID's.
nctional identification as itis related to~ systeitn
L~tu,g. is the Owner's classiificatioFSAR Table 3.2-1.
n of the pun~p per IST requirements and per
4.2
pkkID n~'ittsvLituttsgindlcates the drawing and grid location where the pumpappears.
Procedure Number lists this Surveillance Test procedure number that performs thepuinp opera'bility test.
~g~gz ~m~ ter~ indicates the test quantities required! per Table IWP-3100-1.These quantities are either measured or calculated'(denoted by "M"or "C" in the
'STProgram). "PRR-1" willdenote a specific request for reliefconcerning thatparameter.
~t are general statements which can be referrecl to in the IST Testing Prograin.
Definitions - Valve Tables
~Vy~~~ lists the valve identification number as shown on the P&ID's.
Qggg~~ reference the ~+id on the P&IDwhere the valve appears.
g~Jg~ is the. Owner's classification ofthe valve per IST requirements &FSARTable 3.2-1.
V~alve at~serg indicate. the categorpof IWV-2200.
assigned to the valve based on the definition
Valve Size lists the nomIinal size of the valve ininches.'alve
'IQ)e lists the valve design.
ttctuator ~oe lists the type ofvalve actuator.
Valve Position indicates the normal position afvalve during plant operatiion'1 eithernormally open (0), normally closed (C), or both (O/C).
pvg104sNI (MS)
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73DP-9XI01
ddd hdd d d'h 'h
perform its safety function. Also, the direction in which the valve willbe stroked tosatisfy the exercising requirements of IWV-3410 and IWV-3520. This may bespecified as open (0), closed (C), or both (0/C).
~ lists the test or tests that willbe performed for each valve to meet therequirements ofSubsection IWV.
'
Appendix J Leak Test (AJLT) - Valve will:be leak tested in accordance with10CFR50, Appendix J, Option B requirements.
Leak Test (LT) - Leak test performed for category Avalve.
Full Stroke Test (FST) - Valve willbe fullstroke exercised for operability inthe direction necessary to fulfillits safety function.
Partial Stroke Test (PST) - Valve willbe partial stroke exercised when fullstroke exercising is impractical.
Fail-Safe Test (FT) - Allvalves with fail-safe actuators willbe tested to verifyproper fail-safe operation upon loss ofactuator power. Ifoperation of thenormal control switch causes the valve to fail to its fail-safe position throughloss ofcontrol power or loss ofair, no further testing willbe required.However, iffail-safe operation cannot be verified by repositioning of thecontrol switch alone, a specific fail-safe test willbe performed.
Valve Position Indicator (VPI) - Automatically actuated valves with remoteindication willbe verified in accordance with IWV-3300.
PV21005NI (M6)
Pressure Safety Valve Testing (PSVT) - Relief and safety valve set points willbe verified in accordance with IWV-3510 or OM-1 (as applicable).
Throttled Position (TP) - Measurement ofposition ofvalve stem willbe madeto ensure valve moves to correct throttled position per Technical Specification4.5.2.g.
g~jggjh indicates the frequency at which the previously-mentioned tests areperformed. The followingabbreviations are used: Cold Shutdown(CS), normalOperation (OP), and reactor Refueling (RF). A suffix such as -3 may be added totest modes to indicate specific plant modes in which testing willbe performed. Forexample, CS-3 indicates Mode 3 going into or coming out ofa cold shutdown.dd'dddddhhthe particular valve.
referencesdthe CSJ contained in Appendix C thatapplies to the particular valve.
~~+~ lists clarification remarks.
e b'f99'UCLEAR'ADMINISTRATIVEAND TECHNICAL lVIANUAL Pag
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ICevisior
4.8 Other Definitions
~RliefR~~u~et - A formal documentarequirements ofASME Section XI;wdetermir>ed to be:impractical, a requu10CFR50.55a(g)(6)(i), and:inc orporaProgram.
tion ofvariance from the rules and,here ASME Section XIrequirements areest for reliefis written for the provisions ofted into the PVNGS Inservice Testing
~Cold hutd<jwn Ju~tiification - A formal ddcutuehtation ofvariance from the testfrequency specified by ASME Sectioon XJ; wh6re'a component cannot be tested atthe interval specified by'SME Section XI, a'Cold Shutdown Justificatidn ilswritten per the provisions iofASME Section XIand. incorporated into the PVNGSInservice Testing Program.,
~i~~mg~~~ - A component not within the required scope of the'STProgram, but placed in the IST Program voluntarily. This may, be done inrecognition of its importance to safety, or to take advantage of the IST pioc4ss as a
4.4 Abbreviations
ASME - American Society ofMechanical Engineers
ASME Siectiion XI/Section XI- Section XIof the ASME Boiler and Pressure VesselCode, 1980:Edi.tion, Winter 1981 Addeiida
FSAR - Final Safety Analysis Report
PRB - Plant Review Boar'd
PVNGS - Palo 'Verde Nuclear Generating Station
P&ID - Piping and Instrumentation Diagram
CESSAR - Combustion En~rineering Standard Safety Analysis Report
ANG - Angle
BTF - Butterfly
CK - Check
DIA- Diaphragm pn
GA- Gate-
convement iramewozk for testmg. Augmented components should be tested maccordance with applicable codes as much's practical. Augmented components donot requiire NRC approval to deviate from the Code in cases where code complianceis impractical.
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PV2140dt4 (Md)
GL - Globe
PSV - Pressure Safety Valve
AO - AirOperator
HY - Hydraulic
MAN- Manual
MO - Motor Operator
SA - Self Actuated
SOL - Solenoid
0 - Open
C - Closed
0/C - Open/Closed
AJLT - Appendix J Leak Test
FST - Full Stroke Test
PST - Partial Stroke Test
LT - Leak Test
FT - Fail Test
VPI - VerifyPosition Indication; Valve Position Indication
PSVT - Pressure Safety Valve Test
TP - Throttled Position
OP - Normal Operation
CS - Cold Shutdown
RF - Reactor Refueling
RF-3 - Refueling - Mode 3 Performance
CS-3 - Cold Shutdown - Mode 3 Performance
PRR - Pump Relief Request
VRR - Valve Relief Request
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PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT'ABLES
73DP-9XI01Reyisi~n
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CSJ - Cold Shutdown Justification
ISI/IST - Inservice Inspection/Inservice Testing
5.0 REFERENCES
5.1 Implementing References
73DP-9XI02, Pump and Vabre Inservice %sting Pro+am - AdministrativeRequirements
Surveillance test procedures as listed in Appendices D and E.
5.2 Developmental References
73PR-xXI01, Pump and Valve Inservice Testing Program, Unit x, Rev. 2
73DP-9XI02, Pump and Valve Inservice Tkstiing Pro'gra< - AdministrativeRequirements, Rev. 0
93DP-OLC04, Component Lists Removed R.om 'Ibchnical Specifications, Rev. 2
CRDR 960497 (Addition ofPC components to the IST Program)
RCTS 042266.01 (NRC commitment to iiichide PC'omponents in appropriatemonitoring programs)
CRDR 940370 (SGA.-UV1.34, 134A, 138, 138A leak rate testing)
CRDR 970322,(addition ofNCE-PSV6Augmented components)
14 and NCE-PSV615 to the IST Progra.m as
Note: Other developmental references for the IST Program are listed in 73DP-9XI02.
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Revision
Appendix A Page 1 of 9
APPENDIXA - PUINP RELIEF RE UESTS
PUIHP RELIEF REQUEST NO. 1
MP NENT:
&ID RDINATE.
AuxiliaryFeedwater System (AF)
AFN-POl, AFA-P01, AFB-P01
13-M-AFP-001 e HS, DS, BS
~UN Tl N AFN-POl, AFA-P01, and AFB-POl are the non-essentialAuxiliaryFeedwater Pump, the steam driven AuxFeedwater Pump and motor driven Aux Feedwater Pump,respectively, and supply make-up water to the SteamGenerator during start-up/shutdown conditions andsubsequent to receipt ofan AFAS (Aux Feed ActuationSignal). Note: AFN-P01 does not receive an AFAS, and isincluded in the IST program as augmented testing due toTechnical Specifications.
IWP-3100 requires that either the pump differentialpressure or flow rate be set and the other pump criteria(differential pressure or flow rate) be measured.
Pump degradation may be observed by changes in pumphead and/or flowrate. Due to the pump tests beingperformed at the miniflowrecirculation point on the pumpcurve, changes in pump head are more indicative ofdegradation. Pump flowrate is not varied for these tests butrather is constant as a result of the fixed resistance of theminiflowline and therefore does not need to be measured.
AFA-P01 and AFB-P01 willbe tested at miniflowconditionsduring plant operations; but flowrate willnot be measured;AFN-POl willnot be full-flowtested. AFN-P01 willbetested at constant recirculation conditions, on a quarterlybasis during plant operations, but flowwillnot bemeasured. As an augmented inspection to provideadditional information regarding pump performance, fullflow testing ofAFA-POl and AFB-P01 willbe performed atCold Shutdown; all Code-Required Parameters willbemeasured.
PV21d40M (448)
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Appendix A Page 2 of 9
PUN(P EEL)XF RE(/VEST:NO. 2
SYSTEM: Chemical and Volume Control
Kei::(~LA~
~IUliil'ii
CHA-P01, CHB-POl, CHE-P01
13-M-CHP-002 I83, D3, and G3
CHA-P01, CHB-POl, and CHE-P01 are the three chargingpuxnps. The charging pumps provide makeup to jthe reactorcoolant system for chemxstx~ and volume control. Inaddition they provide axociliary spray to the pressurizer
'uringthe final stages ofshutdown.
The inlet pr'essure and differential pressure shall bemeasured or observed and recorded
ALTERNATETE STj[N(~
These pumps are ofpositive displacement design and assuch are desighed to deliver constant capacity irrespectivofinlet pressure or differential pressure acro.ls the puxnpThee parameters important to monitoring pump degradationare, discharge pressure and flow rate. Measuring
inlet'ressureand differential pressure pxovides no meaningfulinformation.
No alternate testing for 'these parameters is xneaningful.However, discharge pressure willbe set and recorded and.flow rate willibe measured and recorded per Section Xf.Flow Rate willbe trended.
IPV2'l008Nl (548)
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PUIHP RELIEF REQUEST NO:3
YSTEM:
NE
8sID & OORDINATES:
~LAc)S
TE T RE IREMENT
LI F
LTERNATETE TING
Diesel Generator Fuel Oil Transfer System
DFA-POl and DFB-P01
13-M-DFP-001 O B-6 and B-2
To provide fuel oil to the standby diesel generators.
Measure displacement vibration amplitude ofpump.
These pumps are submersible centrifugal pumps located atthe bottom of the Diesel Fuel Oil Storage Tanks undergreater than 10 feet ofdiesel fuel. Access to these pumps isnot possible without completely draining the fuel tank. Thedischarge piping and electrical cable are connected to thepump at the top of the tank. Anyvibration readings takenat the flange where the piping is connected would bemeaningless due to the dampening effect ofthe fuel oil andthe tank itself.
None, however, all other parameters required by theSection XIcode willbe measured and pump performancewillbe evaluated.
PV2'l048M [F46)
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Appendix A Page 4 of 9
SYSTEM:
N
'"—Ll:.
QLA~S:
PUM[P .RELIEF REQUEST:NO. ~i
Safety Injection System (SI)
SIA-PO1, SIB-P01
13-M-SIP-001 e B-ll,6-11
SIA-POl and SIB-POl are Izw Pressure Safety InjectionPumps (LPSI). They function to inject borated water intothe core post accident (Emergency Core Cooling) and alsoserve function as shutdown cooling pumps.
ASME Section XI; IWP-4120 requires that each instrumentused shall be three times the reference value or less.
The discharge pressure of the LPSI pump rangeS frtom 220to 240 psig under minimum recirculation flovt. Underconditions ofshutdown cooling, the discharge pressureunder fullflow conditions ranges from 300 psig to 480 psi'The discharge Pressure Indicators for the LPSI pumps(SIA-PI-306 and SIB-PI-307) range from 0 - 750 psig. Loopaccuracy is nominally 1.14%, compared. to Coderequirement of 2.0% ]per VAR-4110-1. It is necessary for the
~IL—"
fforboth ASME XIge is 3.4 times
'erCode.Ore gauge isix.e. LPSIssed accuracy,use installed
e used'.ggauges with a
pressure indicaitor to provide informationand normal plaint operation. Indicator randischarge pressure vice 3.0 times value asInstallation of temporary discharge pressim]practical due to AT~Mconsiderationsdischarge piping is 2:R/hr. Based on increaALARAconsiderations and. Code intent toinstrumentation, PI-306 and 307 should bAdditionally, DVA-5263 utilizes pressurerange of4.0 tiines the pressure value.
None, testing to be performed as scheduledd
IPV2&48M($48)
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Revision73DP-9XI01
Appendix A Page 5 of 9
PM'�'RELIEFREQUEST NO. 6
YSTEM.
RID RDINATE
QLA~S.
N
TE T RE UIREMENT:
R LI
TERNATE TE TIN
Safety Injection System (SI)
SIA-POl, SIB-P01 SIA-P02, SIB-P02 SIA-P03, SIB-P03
13-M-SIP-001 IB-ll,G-ll, A-11, E-ll, C-ll, H-ll
SIA-POl and SIB-P01 are Low Pressure Safety InjectionPumps and also serve as Shutdown Cooling Pumps.SIA-P02 and SIB-P02 are High Pressure Safety InjectionPumps. SIA-P03 and SIB-P03 are Containment SprayPumps. These pumps provide Emergency Core Coolingfunctions (POl and P02), residual heat removal function(P01) containment heat removal functions (P03).
IWP-3100 requires that either pump differential pressureor flow rate be set and the other pump criteria (differentialpressure or flow rate) be measured.
Pump degradation may be observed by changes in pumphead and/or flowrate. Due to the pump tests beingperformed at the miniflowrecirculation point on the pumpcurve, changes in pump head are more indicative ofdegradation. Pump flowrate is not varied for these tests butrather is constant as a result of the fixed resistance of theminiflowline and therefore does not need to be measured.
Pumps willbe tested quarterly at minimum recirculationconditions,,but flow rate willnot be measured. As anaugmented inspection to provide additional informationregarding pump performance, full flow testing ofP02 andP03 willbe performed on a refueling basis, and fullflowtesting ofPOl willbe performed on a cold shutdown basis;all code parameters willbe measured during fullflowtesting.
PV210404I (@40)
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Appendix A Page 6 of 9
P13Rlp-REL][EF REQVEST:NO. 7
SYSTEM:
N
Safety Related
Allpumps insisted in the program.
QLAP~
FUN TI N
2 is 3
To provide pumped liquid to safety related.systeins.
To measure bearing temperature.
Industry data has showxx that bearing temperature changesdue to degrading bearings only occurs after majordegradation has occurred at the pump. Prior to this, the
"
vxbratxon measurement would provxde the necessaryinf'ormation to warn the operator ofan impendingmalfunction. Therefore, this parameter willRot bemeasured, since its information is after the fact.
None.
PV21d48NI (84tj
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Appendix A Page 7 of 9
PUMP RELIEF REQUEST NO. 9
gggtem
P&ID o rdinate
lass:
Chemical and Volume Control (CH)
CHA-P01, CHB-P01, CHE-P01
13-M-CHP-002 8 B3, D3, G3
CHA-P01, CHB-POl, and CHE-POl are the charging pumpswhich provide makeup to the reactor coolant system forchemistry and volume control. In addition they provideauxiliary spray to the pressurizer during the final stages ofshutdown.
i n The full-scale range ofeach instrument shall be three timesthe reference value or less per IWP-4120.
Each charging pump is a constant speed, positivedisplacement pump with a typical flow rate reference valueof43 to 44 gpm. The charging pump flow indicatorCHB-FI-212 is located in the common discharge linedownstream of the three pumps. The full-scale range ofCHB-FI-212 is 150 gpm which exceeds the test requirementstated above.
A roval
The combined requirements of IWP-4110 (accuracy within2% offull-scale for flow rate), and IWP-4120 (full-scalerange ( 3 times the reference value) result in ameasurement within 6% ofthe reference value. The loopaccuracy ofCHB-FI-212 (calculated by taking the
square'oot
of the sum of the squares of the reference accuracy ofeach instrument in the loop) is +1.32% offull-scale. Whencombined with the existing range of3.49 times thereference value, CHB-FI-212 provides an accuracy within4.7% of the. present reference value. Therefore, flowindicator CHB-FI-212 meets the combined requirement formeasurement accuracy within 6% of the reference value.This accuracy is sufficient to provide an acceptable level ofquality and safety.
SER dated 8-11-94 (TAC No. M89032)
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Appendix A Page 8 of 9
:Pt|MP RELIEF RECj)VEST NO). 10
stem:
P&ID Coordinates:
Class:
Spent; Fuel Pool Clooling (PC)
Spent Fuel .Pool C'ooling Pumps PCA-P01, PCB-P01
13-M-PCP-002' B15, D15
~Fun ~n
stR
The Spent Fuel Pool Cooling Pumps provide cooling waterflow to remove decay heat froxn the spent fuel pool.
The accuracy ofdigital flow rate instruments shall be+2%over the calibrated'range per OM-6 (1988) para.. 4 6.1.1and Table l.
ai fr
v 1
tern does not; have provisions for dire~ct floeent. The only practi,cal means ofmeasuri.ng flowtern is to vise an ultrasonic (clamp-on type)
The PC sysmeasuremon this sysflowmeter. jihe nominal accuracy of the ultrasonicflowmeters used a.t PVNGS is+3% over the
calibrated'ange.
Although this does not meet the Code requirement,3% accuracy is sufflxc."ient to provide an acceptable level ofquality and safety.
Measure pump flow rate using an ultrasoncalibrated to+ 3% over the calibrated ran
ic flowmeterge.
None required. The PC puxnps are augmented component@in the IST Program. They are not within the x'equired scopeof the IST Program defined. by OM-6 para. 1.1 because, theydo not perform a required function in shutting down thereactor, xnaintaining cold shutdown, or mitigating tIheconsequences ofan accident analyzed in the I~JFSAR.
'hereforedeviations from the Code do not requireregulatory aipproval.
Note: ON-6 was chosen, as the test code for the PC pumps tosimplify the transition to the OM Codes during the secondIST interval. Use ofOM-6 is approved by Generic Letter 8904 Supplement, l.
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Appendix A Page 9 of 9
PUEIP RELIEF REQUEST No. 11
~St~m:
m n
&ID rdinates:
Qla~s:
Py~~n
i m n
f li f.
lt rnativ 'lb tin:
r
val'pent
Fuel Pool Cooling (PC)
Spent Fuel Pool Cooling Pumps PCA-P01, PCB-P01
13-M-PCP-002 IB15, D15
'The Spent Fuel Pool Cooling Pumps provide cooling waterflow to remove decay heat from the spent fuel pool.
Pump vibration measurements shall be taken in the axialdirection on each accessible pump thrust bearing housingper OM-6 para. 4.6.4(a).
The PVNGS predictive. maintenance program does not yetmeasure the axial vibration of the PC pumps. Anengineering evaluation is in progressto determine the bestlocation for monitoring this parameter. This evaluation isexpected to be completed in the first half of 1997. Once thelocation is determined and marked, measurement of
axial'ibrationwillbe added to the IST Program. This approachprovides an acceptable. level ofquality and safety because itvoluntarily institutes axial vibration monitoring earlierthan would be required under the normal IST Program.The current code ofrecord (ASME Section XI, 1980 Edition/ Winter 1981 Addenda) does not require axial vibrationmonitoring. Under the normal IST Program, axial vibrationmonitoring per OM-6 would'not be required until 1998 andthe beginning ofthe second IST interval.
None. Allother vibration measurements willbemeasured'nd
analyzed in accordance with OM-6.
None required because the PC pumps are augmentedcomponents (see PRR ¹10).
NOTE: The need for this reliefrequest is temporary..Aftercompliance with OM-6 para. 4.6.4(a) is achieved (projectedfor first half of 1997) this reliefrequest willbe deleted.
PV21048NI (848)
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Appendix B Page 1 of 1'2
g~)~Y~)~Tl~
ATE
CLASS:
VALVEREj'EF:REQUEST NO. 6
Chemical and Volume Control (CH)
CHB CHA-V306-V305,
P-502 e C-1513-M-CH
Valves are discharge check 'valves from the Refueling KateTank (RWT) to the suction ofLow Pressure Safety Injection(LSPI) pump, High Pressure Safety Injection (HI?SI) pump,and Containment, Spray Pump. Valves open to pass borate'd
AX'PENDIIXB - VALVERELMF RE
VEST~'ater
to -ECCS pu:mps.
'Full strokevery, thre,shutdown.
e exexcise once every three months br part sttroe xnonths and fullstroke exercise at cold
'Valves cannot 6e dxekcis'ed ht power operatHPSI, and CS pumps do not develop sufficiiovercome RCS pressure. Valves cannot be
ion aa LPSI,ent head, to
exercised at coldri~HPSI um sasRCSlhutd
Part stroke valves every quarter and fullstroke during,refueling (cavity fill).
s own us< ~, p p ow temperatureioverpressurization would resu'It, or using LPSVCS pumps~as the RCS lacks sufficient volume to accept the teqiuidedflowrate, Valves require a flowrate in excess ofnormalshutdown cooling low in order to full stroke opeix. Valvescan. be part-. troked during operation in support ofquizterly testing ofLPSI, HPSI and CS pumps.
PV21548NI (MS)
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, Appendix B Page 2 of 12
GXGXRK;
&IDCOORDINATE
VALVERELIEF REQUEST NO. 16
Diesel Generator (DG)
DGA-UV-3,DGB-UV-4, DGA-UV-5, DGB-UV-6, DGA-UV-7,DGB-UV-S,'GA-UV-9,DGB-UV-10, DGA-UV-ll,DGB-UV-12, DGA-UV-15, DGB-UV-16
13-M-DGP-001, sh 5 8 F-7, F-3, D-7, D-3, F-6, F2 13-M-DGP-001, sh 8 IF-6, F-3, F-6, F-3 13-M-DGP-001', sh 6 ID-6, D-2
B
Non-Classed
Valves UV-3, UV-4, UV-5, UV-6, UV-7, UV-S, UV-15, andUV-16 are part. of the Diesel Generator AirStart system.Valves DG-UV-9, UV-10, UV-ll,and UV-12 are part of theDiesel Generator control air system to the Fuel ControlLinkage.
TEST RE UIREMENT:
L ERNATE E TIN
Full stroke exercise and time test every three months orpart stroke test every three months and full stroke test atcold shutdown.
The valves are totally-enclosed solenoid valves and it is notpossible to observe any stem movement. Additionally thereare no remote indicator lights. There is no practical way tostroke time the valve since there is no obtainable evidenceofvalve movement.
Valves were purchased as part ofDiesel Generator skid.Valves UV-3, UV-5, UV-7, &UV-15 are controlled from asingle handswitch. Valves UV-4, UV-6, UV-8 and UV-16 arecontrolled from a single handswitch. Valves UV-9 andUV-llare controlled Rom a single handswitch. ValvesUV-10 and UV-12 are controlled &om a single handswitch.Independent operation ofindividual valves is not possiblewithout rendering other valves inoperable. TechnicalSpecifications 3/4.8.1.1.2a(4) requires monthly starting ofDiesel Generator. The Diesel must start and attain speed,frequency and voltage within 10 seconds. Valve malfunctionor degradation ofoperation willreduce D/G startingcapacity and D/G willbe inoperable.
Test valves concurrent with monthly Diesel Generator starttest, on'an.alternating.train'basis; all'valves willbe testedat least once per quarter.
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73DP-9XI01
,Appendix B Page 3 of 12
VALVERELIEF REggZEST 1%0. 2,'3
Maim Steam (SG)
NENT SGE V642 SGE-V652 SGE V653~ SGE V698
13-M-SGP-002) G.11, G-10, C-10, C-11
UN TI N: The normal function of the valves is to open and provide aflow path for feedwater flow to the steam generators. The
chion is to close.safety fun
Full stroke exercise every three months or partial strokeexercise every three months and fullstroke exercise at, coldshutdown
Test valves in Mode 3 when sufficient pressure is availablefor stroking valves to the closed position after coldshutdowns and refueling outages. Valves SGE-V642 andSGE-652 shall 1be tested in,series„as a unit. ValisesSGE-V653 and SGE-V693 shall be tested in series, as auni.t.
These valvek aie i6 the feedwater inlet lines to each steagenerator and are open during power operations. Fullstroke or partial stroke testing of these valves during
'perationwould require securing feedwater flow to thesteam generator and cause a reactor trip. Per TechnicalSpecifications, Main Steam System is required to beoperable prior to entering Mode 4. These valves requireSteam Generator pressure to back pxessure test the valvesfor closing. Adequate pressure in Steam Generator does niotexi,st until in Mode 3. These valves cannot be individuallyverified due to the desigii ofthe system,
NOTE:,SGE-V003 SGE-V005 SGE-V006, and SGE-V007 are now included in GSJ~¹38.
NOTE: The NRC hais accepted testing in Mode 3 for VPE; however, their written iresponsespecified that no Relief Request is required.
PV21040NI (548)
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Appendix B Page 4 of 12
VALVERELIEF REQUEST NO. 28
Y TEM: Safety Injection and Shutdown Cooling (SI)
SIE-V113, SIE-V123, SIE-V133, SIE-V143, SIA-V404,SIB-V405
13-M-SIP-002 e F14, F12, F7, F413-M-SIP-001 O'F6, B4
QLA~S:
EME
Valves open to provide high pressure safety injection flow tothe reactor coolant system.
Full stroke exercise every three months or partial strokeexercise, every three months and fullstroke exercise at coldshutdown.
A I F RRELIEF: These valves can only be fullstroke exercised by initiationof flow through the valves and into the Reactor Coolantsystem. Safety Injection pump head is insufficient toestablish flow through the valves against Reactor Coolant'System pressure. Additionally, when the Reactor CoolantSystem pressure is low, over-pressurization of the RCS ispossible ifthe Vessel head is installed. Testing wouldchallenge the Low Temperature Over-Pressure protection::(LTOP) system, and could damage equipment due to
over-'ressureand would violate Tech. Spec..pressure/temperature limits. Partial stroke exercising ofthese valveswould require the establishment of a flow path throughvalves addressed by Technical Specification SurveillanceRequirement 4.4.5.2.2d and subsequent containmentRadiological Controlled Area entry would be necessary bypersonnel, in order to meet this Tech. Spec. requirement.
- Containment entry by personnel during normal operationsis an ALAI&.and radiation protection concern.
The valves willbe fullstroked during refueling (Mode 6)when the vessel head is not installed.
PV210COI4I (MO)
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H,evisio,73DP-9XI01
Appendix B Page 5 of 12
VALVERELXEF REQUjEST No. 30
YSTEM:
MP NT .
Safety Injection (SI)
SIA-V157, SIB-V158,, SIA-V201, SIB-V200
13-M-SIP-00il I6-13, C-13, F-12, B-12
UN TION: Valves SIA-V157 and SIB-V158 open to provide a flow pathfrom the Refueling Water Tank (RWT) to t4e CodtaIinkentSpray Pumps. Valves SIA-V201 and SIB-V200
oPen'o'rovide
a flow path from:the RWT to the Low PressureSafety Injection Pumps (LPSI).
Full stroke kxekcike Aery three months or partial strokeexercise every three months and fullstroke exercise at coldshutdown.
These valvek cdn 6e par|;ial stroked during operatiori. The~valves cannot be full,stroked during operation or duringcold shutdown. During operation, the only recirculationlines available for testing are the minimum rkcirlculatibn]line (2" with an orIifice) and a rncoi-recirculation line (6").Neither hne has the capacity to handle full stroke exertciseflows. During cold shutdown, these valves are closed and.are not part of the shutdown cooling lineup, i.'e., theshutdown cooling lines taps into the LPSI and containment. pray suction. lines down stream from these valves. Thesevalves can be fullstroked at refueling as part offillingofthe reactor. refueling pool from the RWT.
Testing to be perfo'rmed as partial stroking during normal',operations and fullstroke tiestiing during refueling duringpool fill.
PV21 dOONI (M8)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 23 of 99
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73DP-9XIOl
Appendix B Page 6 of 12
VALVE'RELIEFREQUEST NO. 31
YSTEM:
CQh2!lNN EN
&IDCOORDINATES:
A E ORY:
Safety Injection and Shutdown Cooling (SI)
SIA-V164 and SIB-V165
13-M-SIP-002 O F8 and F6
AC
TI N
TEST RE UIREMENT.
Valves open to provide flow from Containment Spray pumpto the discharge spray nozzles.
Full stroke exercise every three months or part strokeexercise every three months and fullstroke exercise at coldshutdown.
Flow cannot be established without discharging water intocontainment, i.e., spray initiating O >3500 gpm per valve.,Partial stroking during operation is prohibited by AIJ~concerns as the valves and test connections are incontainment. Valves are never in regular service; theinternals are immersed in demineralized water.
1. Disassemble one valve each refueling outage to verifyfull-stroke capability and structural soundness ofinternals. Manually full-stroke the valve.
2. Ifit is found that the disassembled valve's full-strokecapability is in question, the other valve shall also be.disassembled, inspected and manually full-stroked atthe same outage.
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'AppendixB Page 7 of 12
VA'LVEjRElLIEFREQUlKST NO. 32'
TEM "Safety Injection and Shutdown Cooling (SI)
SIA-V205 and SIB-V206
13-M-SIP-001 IG14'and A14
UN TI N:
KFML
These valves open to provide flow to the High PressureSafety Injection (HPSI) pumps, Low Pressure SafetyInjection (LI?SI) pumps, and Containment Spray (CS)pumps from the recirculation sump.
Full stroke Axed'cise e0ery three months or part stroke everythree month.s and fullstroke exercise at cold,shutdown.
'The recir'cullatiln kukp is riormany dry, therefore fullstroking during operation is impractical. Partial'trokingduring operation i,s also impractical.
1. Disassemble one valve each refueling outage tel verifyfull-stroke capab:ility and,structural soundness ofinternals. Manually full-stroke the valve,'.
2. Ifit is found that the disassembled valve"s full-stroke "
capability is in question, the other valve shall also bedisassembled, inspected and manually full-stroked thesame outage.
PV21540M (445)
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73DP-9XI01evision
Appendix B Page 8 of 12
VALVERELIEF REQUEST NO; 33
QYYTElg:
P&ID RDINATES:
ATE RY:
Safety Injection and Shutdown Cooling (SI)
SIE-V215, SIE-V225, SIE-V235, SIE-V245
13-M-SIP-002 IA15, A12, A7, and A5
AC
EUU
A I F R ELIEF:
L RN T E TIN
R APPR
VAL'PEN
to provide a flow path from the Safety InjectionTanks to the Reactor Coolant System.CLOSE to prevent backflow ofprimary coolant into theSafety Injection Tanks.
Full-stroke exercise every three months, or part-strokeexercise every three months and full-stroke test during coldshutdown.
Full-stroke exercising these valves is not.practical in anyplant mode except refueling shutdown when the reactorvessel head is removed. Part stroke testing every 3 monthsis not practical since a plant mode reduction would berequired to perform the test.
1) Part-stroke exercise each cold shutdown.
2) Full-stroke exercise during each refueling outage whenthe reactor vessel head is removed. Confirm one valveto have opened fullyby a non-intrusive method eachrefueling outage on a rotating schedule such that allvalves are confirmed in this manner in a series offourrefueling outages.
SER dated 10-23-92 (TAC Nos. M84536, M84537, andM84538)
PY21048t4 (MO)
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Appendix.B . Page!), of 12
VALVERELIEF REQUEST NO. 34
SYSTEM:
COMPONENTS:
P&ID COORDINATES:
CATEGORY:
CLASS:
FUNCTION:
TEST REQUIREMENT,,
BASIS FOR RELIEF:
ALTERNATETESTING:
R APPR VAL
Safi ty Injection and Shutdown Cooling (SI)
SIE-V217, SIE-V227, SIE-V237, SIE-V247
13-M-SIP-062 C4 A13, A10, A6; and A3
OPEN to prcivide a. flow path fiom Safety Injej:tidn dndShutdown Cooli.ng to the Reactor Coolant System (RCS).
RCSCLOSE~.to prevent pressunzation ofSI pipmg fromloop pressure.
Ful:l-stroke o'en every three months, or part-stroke openevery three months and full-stroke open at cold shutdown.
1) Part-stroke exercise each cold shutdown.
2) Full-stroke exercise during each refuehng outage whenthe reactor vessel head is removed. Confirm one, valveto'have opened fullyby a non-intrusive method eachrefueling outage on a rotating schedule such that allvalves are confirmed in this manner in a ~eri'es offourrefueling outages,.
,SER dated 10-23-92 (TAC Nos. M84536, M84537„andM84538)
These valves can oddly'e stroked open by initiating flowthrough the valves into the RCS. Safety Injectiont pumphead is not sufficient to overcome RCS pressure and strokethe valves during plant operation. Full-stroke exerclsirig isnot practical during any plant mode except refuelingshutdown when the reactor vessel head is removed. Part-
, stroke testing every three months is not practical sirice''lantmode reduction would be required to perform the test
PV21d4SN ($45)
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Revision73DP-9XIOl 3
Appendix B Page 10 of 12
VALVERELIEF REQUEST NO. 35
Y TEM:
P&ID ORDINATES:
ATE RY:
Safety Injection and Shutdown Cooling (SI)
SIA-V522, SIA-V523, SIB-V532, SIB-V533
13-M-SIP-002 e C2, F2, F2, C10, F9
AC
UNCTION
F RR IEF:
LTERNATETE TIN
Valves open to provide a long term recirculation flow pathfor the High Pressure Safety Injection (HPSI) system to theshutdown cooling lines.
Full stroke exercise test every three months or part strokeexercise every three months and fullstroke exercise at coldshutdown.
These valves can only be fullstroked exercised. by initiationofflow through the valves and into the RCS. SafetyInjection pump head is not sufficient to full stroke exercisethese valves due to RCS pressure. SI-V522 and SI-V532cannot be part stroked during operation due to RCSpressure. SI-V523 and SI-V533 cannot be part strokedduring operation due to ALARAconcerns as these valvesand their test connections are in the containment building.Full stroke exercising during cold shutdown wouldchallenge the Low Temperature Over Pressure (LTOP)reliefvalves, could damage equipment and would violate
'CS
Temperature/Pressure limits.
Full stroke exercise test these valves during the refuelingmode (Mode 6) when the reactor vessel head is removedusing the Safety Injection System.
PV2ldOSNI (IHO)
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GRAM-'3DP-9XI01 Revi<~io
Appendix B Page llof 12
VAJAVE IMLIEFRKQ!tHEST NOi; 41
YSTEM:
glLAQg
5XLKG;
Safety Related Vajlves
Containment I. olation Valves(See Tech Specs 3/4.6.3, and Procedure 93DP~OLC04)
Various(See FSAR 6.2.4 and Figure 6.2.4-1 sheets 1 to 10)
AorAC
2
iContainment Isolation Valve
Valves are require~d to be leak tested per I%V-3421,IWV-3422, IWV-3423., IVVV-3424and IWV-3405 on s'i tv)oyear frequency.
Valves requiring testing per 10CFR50, Appendix J aretested on a 24 month frequency. These valves need not befurther tested per ASME XI. 'Ihis basis is in agreenientwit'h NRC draft Reg Guide on Inservice Testing ofValves,issued Novexnber 1981.
None: valves tested per 10CFR50, Appendix J andTechnical Specification 3/4.6.1 &3/4.6.3. Note that relief is]~ requested for any valve identified in Technical
'pecifications3'/4.4.5.,2.2 (Reactor Coolant System'perationLeakage). These latter valves willbe tested pei'
Technical Specifications 3/4.4.5.2.2. PVNGS willconiplywith the Valve Test requirements ofIWV-3426 and IW'F-3427.
NOTE: The PVNGS IST Pro~yam has adopted the requirements ofGeneric Letter 89-()4Attachment A Position 10 in place ofthe requirement< ofVRR f41. Posittion 10 states"that the leak test ]procedures and requirements for containment isolation valvesspecified in 10 CFR 50, Appendix J are eqilzivhleiiit te the requirements ofIVitV-3421through 3425. The PVNGS IST Program still'complies with the Analysis ofLehkage
'atesand Corrective Action requirements ofParagraph IWV-3426 and 3427(a) asrequired by Position 10. The corrective action~ requirements of IWV-3427(b) are nolonger required for the subject valves because, as stated in Position 10, "t'e usefulne.of IWV-3427(b) does not,justify the burden'f 'complyin'g with this requirement."(Referenc:e CRDR '930480.05, memos 315-00905-BPL)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 29 of 99
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73DP-9XI01Revision
Appendix B Page 12 of 12
VALVE'RELIEFREQUEST NO. 44
YSTEM:
N
P&ID 0 RDINATES
ATE RY:
TEST RE UIREME T
R E I
Safety Related Power Operated Valves
Various
Various
A or B
1,2,and3
IWV-3417(a) requires that valves which exhibit an increaseof25% in stroke time (for valves with actual stroke timesgreater than 10 secs) or 50% in stroke time (for valves withstroke times of less than or equal to 10 secs) shall havetheir frequency oftesting increased to monthly untilcorrective action is taken, at which time the original testfrequency shall be resumed.
Using a fixed reference value provides.a more logical andstringent basis for determining increased test frequencies.Adhering to the Code as stated above, a valve's stroke timecould increase during each test and still be consideredacceptable, while in fact, the valve could be failing or, atleast, worthy ofbeing tested at an increased frequency.Using a fixed referenced value as a standard would give riseto an increased test frequency much sooner than thestandard set forth in the Code.
ALTERNATETE TIN Ifa fixed reference value is exceeded by either:p ~
1) 25% or more for those reference values greater than 10seconds, or
2) 50% or more for those reference values less than orequal to 10 seconds.
The frequency oftesting shall be increased to once a monthuntil the condition is corrected.
PV21040Nl (044)
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GRAM ~ l l l 73DP„9XI01Revisio
Appendix C Page 1 of 34
APPENDIX C - COLDS S ~IghgI
COLDS S]HUTDOWNJUSTIFjlCATIOiN¹1
AuxiliaryFeedwater (AF)
AFA-V007, AFB-V022, AFA-V137, AFB-V138
13-M-AFP-001'I D7,'7, D6, C6
QLA~
HAKHGXLKG;
HQXRc.
Suction and Discharge check valves on essential steamdriven auxiliary feedwater pump and on essential mot'ordriven auxiliary feedwater pump.
Stroking these valves during power operation wouldinject cold. auxiliary feedwater into a hot steam generator.This willdamage the feedwater piping and/or steamgenerator via thermal shock/fatigue. Additionally, Iheinjection ofcold auxiliary feedwater would upset the steamgenerator pressures and levels and could lead to a reactortrip and/or Mai'.n Steam Isolation Signal (MSIS)i
Valves willbe full,stroke exerrised during cold shut;doiuns.
During Preoperati!on testing, excessive vibration problemswith the AF Pumps and associated AF piping nec:essitated. adesign change to block offthe full. flow recircdlatliori
likes'ith
a blind flange. Full flow recirculation is no longer apossible test.
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 31'f 99
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73DP-'9XIOlRevision
3
Appendix C Page 2 of34
COLD SHUTDOWN JUSTIFICATION ¹2
Y TEM:
P&ID RDINATES:
CATE RY:
AuxiliaryFeedwater (AF)
AFA-V015, AFB-V024
13-M-AFP-001 9 D5, C5
N I N:
A I F R OLD
Provide flow path to each steam generator from essential,auxiliary feedwater pumps.
Stroking these valves during power operation wouldinject cold auxiliary feedwater into a hot steam generator.
This willdamage the feedwater piping and/or steamgenerator via thermal shock/fatigue. Additionally, theinjection ofcold auxiliary feedwater would upset the steamgenerator pressures and levels and could lead to a reactortrip and/or Main Steam Isolation Signal (MSIS).
Valves willbe fullstroke exercised during cold shutdown.
NUCLEAR ADMINISTRATIVEAND TECHhllCAILMANUAL Page 32 of 99
ALVEIN~)ERVICE Tk.S'3. INCOMPONENT TABLES
PUMP ANDV G PROGRAM -'3DP-9XIOl I~evisior
Appendix C Page 3 of34
COI Di S)KEG'DotWN JUSTIFICATIO)N N3
Y TEM: AuxiliaryFeedwater (AF)
AFA-V079, AFB-VOSO
13-M-AFP-001'8 D2, B2
UN TI N Provide Qow path auxiliary feedwater (essentIial)I td eath ~
steam generator.
Stroking these valves during power operation wouldinject cold a'uxi~liary f'eedwater into a hot steam generator.This willdamage the feedwater piping and/or steamgenerator via thermal shoe'k/fatigue. Additionally, ttheinjection of cold auxiliary feedwater would upset; the steamgenerator pressures and levels and could lead to a reactotrip and/or Mai.n Steam IsolatIIon Signal (MSIS)>
Valves willbe dull stroke exercised during cold shut;down.
PV2104dNI {546)
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C Page 4 of34
COLD SHUTDOWN JUSTIFICATION04
SYSTEM:
ATE RY
SHUTD WN TESTING:
E UIRED TE TIN
Chemical and Volume Control (CH)
CHA-V177, CHA-V190, CHE-HV-536, CHN-UV-514,CHN-V154, CHN-V155
13-M-CHP-002 O BS, AS, A14, B10, C12, B12
C,C,B,B,C,C
222333Valve opens during emergency boration to provide flowfromRefueling Water Tank (RWT) to the suction of the chargingpumps via gravity feed or Boric Acid Make-up Pumps.
These valves are normally closed during operationisolating the emergency boration path. Stroking thesevalves during operation would cause excessive boration dueto the high Boron concentration in the Refueling WaterTank. This could increase boron level beyond shutdownmargin requirements and could cause a reactor shutdown.
Full stroke test check valves in Mode 3 after cold shutdownwhen scheduled per Appendix E and Technical Specification3/4.1.2.2.1b. Full stroke test power operated valves duringcold shutdown.
(CHN-V154 and CHN-V155 added per CRDR 920679.09)
NUCLEAR ADMINISTRATIVEAND TECHNI( AL MANUAL P g 34 f 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-'OMPONEN'.I'ABLES
'73DP-9XIOlRevi~io
3
Appendix C Page 5 of 34
COI D SHUTDO'WN JUSTIFICATION¹5
SYSTEM:
MP N
ATE ORY:
Chemical and Volume Control (CH)
CH:N-UV-501
13-M-CHP-002 e C-7
CTION:
A I F-~'KIBE
'CLN:.
CHN-UV-501 i. Volume Control Tank (VCT) DischargeIsolation Valve., UV-501 closes on low VCT level to protectcharging pumps from, loss ofNPSH.
Disrupting the nohnhl charging system flow pathwould be requir'ed'to stroke this valve. This would causetransients in the RCS volume. Closing this valve also
vill'esultin the loss ofNPSH to the char'ging pumps'and wouldcause damage to the charging pumps. Loss ofcharging flo;would thermally cycle and damage the Regenerative Heat,Exchanger.
Valve to be fullstroke exercised and stroke time testedduring cold . hutdown.
PVgl048t4 (MS)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 35 of99'UMP
AND VALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 6 of 34
COLD SHUTDOWN JUSTIFICATION06
Y TEM:
P&ID C RDINATE
ATEGORY:
<MGR
F N TI N:
A I F R LD
Chemical and Volume Control (CH)
CHE-V431, CHB-HV-203, CHA-HV-205
13-M-CHP-001 O H9, H10, Gll
C,B,B
Valves open to provide a flow path for AuxiliarySpray tothe pressurizer.
Their function is to protect the charging system fromReactor Coolant System Pressure during normal operationsand to provide auxiliary spray to cooVdepressurize thepressurizer when the Reactor Coolant pumps are notoperating. Partial stroking is not possible sinceCHB-HV-203 and'HA-HV-205 are solenoid valves andcontrol flow to CHE-V431.
Stroking these valves during operation introducestransients in RCS pressure and thermal cycling/ fatigue ofthe pressurizer spray nozzle (reference Tech. Specs. 5.7-1).Exercising these valves during power operation could leadto a reactor trip due to RCS pressure changes.
Full stroke exercise test during cold shutdown forCHE-V431 and fullstroke exercise and stroke time test forCHB-HV-203 and CHA-HV-205.
NUCLEAR ADMINISTRAllIVE AND TECHNICALMANUAL Page 36 of,99,
PUMP ANDVALVEINSERVICE TESTING PROGRAMCOMPAQ NT TABLES
gevi<„ion'73DP-9XIOl
Appendix C Page 7 of 34
ClOLD SHUTDOWN JUSTIFJCATIOl% N7
QYY')
TEM'L,.hSR
Chemical and Volume Control (CH)
CHB-UV-505 and CHA-UV-,50i6
13-M-CHP-002 e 618 and 614
A,A
2
'Valves provide containment isolation on Reactor Coolantseal water
bleed-off
l.ne.,
These valves are ope6 during normal operation to pro-vide seal water bleed*offfrom the reactor coolant pumps.Stroking these valves would require discontinuing sealinjection to the pu)rnps. Partial stroking is not possible sincethe valves are not,jog capable. Stroking these valves on linewould damage Reactor Coolant pump seals and could leacto a Reactor Shutdown.
Full stroke test during cold'hutdown.
IPV21040l4 (545)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 37 of 99
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73DP-9XIOlRevisiori
Appendix C Page 8 of34
COLD.SHUTDOWN JUSTIFICATION¹8
Y TEM.
.85ID RDINATES:
CATE RY:
QLb%;
Chemical and Volume Control (CH)
CHB-UV-515, CHA-UV-516, CHB-UV-523
13-M-CHP-001 e H15, H15, F13
B,A,A
CHB-UV-515 and CHA-UV-516 are Class 1, CHB-UV-523 isClass 2.
Valves are contained in the normal letdown/volume controlmake-up loop.
Disrupting normal letdown flow in order to fullstroke these valves could cause transients in the RCSvolume/boron concentration. Valves do not have part strokecapabilities. Stroking these valves would cause pressurizerlevel transients and could cause a reactor shutdown.Additionally, disrupting charging letdown flowwillthermally cycle letdown nozzles on the RCS piping and theRegenerative Heat Exchanger.
Full stroke test these valves during cold shutdown.
PV21048NI (Mdj,
NUCLEAR ADMINISTFitAIIIVE AND TECHNICALMANUAL Page 38 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAMCOMPONI'NT TABLES
Revi~io73DP-9XIOl 3
.Appendix C Page 9 of 34
ClOLD SHUTDO'WN JUSTIFICATION ¹9
SYSTEM
ATE RY:
UNTI N
Chemical and Volume Control System
CHB-HV-530 and CHA-HV-531
13-M-CHP-602 IC15, and C14
B
,'2
Saf'ety Injection Pump to Refueling Water Tank SuctionIsolation Valves.
Stroking 'thyrse lvalkesl derring operation would violate'VNGSTechnical Specifications, LimitingConditions f'r
Operation, requiring two independent flowpaths capable oftaking suction from the jRefueling Water Tank o6 a
safety'injectionactuation signal. Valve is normally open. Ifvalvefailed in closed position, this would render m~ggy~lsafi ty.inject.'ion train (e.g., HPSI, LPSI, and ContainmentSpray Pump) in-operable. This is an unsafe diode ofoperation.
Full stroke test at cold shutdown.
Pal MOtd (MO)
NUCLEAR ADMINISTRATIVE,,ANDTECHNICALMANUAL Page 39 of 99
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73DP-9XI01Revision
Appendix C Page 10 of34
COLD SHUTDOWN JUSTIFICATION ¹10
SYSTEM:
&IDCOORDINATE
RY:
QLL',g.
Chemical and Volume Control (CH)
CHN-V835, CHE-HV-255
13-M-CHP-001 G3, G4
CHE-HV-255 is Category ACHN-V835 is Category AC
Valves are open to provide a flow path for seal injection tothe reactor coolant pumps.
These valves are open during. normal operation toprovide seal injection.to the reactor coolant pumps.Stroking these valves closed would require discontinuingseal injection to the pumps and causing reactor coolantpump seal damage. CHE-HV-255 is not jog capable soCHE-'HV-255 and the check valve down stream cannot bepart stroked. Damaging the seals would necessitate areactor shutdown and containment entry.
IR N Full stroke test during cold shutdown.
PV21044M (M4)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANIJAL Page 40 of99'UMP
ANDVALVEINSERVICE TESTING PROGRAM-'OMPONEN'.I'ABLES
R~eviqion73DP-9XIOl
Appendix C Page llof34
COLD SRKFI.'DOWN JUSTIFICATION¹llSYSTEM
M
Containment Purge (CP)
CPA-UV-2A, CPA-UV.2B, CPB-UV-3A, CPB-UV-3B
13-M-CPP-001 e D6, D5, D2
BASIS FOR COLDGZ]Ek;
'IXtKh
2
These valve. are 42" containment purge supply and.exhaust isolation valves.
PVNGS 1bcbnikal Sphcifications (3.6.1.7a) requireseac'h 42" con'tai>~ment purge supply and exhaust isolationvalve fo be sealed closed during operation. Stroking
these'alves
during operation would be a violation Of 'IbchniCal l
Specification. Failure of these valves in the open positionwouId comprise containment integrity and would violateTech. Spec. 3/4.6.1„7.
Full stroke test these valves during cold shutdown.
PV2'IdEkWI (44S)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 41 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XIOlRevision,
Appendix C Page 12 of34
\'OLDSHUTDOWN JUSTIFICATION ¹12
S STEM
ENT
P&ID RDINATE
ATE RY:
Essential Cooling Water (EW)
EWA-UV-65 and EWA-UV-145
13-M-EWP-001 IC8 and C4
NTI N:
E IRE TE TIN
Valves open to provide Nuclear Cooling (NC) water systemwith Essential'Cooling Water (EW) in the event that theNuclear Cooling Water System is inoperable.
Full stroke exercising these valves during operationwillproduce high pressure in the Nuclear Cooling (NC)water system due to the pressure differential between theNC system and the Essential Cooling Water (EW) system.This willcause the NC surge tank pressure reliefvalves(PSV) to liKThis willresult in the loss of level control ofboth the NC and the EW system. The EW system isrequired to be operable above Mode 4. In order to precludeloss ofEW system function, the NC system would have tobe shutdown to perform the test. However, the NC systemsupplies cooling water to the Reactor Coolant Pump seals.Loss ofNC would require tripping all four RCP's and thiswould cause a reactor trip.
Full stroke test during cold shutdown.
PV21040l4 ($4!g
NUCLEAR ADMINIS'TRAilIVE AND TECHI'APICALMANUAL Page 42 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-'OMPC)NINT TABLES
'?3DP-9XI01evi 'io'I
'ppendixC Page 13 of 34
.COLD SFH7TDOWN JUSTIFICATION013
QYY~)~EM:
~DO R
Senrice Gas,, Instrument Air, Chilled Water System
GAS-V011, GAE-V015, l'AE-V021 and WCE-V039
13-M-GAP-001 O D6, F213-M-IAP,-003 e G5 and13-M-WCP-001 8 G?
AC
Inboar d'containment isolation valves.
Valves must be tested in a manner that proves thatthe disk is on its seat. A containment entry would berequired to perform this test and the associated lsystezhwould have'to be shutdown for test duration. Containmententry during normal'operation to perfoim;this test is riot
ted d t ~@<A..
'Valves willbe t'ested dur'ing cold shutdown.
PV21548NI (M8)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 43 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 14 of34
COLD SHUTDOWN JUSTIFICATION ¹14
SYSTEM:
N
ErID OORDINATE
ATE ORY:
Instrument Air(IA)
IAA-UV-2
13-M-IAP-003 8 G7
UNTI N~DTDOWN TESTING:
E RED TE TIN
Instrument AirContainment Isolation Valve
Closing this valve during operation isolates allinstrument air inside containment. AllAirOperationValves (AOV)inside containment could not be operated.CH, SI and WC valves would be affected. Also letdownwould be isolated from the RCS. This would causetransients in the RCS volume and charging pipingtemperature leads to fatigue. Valve is solenoid operated andcannot be part stroked. RCS Transients could lead to areactor shutdown.
Full stroke test during cold shutdown.
PV? W40NI (F45),
NUCLEAR ADMINISTRATIVEAND TECHNICALMAN'UAL Page 44 ,'of ,'99
PUMP ANDVALVEINSERVICE TESTING PROCOMPONENT TABLES
GRAM-'3DP-9XI01 Revisio
Appendix C Page 15 of34
COI.D SHVZDOWNJUSTIFIC/PION 815
Y TEM:
ut::.
CATEGORY:
Nuclear Cooling Water (NC)
NCE-V118, NCB-UV-401, NCA-UV-402, NCB-UV-403
'3-M-NCP-003e K6, E7, F7, F6
AC,A,A,A
UN TI N:
~HU K
'«'~I<~.
Valves open to provide a flow path for nuclear coOling watersupply/return to the:reactor coolant pump lube oil coolers,reactor coolant pump seal coolers and Control ElementDrive Mechanism (CEDM) air coolers.
These valves are open during normal operation toallow a supply'of nuclear cooling water to the reactorcoolant pump coolers. Stroking these valves would causeoverheating of the reactor coolant pump motor air coolerslube oil coolers and compromise the integrity of the reactscoolant pump seals. Stroking these valves would also causeoverheating of the CEDMs and cause Control ElementAssemblies (CEAs) to drop into the core. Partial 'stroking isnot possible since the valves are not jog capable. Strokingthese, valves would trip the reactor and damage the ReactorCoolant Pumps and.CEDMs.
Full stroke test these valves during cold shutdown.
PV21 d40M (IHN)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL. Page 45:of 99
PUMP AND VALVEINSERVICE,TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 16 of34
COLD.SHUTDOWN JUSTIFICATION016
Y TEM:
& R
ATE RY:
Reactor Coolant System (RC)
RCA-HV-101, RCB-HV-102, RCA-HV-103, RCB-HV-105RCA-HV-106, RCB-HV-108, RCB-HV-109
13-M-RCP-001 e G-15, F-15, G-14, G-13
1 and 2
High point vent for reactor vessel and pressurizer forventing noncondensables from Reactor Coolant System.
Valves are part ofreactor coolant pressure boundaryand form part of the double isolation valve required by10CFR50.2v. Valves are solenoid valves and cannot be partstroked. Full stroke testing of these valves violates reactorcoolant pressure boundary. Valve malfunction (e.g., stuckopen valve during Mode 1) increases the probability ofLOCA. Additionally, stroking ofRCA-HV-106 (vent tocontainment) would release reactor coolant to containmentatmosphere. This constitutes an ALAI&and radiationprotection concern. Stroking these valves would lead topossible equipment damage and personnel safety hazards.Tech. spec. 3.4.10 requires these valves to be closed duringoperation. Failure ofone ofthese valves in the open positionwould require a reactor shutdown.
Full stroke test valves during cold shutdown.
NUCLEAR ADMINISTFitATIVEAND TECHNICALMANUAL Page 46'f 99
PUMP AND VALVEINSERVICE TESTING PROGRAMCOMPONI NT TABLES
'73DP-9XI01H,evi<~ior
3
Appendix C Page 17 of34
SYSTEM:
UNTI N:
C~OLD Sile'I'DOWN JUSTIFICATION ¹17
Main Steam (SG)
SGB-UV-130, SGB-UV-135, SGA-UV-172; SGA-WT-175
13-M-SGP-0~02 e 612, C12,i G12 and C12.
B
'2
Downcomer feedw,ater isolation valves.
g capableare not jo
Full stroke test'ing at'cold shutdown.
These valves are normally open during operation.:Full stroke testing of these valves during power operationwould isolate up to 15% ofthe normal feedwater QoW 4 theste;am generators and could cause a plant transient andreactor trip. Partial stroking i. not possible as the valves
PVR1048fI (MO)
NUCLEAR ADMINISTRATIVEAND TECHNICAL.MANUAL Page 47 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
Revision73DP-9XI01
Appendix C Page 18 of34
COLD SHUTDOWN JUSTIFICATION ¹18
(Deleted in 73DP-9XI01 Rev. 3)
PYl1040NI (MS)
NUCLEAR ADMINIS'1RA1l.lVE'ANDTECHNICALMANUAL P g 48 f 99
PUMP ANDVALVEINSERVICE TESTIN!G PROGRAM-'OMPONEN'.l'ABLES
73DP-'9XI01H,evisio
3
Appendix C Page 19 of34
COLD SHXFI'DOWNJUSTIFICATION019
Safety Injection and Shutdown'Cooling (SI)
SIE-V114, SIE-V124, SIE-V134, SIE-V144
13-M-SIP-002 8 F13; Fl'1, F6 and F4
UN TI N: Valves open to provide flow paths from the low pressuresafety injection headers to the Primary Coolant System.
:Radiological Controlled Area which is contrary toprecepts.
Full stroke exercise during cold shutdown.,
Flow cannot be established 'to fullstroke exercisethese valves'during operation due to the pressure in the:Reactor Coolant System. Partial stroke exerci~sizlg df thesevalves would require entry into the containment
ALARA.
PV21NOM (lW)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 49 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
3
Appendix C Page 20 of.34
COLD SHUTDOWN JUSTIFICATIONN20
SYSTEM.
N N
P&ID OORDINATE
ATEGORY:
Safety Injection (SI)
SIA-UV-660 and SIB-UV-659
13-M-SIP-001 8 E-7 and A-6
B
UNTI N:
HUTD WN TESTIN
Safety Injection Pump Combined Recirculation.
These valves provide recirculation flow path.to theRefueling Water Tank from HPSI, LPSI, and containmentspray pumps. Ifone of these valves were to fail during theirquarterly test, a complete Safety Injection train would berendered inoperable. (No recirculation flow path.) Thiswould require plant shutdown until the problem could becorrected. Valves are solenoid'operated and cannot be partstroked.
Full stroke time test at cold shutdown.
PV2 WOdN (040)
NUCLEAR ADMINISTRAIIVE AND TECHNICALMANUAL Page 50 f 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-'OMPONEN'.2TAB.LES
'73DP-9XIOlRevi~io
3'ppendixC Page 21 of34
COLD 'SHXJTDOAVNJUSTIFICM'IONN21
~SY TEM
N
Safety Injection and Shutdown Cooling
SIA-HV-6041 SIB-HV-609, SIC-HV-381, SID-IIV-331
13-:M-SIP-001 IG3, C3
SIC-HV-321 and SID-HV-331 are Category A.~ SIA-HV-604and SIB-HV-609 are Category B.
2
Isolation Valves in the long texm recirculatioxi lines to thereactor coolant system hot leg..
'I!~'!IIII<". The PVNGS TekhrlicsIl Specifications require thesevalves be closed during xiorxnal operations. Stroking these.valves during operation would be a violation"of'IhchnicalSpeci6cations.
iFull stroke test these valves during cold shutdown.
PV21040NI (444)
NUCLEAR ADMINISTRATIVE.ANDTECHNICALMANUAL Page 51 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 22 of34
Y TEM.
&I
ATE RY
COLD SHUTDOWN JUSTIFICATION422
Safety Injection (SI)
SIA-HV-605, SIA-HV-606, SIA-HV-607, SIA-HV-608SIB-HV-613, SIB-HV-623, SIB-HV-633, SIB-HV-643
13-M-SIP-002 e E-15, E-12, E-7, E-4
N'
I F RCOLDN
Safety Injection Tank Nitrogen Vent. Tank is vented duringrecovery phase ofsmall break LOCA (such as SteamGenerator Tube Rupture) to preclude inadvertent dischargeofTank into Reactor Vessel.
Stroking these valves during operation would be aviolation ofTechnical Specifications. Partial stroking is.notpossible as these valves are solenoid valves. Full strokingduring operation is not practical since the. valves are closedand power is removed during operation per TechnicalSpecification 3.5. le. Cycling the valve during operationwould reduce the pressure in the Safety Injection Tankbelow Technical Specification Limits (600 psi). This wouldrender the Tank inoperable. Rendering each tank (i.e., 4 of4) inoperable. once each quarter is unwarranted. There areno block valves for the vents. Ifa valve were to fail open,
'he
effected tank would be inoperable and could not beremedied without a shutdown and containment entry.
E IRED TESTING: Full stroke exercise during cold shutdown.
NUCLEAR ADMINISTFtA,lIU E AND TECHNlCAL IVlANUAL Page 5'2 of',99',
PUMP ANDVALVEINSERVICE TESTING PROGRAM-'OMPC)NINT TABLES
ReviSio73DP-9XIOl
.Appendix C Page 23, of34
COLD SIIU'I'DOWNJUSTIFICATION N23
SYSTEM:
CATEG RY
Safety Injection and Shutdown Cooling System (SI)
SIB-UV-614,, SIB-UV624, SIA-UV-634,'SIA-UV-644
13-M-SIP-092 e Ail4,iA12, A7'and A4
FUN TI N Saf'ety Injection Tank Isolation Valves provide flow pathsfrom the Saf'ety Injection Tanks to the Primary Coolan'tSystem during operation. T'e valves are closed to isolatethe Safety Injection Tan'ks in cold shutdown and refueling.
Full or partial stroke testing of these valves duringoperation is 'contrary'to the safety function oft these
valves.'he
PVNGS Technical Specifications require the isolationvalves to be key-locked open and,power to the valveremoved to ensure. an unobstructed flow path~. Strokingthese valves during operation would be a violation ofTechnical Specificatictn.
Full stroke test during cold shutdown.
PV21040M (848)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 53 of 99
PUMP AND VALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XIOlRevision
Appendix C Page 24 of344W
COLD SHUTDOWN JUSTIFICATIONN24
Y TEN:
ATE RY:
UN TION:
DINA
Safety Injection and Shutdown Cooling (SI)
SIA-UV-651, SIB-UV-652, SIC-UV-653, SID-UV-654,SIA-UV-655, SIB-UV-656
13-M-SIP-002 IC3, C10, E3, E10, G3, G10
Allvalves are Category A
SIA-UV-655 and SIB-UV-656 are Class 2SIA-UV-651, SIB-UV-652, SIC-UV-653, SID-UV-654 areClass 1
Shutdown Cooling Isolation Valve
H TD WNTE TINGThese valves are provided with interlocks whichprevent them from being opened ifthe pressurizer pressureis in excess of400 psig. The Class 1 valves provide pressureisolation function between Reactor Coolant System andShutdown Cooling System as noted in Tech. Spec. 4.4.4.2.1.Opening of these valves would overpressurize their pipingsystem.
Full stroke test during cold shutdown.
PV21040t4 (048)
NUCLEAR.ADMINISTRATIVEAND'TECHNICALMANUAL Page 54 of 99,
PUMP ANDVALVEINSERVIiCE TESTING PROGRAMCOMPC)NI"NT TABLES
73DP-9XI01gevi~io
3
.Appendix C Page 25 of 34
SYSTEM:
NEN
0
ATE ORY:
COLD SI'K7I'DOWNJUSTIFICATIGNN25
Main Steam (SG)
SGE-UV-170, SGE-UV-171, SGE-'UV-180, SGE-ZJV-181
13-M-SGP-001 e H-10, F-10, D-10, B-10
B
N I N:
Bg!M&I
Main Steam Isolation Valves (MSIV)
'Valves are tested per code (part stroke test quarterly).These valves cannot be full stroke tested du6ngioperation.Closing an MSIVduring operatio~ would cause a turbinetrip and would cause a reactor trip. Main steam safetyvalves would liA;and secondary pressure/level would varydramatically.
:Full'stroke and'ime test at cold shutdown frequency in:Mode 3 (at'secondary normal operating pressure). This:includes Pull Stroke '.Est of'Instrument Aircheck valves.
PV21048NI (IRN)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 55 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XIOlRevision'ppendix
C Page 26 of 34
COLD SHUTDOWN JUSTIFICATION026
QYYTEM:
&ID ORDINATE
gAAQhb.GR
UN TIN'D
WN TESTIN
Main Steam (SG)
SGB-UV-132, SGB-UV-137, SGA-UV-174, SGA-UV-177
13-M-SGP-002 O E-12, B-12, E-13, B-13
B
Economizer Feedwater Isolation Valves (FWIV)
These valves are tested per code (part stroke testquarterly). These valves cannot be full stroke tested duringoperation. Closing an FWIVwould isolate feed flow tooperating steam generators causing loss ofsecondary levelcontrol and,a subsequent reactor trip.
Full stroke and time test at cold shutdown. Full Stroke testincludes fullstroke test ofInstrument Aircheck valves.
PV21&08NI (486)
NUCLEAR ADMINISTRAlIVE AND TECHNICALMANUAL Page 56 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Ripvlslo
Appendix C Page 27 of 34
COLD lSHXJTDOWVNJUSPI'IFICATION ¹27
SYSTEM:
0
QLAGR
Safety Injection (SI)
SIA-HV-691 and SIB-HV-690
13-M-SIP-002 8 H.'-4, H-13
A
o
Shutdown cooling warmup bypass valves allow for warmupofshutdown cooling heat exchanger and associated piping',prior to initi,ation ofshutdown cooling.
Ifthe warmup bypass valves were to fail open duringthe:ir quaxtexly 'tes'ting (at power) and a small break. LOCAwere to occur, shutdown cooling would be reqx)irked lo bkoperable with these warmup bypass valves closed. %ch.Spec. 3.7.11 would therefore be violated and the unit wouhave to be shutdown. Ifthe valve failed closed, the ~
. hutdown heat exchanger and associated piping could bethermally shocked.
Full stroke test, during cold, shutdown.
PVR'l040NI (de@)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page 57 of99'UMP
AND VALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XIOlRevision
Appendix C Page 28 of34
COLD SHUTDOWN JUSTIFICATION028
QYYTEII:
&ID RDINATE'ED
Main Steam (SG)
SGA-V043, SGA-V044
13-M-SGP-001 @ E-12, C-12
UN TION:
A I F RC LD
Valves open to provide main steam supply to steam drivenauxiliary feedwater pump.
Valves willbe part stroke exercised during quarterlypump test per T.S. 4.7.1.2. Full stroke exercising of
valves'ould
require fullflow injection ofauxiliary feedwater intohot steam generator. Use ofauxiliary feedwater duringplant operation willdamage feedwater piping and/or steamgenerators via thermal shock/fatigue. Additionally, theinjection ofcold auxiliary feedwater would upset the steamgenerator pressure and levels and could lead to a reactortrip and/or main steam isolation signal (MSIS).
Full stroke exercise valves during cold shutdown whensteam pressure permits testing as noted in Tech. Spec.4.7.1.2.
PV21046M (IAWj
NUCLEAR ADMINISTRATIVEANDiTECHNItt:AILh/IANUAL Page 58 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAMCOMPONENT TABLE'
,730 P-9XIOlRevisio
Appendix C,gage 29 of34
COLD SHUTDOWN.JUSTIFICATI.ONN29
Y TEM:
MP
Safety Injection (SI)
SIA-V434, SIB-V446
13-M-SIP-001 |N F,-9,, B-9
FUN TION:
Il~BTaa"
~XltM.
Valves open to provide low pressure ECCS flow to Reactox"Coolant System. Valves also open to provide f lofti path forshi.itdown coohng.
:Full flow exercise during shutdown coolingpump functio'n. as the shutdown cooling pu
when LPSImp.
'Valves willbe pari-stroke exercised during pl'antoperation. Flow rates needed to achieve fullstroke exex cisecannot be at tained during plant opex at~on. The only flowpath capable ofproviding fullflow exercising is intcI thereactor coolant sy. tern. ]Dunng plant operation, RCS
. pressure is significantly higher than shutoff head ofL6wPressure Safety Injection (LPSI) pump. LPSI~pump cannot:inject into RCS due to pressure in RCS.
PV21 IHSN (M4)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL Page, 59 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01evision>
Appendix C Page 30 of34
COLD SHUTDOWN JUSTIFICATION.030
SYSTEM.
P&ID C ORDINATE
ATEG RY:
Safety Injection (SI)
SIB-V484, SIA-V485
13-M-SIP-001 e C-9, H-9
FUN TI N:
SHUTDOWN TESTING:
RE UIRED TESTING:
Valves open to provide containment spray flow toContainment Building. Valves also open to provideshutdown cooling flow.when containment spray pump isused for shutdown cooling.
Valves cannot be fullstroked exercised duringoperation (in containment spray mode) without sprayingdown inside the Containment Building. Initiation ofcontainment spray during operation willdamageequipment by spraying water on electrical equipment and,soaking equipment with boric acid. Operation of thecontainment spray pump on shutdown cooling is notpossible since the discharge head ofthe pump issignificantly below the Reactor Coolant System pressure.
Full stroke exercise these valves during, cold shutdownusing the containment spray pump as a shutdown cooling"pump.
PV21dOSNI /MS)
NUCLEAR:ADMINIISTRATIVEAND TECHNI( AL MANUAL Page 60 of,99
PUMP ANDVALVEINSERVICE TESTING PROCOMPONENT TABLES
GRAM-'3DP-9XIOl Revi«+io
31
Ap~pendix C Page 31.of 34
COI,D SIIU'I'DROWNJUJSTIFICATIOIl N31
~SY TEM:
MP
Safety Injection (SI)
SIE-V540, SIE-V541, SIE-V542, SIE-V543
13-M-SIP-00~2 e 0-13, C-ll', C-6, C-'4
.AC
UN TION:
IXIIII'alvesopen to provide Safety Injection and shutdown
, cooling flow into the Reactor Coolant system.
The injection flow rate of the Low Pressure Safety ~
Injection'(LPSI) pump and injection pressure of the LPSI2plus High Pressure Safety Injection (HPSI) pUmpcombined, is not adeq~uat'e to overcome Reactor Coo'lantpressure during normal operation. Flow rates cannot beattain'ed and pressure is well below RCS pressure.
Full stroke exexcise these valves during cold shutdownwhen the SI system is aligned for shutdown cooling.
PV21b488I (848)
NUCL'EAR ADMINISTRATIVEAND TECHNICAL'MANUAL Page 61 of 99
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 32 of34
COLD.SHUTDOWN JUSTIFICATIONN32.
Y TEM:
&ID RDINATE
~ZE
GLARN
A I F R LD
E UI EDTE TIN
Chemical and Volume Control (CH)
CHN-V494
13-M-CHP-003 O E-14
AC
This valves only SAFETY Function is containmentisolation.
Valve is inside containment. Ib full stroke thisvalve closed during operation would require a containmententry. Containment Entry during operation is notwarranted due to ALARAconcerns and safety ofplantpersonnel.
Valve willbe tested during cold shutdown.
PV21040NI (04Sj
NUCLEAR"ADMINlSTRATIVEAND'TECHhllCALMAN'UAL Page 62 of 99I
PUMP-AND VALVEINSERVICE TESTING PROGBAM "-
COMPONENT TAX)LES'.73DP-9XI01
Revisio<
3
-Appendix C Page.33 of34
COI~D SHUTDOWN JUSTIFICATION433
SYSTEM:
QE E!:E
Main Steam (SG)
SGE-V003, SGE-V005~ SGE-.V006, SGE-V007
13-M-SGP-002', O E-KO, A-IO, A-10, E-10
GLEBE
F N TI N.
~EEEIIIEI'-
SIZE—EEEE
The normal functiion of the valves is to open and'provide aflow path for feedwater flow to the steam gen'eratox's. Thesafety function is to close.
Full stroke exercise every three months or partial strokeexercise every three months and fullstroke exercise at coldshutdown.
These valves are in t'e feedwater inlet lines to 0ach steagenerator and are open during power operations. Fullstroke or partial stroke testing of these valve's during
'perationwould require securing feedwater flow to.thesteam generator and cause a reactor. trip.
Test valves in Mode 5 when feedwater line temperature andpressur'e permiit borescope:inspection to veri@ valveclo,sure.
PV21dOdN (IRS)
NUCLEAR ADMINISTRATIVEAND TECHNICALMANUAL'age 63 of 99,
PUMP ANDVALVEINSERVICE TESTING PROGRAM-COMPONENT TABLES
73DP-9XI01Revision
Appendix C Page 34 of34
COLD SHUTDOWN JUSTIFICATION034
SYSTEM:
P&ID 0 RDINATES.
ATEGORY:
Safety Injection (SI)
SIA-V997, SIB-V998
13-M-SGP-002, O E3, D10
AC
I N'pen to prevent pressure locking of shutdown coolingsuction isolation valves SIA-V653 and SIB-654. Close forcontainment integrity.
Full stroke exercise every three months, or partial strokeexercise every three months.and fullstroke exercise at coldshutdown.
Valve is inside containment. 'Ib exercise this valve duringoperation would require a containment entry. Containmententry during operation is not warranted due to ALARAconcerns and safety ofplant personnel.
Full stroke exercise valves during cold shutdown.
APPENDIXD - IST PUMP PROGRAM COMPONENTS
TEST PARAMETERS
PUMPNUMBER PUMP NAME
ISI P &IDCLASS COORDINATES PROCEDURE SPEED
INLET DIFF.PRESSURE PRESSURE
BEARINGVISRATIDN TEMP NOTES
AFA-F01
AFB-P01
AFN-P01
AuxiliaryFeedwater Pump(Turbine Driven)
AuxiliaryFeedwater Pump(Motor Driven)
AuxiliaryFeedwater Pump(hfotor Driven)
AFP-001D6
AFP-001C6
AFP-001H6
73ST-9AF02 h(
73 ST-9AF03 NA
73ST-9AF01 NA
C PRR-1
PRR-1
PRR-1
h( PRR-7
h( PRR-7
PRR 7
CHA-P01 Charging Pump
CHB-P01 Charging Pump
CHP-002B3
CHP-002T\
40ST-9CH06 NA
40ST-9CH06 NA
PRR-2
PRR-2
PRR-2
PRR-2
h(
h(
PRR-7
PRR-7
CHE-P01 Charging Pump
CTA.P01 Condensate Transfer Pump
CHP-002G3
CTP-001C5
40ST-9CH06 NA
,73ST-9CT01 NA
PRR-2 PRR-2
M,
PRR-7
PRR-7
CTB-POi
DP~h D01
CondensaTe %'ansier Pump
Diesemenerator Fuel OilTransfer Pump
CT1P-001
A6
DFP.001B6
73ST-9CT01
en~ IInmnilOOl Vl/CVJ
NA
%T lan C
ht PRR-7
PRR-7
*This pump is not an ASME Code Class Pump, however, augmented testing is done in accordance with the PVNGS 7bch. Specs 3/4 7.1.2.
8>)g MMZQ (/IgW
jg~ I,J
Lix) ~DD
Q
0m.O;xA-I
Z'CA-P01
Essential Chilled WaterCirculation Pump
DFB-P01 Ihesel Generator Fuel OilTransfer Pump
npp.OnlB2
ECP-001BS
73ST.9DP01 NA
73ST-9EC01 NA h(
h1 DR'R R
h(
DRD 7
PRR-7
5S4
rc 5'p
ECB-P01
EWA-P01
EBB-P01
Essential Chilled WaterCirculation Pump
Essential Cooling WaterPump
Essential Cooling WaterPump
ECP-001B4
EWP-001E6
EtVP-001--E2--
73ST-9EC01 NA
73ST-9EW01 NA
73ST-9EWOl NA
h(
h(
h(
h1 hf
PRR-7
PRR-7
PRR-7
CO
0
APPENDIX D - IST PUMP PROGRAM COMPONENTS
PUMPNUMBER
PCA-P01
PCB-P01
SIA-P01
SIB-P01
SIA-P02
SIB-P02
SIA-P03
SIB-P03
SPA-Pol
SPB-Pol
PUMP NAME
Spent Fuel Pool CoolingPump
ISI P BIDCLASS COORDINATES
PCP-001D15
Spent Fuel Pool CoolingPump
PCP-001B15
LPSI Pump
LPSI Pump
HPSI Pump
HPSI Pump
SIP-001Gll
SIP@01Bll
SIP-001Ell
SIP-001All
Containment Spray Pump
Containinent Spray Pump 2
l
SIP-001Hll
SIP-001-Cll
Essential Spray Pond Pump 3 SPP-001C4
SPP-001C7
Essential Spray Pond Pump 3
PROCEDURE
73ST-9PC01
73ST-9PC01
73ST-9SI1173ST-9SI14
73ST-9SI1173ST-9SI14
73ST-9SI1073ST-9XI33
73ST-9SI1073ST-9XI33
73ST-9SI0673ST-9SI15
73ST-9SI0673 ST-9SI15
73ST-9SP01
73ST-9SP01
SPEED
NA
NA
NA
NA
NA
NA
NA
NA
NA
TEST PARAMETERS
FLOWRATE
PRR 10
C C PRR-10
PRR-6
PRR-6
PRR-6
PRR-6
PRR-6
PRR-6
INLET DIFF.PRESSURE PRESSURE
PRR-11 NA
PRR-7
PRR-7
M PRR-7
hI PRR-7
hf PRR-7
hI PRR-7
M PRR-7
PRR-7
BEARINGVIBRATION TEMP
PRR-11 NA
NOTES
AugmentedComponent, 'It.stedper Ohf-6,Added perCRDR 960497
AugmentedCoinponent, Testedper Ohf-6, Added perCRDR 960497
PRR-5
PRR-5
4
4
8>~gMRQK
<D
m~Q
OQ
5',Ei
zO
U5z(0
X
(m
RU
Oxz0
zI-
Appendix E: IST Valve Program Components
VALVENUMBER
d'Pd TTAR'TAAAAA A VV(
AFA-V015
AFB-V022
Ann AinnATTI' T V4'A
AFA-V079
AFB-V080
AFA-V137
AFB-V138
P&ID
ADD AITTAAA' VVA
AFP-001
AFP-001
Ann AnTTr'r-vvd
AFP-001
AFP-001
AFP-001
JhFp.nnl
TDluI-ZOK00O
TVTJJ ~
D5
07
C5
D2
C2
0(9I-OUJ
UJNT7J
UJ UI
nV norVD.
3 C 8" CK
3 C 6" CK
3 C 6" CK
6" CK
GK
3 0'" CK
'UJ
0I~DI-0
z0ICD0n.
K0z
z0I-OUJKO
, UJ
0KITD
C ADn
lia/\V
SA 0
SA 0
0C
0
SA C
00
0
0
SA 0
Sh
SA C
O0I-TD
I-
ZgZO I-I- <DOZ UCD ~O TD
0'~O
nnmrodFST
FSTFST
PST
FST'ST
OPCS-3
CS-3CS-3
OPCS 3
CS4CS-3
CS-3
iCSJ I
CSJ-2
CSJ-1
CSJ-?
Cwr.3
CS4 CSJ-3
PSTFST
OP
ODCS4
CSJ-1
eedwate r (AF) Valves
TD
KDO
O0Kn.
73 ST-9AF0273 ST-9AF02
73 ST-9AF0273 ST-9AF03
73 ST-9AF0373STlgAF03
73ST-9AF03'3sT-9AF02
73ST.gh F02V3ST-9AF03
73ST-9AF0273 ST-9AF03
73 ST-9AF02'7'1~ TT d TI lie~ 'MUL Silk VJt
enem n A DnnTVVA VDA'VV
73 ST-9AF03
REMARKS
*'1%st frequencv being evaiuateriper CRDR 940174
'I@st frequency being evaluatedner CRDR 940174
nenet 75
penet. 76
zOIm
XI
O5zV)
rn
ZU
fAAx0
AFB-HV30 AFP-001 B4 3 B 6" GL MO C 0/C FSTVPI
OPRF
73 ST-9XI0573ST-9XI05
AFB-HV31
AFA-HV32
AFP-001
AFP 00T
3 B 6" GI MO C 0/C
0/C
1TDTTA A
OPRF
OPRF
73ST-9XI05rvnnm nviAe.TVD1 @~VV
73ST-9XI0573ST-9XI05
AFC-HV33 AFP-001 C4
AFA-HV54 AFP-001 G4
B 6"
B 4"
GL
GL
MO C
MO C
0/C
0
FSTVPI
FSTVPI
OPRF
OPRF
V3ST-9XI0573ST-9XI05
73ST-9XI05'?3S J-gXI05
h%'lT TTV'Td ADD AAAAAA' VVAnnDV A MO P
RF73S1-gXI0573ST9X105
penet. 75
AFB-UV35 AFP-001 C3 B 6" GA MO 0 0/0 OPRF
73ST-gXH573ST-9XI05
nenet. 76TDC
0
VALVENUMBER
AFC-UV36
AFA-UV37
CHN-V118
CHA-V177
CHA-V190
CHB-V305
CHA-V306
CHA-V328
CHB-V331
CHE-V334
CHE-V429
PAID
UJLLlI-z0K00O
AFP-001 D3 2
AFP-001 C3 2
CHP-002 A8 2
CHP-002 C15 2
CHP-002 013 2
CHP-002 B2 2
CHP-002 E2 2
CHP-002 G2 2
CHP-001 D16 2
CHP-002 C7 2
CHP-002 B8 2
K06I-O
LLJNLO
UJ
6"
6
48
38
3g
20"
20"
2'"
2"
2
0I-I-0
z00UJK0LU
0KI-oJ
z0ILIJ
0n.
K0zGA MO C 0/C FST
VPI
FSTVPI
GA MO C 0/C
al AnChemic lume Cd Vo
CK SA 0/C
CK SA C
0 FSTCK SA C
CK SA C 00C
PSTFSTFST
PSTFSTFST
00C
CK SA C
CK SA 0/C
CK SA 0/C
CK SA 0/C
CK SA 0
0
0
0
0 FST
zgzOO0 I
hoLIJ
~
O
00l-an
l-
OPRF
OPRF
ontrol (CH) Valv
OP
CS4
CSJ-4CS-3
OPRFRF
OPRFRF
OP
OP
OP
OP
es
VRR-6
LO
KD0O0KQ.
73ST-9XI0573ST-9XI05
73ST-9XI0573ST-9XI05
penet. 75
penet. 76
REMARKS
40ST-9CH06 From YCTA, B, E
4xST-xCH04
4xST-xCH04
73ST-9SI11V3ST-9XI2940ST-9SI09
Boration Flowpath from RWTthru 514 (When Required)
Boration Flowpath from RWTthru 536 (When Required)
During Fuel Pool Fill~Test freq. being eval. per CRDR940174
73ST-9SI1173ST-9XI29 During Fuel Pool Fill40ST-9SI09 ~~Test freq. being eval. per
CRDR 940174
40ST-9CH06 A Discharge
40ST-9CH06 B Discharge
40ST-9CH06 E Discharge
40ST-9CH06 A, B, E
8>~g M
Omg t4
HA
g t3
Q
0Q
zO
XI
O5RM
XI
(Ill
z0IOxZAl
z
CHE-V431
CHE-V433
CHE-V435
CHE-V440
CHP-001 H9 1
CHP-001 G9 1
CHP-001 F10 1
CHP-002 C2 2
2"
2
2"
CK SA C
CK, SA 0
CK SA C
CH SA C
0
0
0
FST CS
OP
OP
CS/RF
CSJ-6 73ST-9XI27
40ST-9CH06 A,B,E
40ST-9CH06 A, B, E
41ST-1CH02 HPSI Header Special BorationIWV3416 When RequiredOperable
CHN-V494 CHP-003 E15 2 AC
CK SA C FSTAJLT
CSRF
CSJ-32 73ST-9XI2873ST-9CLOl
penet. 45Cont. entry required co g™)
0
VALVENUMBER
CHN-V835
CHE-V854
CHE-VM70
nirn rrrrnnnPnv.n v r.vo
CHA-HV205
CHE.HV239
CHE-PDV240
CHB-HV255
CrIA-HV624
CHB-HV530
Ci%A-HV631
CHE-HV536
P&ID
LOUlI-zOK00O
CHP-001 G3
CHP-001 E15
CHP-001 F15
nrrn nnrvnr-vvx niv
CHP-001 Gll
CHP-001 Gll
CHP-Oul Gll
CHP-001 G4
CHP-001 D16
CHP-002 B15
CHP-002 A14
CHP-002 14
K0(9I-0
2 AC
2 A
2 A
B
1 B
2 B
2 B
3 B
UlNCO
LU
Ul
5
1 1/2" CK
3/4 Gl
3n CK
2" GL
2 GL
GL
GL
20" GA
~ K0I~
z0I-IO0n.
K0z
40
0IUlKOLIIhC0KIIO
SA 0 C
MAN C C
SA 0 0
SOL VIC
AO 0 C
AO
MO 0
MO 0 0
MO 0 C
MO 0 C
MO C 0
SOL C 0/C
O0I
I
FSTAJLT
CSRF
AJLT RF
rerVPI
FSTVPI
CSRF
CSRF
FST OPYl'L
FSTVPI.
FSTVPIAJLT
OPRF
CSRFRF
FSTVPI
FSTVPI
FSTVPI
CSRF
8RF
CSRF
FST OPi rrrn
ESV Lil
zgz00I- <O I-DOLO~O In
I-OD0
CSJ-10
CSJ-6
CSJ-6
CSJ-9
CSJ-4
I-(oLllD0UlKU.Ul
IllK
V)
KDO00'K
73ST-9XI2673ST-9CL01
73ST-9CL01
penet. 72
REMARKS
40ST-9CH06 penet. 4173i) l 9CL01
73STi9XI22738T-9XI27
73ST-9XI22738T-9XI27
73ST-9XI067357-9XI06
r\ rrAr Wr Fi
Aux Spray
Aux Spray
738T-9XI06738T-9XI06
V38T-9XI2273ST-9XI22
ST-9CLOI
73ST-9XI2273ST-9XI22
Grav. Flow Isol. to Charging
738T-9CL01 Locked Open
73ST-9XI22738T-9XI22
ST-9XI22738T-9XI22
8>~
QR
mQ
Q
Q
ZAIm
U5zU)
ZCl
lTIAxAI
CI
CHN-UV601
CHB-UV605
CHP-002 C7
CHP-002 H13
2 B 4n
Iran
MO 0 C
AO 0 0/C
FSTVPI
FSTVPIAJLT
CSRF
CSJ-5 73ST-9XI22V38T-9XI22
V38T-9XI22V38T-9XI2273ST-9CL01
Discharge from VCT
penet. 43
CHA-UV506r
CHPW02 H14 2 A GL AO 0 0/C FSTIT
CSJ-7 73ST-9XI22738T-9XI22738T9CM1
penet. 43
CHN-UV514 CHP-OQ? 10 IO C 0 FSTVPI
CS-
RF73ST-9XD273ST-9XI22
BAMP Di sr barrieCD
Cg0
VALVENUMBER
CHB-UV515
CHA-UV516
CHB-UV523
CHA-UV560
CHB-UV561
CHA-UV580
CHA-UV715
CHB-UV924
PAID
CHP401
CHP-001
CHP-001
CHP-003
CHP-003
CHP-003
CHP-003
CHP-001
CJIUlI~z0K00O
H15
H15
F13
B15
A15
E14
E13
E14
K0C9
I-OIJI
IUMcnIU
B 2" GL
A 2" GL
A 2" GL
A 3" GL
A 3" GL
A 1/2" GL
A 1/2 GA
A 1 1/2 GA
z0I-CO
0Q.
K0zAO 0
AO 0
AO 0
AO 0/C
AO 0/C
AO 0/C
SOL 0/C
SOL . 0/C
z0OI
UJK0UJV0KI-CJJ
FSTVPI
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
00I-
I-
CSRF
CSRFRF
CSRFRF
OPRFRF
OPRFRF
OPRFRF
OPRFRF
OPRFRF
zyz000 I-hoCIJ
~~x:O u)
OwO
CSJ-8
CSJ-8
CSJ-8
I-Cl)UJD0UJKUUJ
IJJK
Cl)
KOO0K
73ST-9XI2273ST-9XI22
73ST-9XI2273ST-9XI2273ST-9CL01
73ST-9XI2273ST-9XI2273ST-9CL01
73ST-9XI0673ST-9XI0673ST-9CLOl
73ST-9XI0673ST-9XI0673ST-9CL01
73ST-9XI0673ST-9XI0673ST-9CL01
73ST-9XI0673ST-9XI0673ST-9CLOl
73ST-9XI0673ST-9XI0673ST-9CL01
penet. 40
penet. 40
penet.44
penet. 44
penet. 45
penet. 45
penet. 40
REMARKS
8>~g MMRQ O3
L?0~>
+A
C'aQ) M
4Q
0
zOm
U5zCO
ZJ
(m
zU
mOxO2?I
zCHN-PSV115 CHP-002 C6 2, C 3" PSV SA C 0 PSVT 73 ST-9ZZ20
CHN-PSV199
CHA-PSV315
CHB-PSV318
CHE-PSV321
CHE-PSV324
CHB-PSV325
CHA-PSV326
CHP-002
CHP402
CHP-002
CHP-002
CHP-002
CHP-002
CHP-002
H15
C5
F5
H5
H2
C2
2
C 3/4" PS V
C'/4" PSV
C 3/4" PS V
C 3/4 PS V
C 3/4" PS V
C 3/4 PSV
C 3/4" PSV
SA C
SA C
SA
SA C
SA C
SA C
SA C
0
0
0
0
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
73ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20 CO gO
VALVENUMBER P&ID
CHN-V154
nrrar trippVflllT LVV
CHP-nn2
rrirn nnnVTTr-VV4
CHN-V144 CHP-002
CHN-V164 CHP-002
CHA-V316 CHP402
CHB-V319I
CHE-V322
HB-V327
CHA-V755
CHB-V756
CHE-V757
CHP402
CHP-002
CHP-002
CHP-002
CHP-002
CHP-002
CPA TUV2A r,PP QQT
CHN-PSV345 CHP-001
CHN-PSV354 CHP-001
CHN-PSV865 CHP-001
CoIUl~zOK00O
E12
E9
H6
rl2
DC 4
B14
Dll
B5
D5
C5
D5
F6
n6
0K0UI-O
IUNcoIll Ui
2 C 2" PS V
2 C PSV
3 B 4" DIA
3 B 3" DIA
2 B 4" DIA
2 B 4" DIA
B 4"
3%
2 B 3"
DIA
DIA
DIA
DIA
2 B 3" DIA
d~ r 4+Ii
2 C 3/4'S V
3 C3"
0I-D0I-
z'0I-Cil0Q.
K0zSA
SA
SA
C'A
hIAN
hIAN
MAN
z,0I0nlKOIU
0KI-co
O0I-CQ
I
C 0 PSVT
C 0 PSVT
C 0 PSVT
FST
FST1
rS3
CS4
C 0/C FST OP
C 0/C FST Op
0 0/C FST OP
0 0/C FST OP
0 0/C FST OP
C O/C FST OP
C 0/C FST OP
C 0/C FST OP
C 0/C FST OP
CQntnI 0 (CP)t Pllrgnmen
C CRFRF
VPIAJLT
zyz00O I-5oCO~o~J gOwO
CSrIW
Vgly09
rrv 1 11%JIM J r
I-CQIUD0IUKUIU
IUK
co
KOO0KQ.
73 ST-9ZZ20
REMARKS
4xSTrxCH04 Added per CRDR 920679.09
73ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added Der CRDR 930025.03
V3ST-9XI31 Added per CRDR 930025.03
V3ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added per CRDR 930025.03
73ST-9XI31 Added per CRDR 930025.03
no em nv T iro~ rrlrr prrr r rr
73ST-9XI2373ST-9CL06
pellet 66
73 ST-9ZZ20
73ST-9ZZ20 Valve installed in Unit 1 only.
rlvCTvr.CTCIk
8>)
C'™riI 1=1
Q
C)
ROIITl
XI
U5zMXl
(Ill
O:
ITIAx
I
zC
ICPA-UV2B CPP-001 E3 2 A 42" BTF hlo C C FST
VPIAJLT
CSRFRF
CSJ-ll 73ST-9XI23V3ST-9XI2373ST-9CL10
penet. 57
DD Trrr'rDl rr v rrrrr Cnn 00
CPB-UV3A Cpp-001 D5
r. nri4 A mr'T4 Bmn
2 A 42" BTF MO C C FSTVPIA TTmrrrrrrr
FDcVPIAJLT
RFDDprr
rrrr
RFRF
CSJ-ll
rrrr ~ ~ ~CriX ll
73ST-9XI2373ST-9XI23rrnCmnprr nnI\rrrr pvlrvv~rirrvrlrrrrrrr rfr)DC VAI4r173ST-9XI2373ST-9CL10
penet. 56
penet. 57
'to
O01O
coC1
co gO
VALVENUMBER
CPA-UV4A
CPA-UV4B
CPB-UV5A
CPB.UV5B
CTA-V016
GTA-V018
CTB-V019
CTB-V020
CTA-V037
CTB-V038
CTA-HV1
P&ID
V)lUI
zOK00O
CPP;001 D6
CPP-001 D3
CPP-001 D5
CTP-001
CTP-001
CTP-001
CTP-001
CTP-001
CTP-001
GTP-001
C3 3
B3 3
A4 3
C4 3
B4 3
D2 3
CPP-001 D2
K0tsUJI-OUJ
B
IllNVJUl
8"
8"
3II
3 II
3II
3%
3ll
3ll
10"
UI
Q.
0
z0IVJ0Q.
K0z
z0OI
UJKOUJhC0KI-VJ
I-VJ
I-
O0I-
I-
z~oOOO I-I- <DOVJ~0 VJ
I-
O~O
BTF AO C
BTF AO C
BTF AO C
'TF
AO C
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
OPRFRF
OPRFRF
OPRFRF
OPRFRF
ndenCo sate
CK SA C
GA MAN C
GA MAN C
CK SA C
CK SA C
CK SA C
BTF MO C
0
0
0
0
0
0
FST
FSTVPI
OP
OP
OP
OP
OP
OP
OPRF
Transfe alvesr (CT) V
VJI-UIDOUJKUUJ
K
VJ
KOOOK
73ST-9XI1573ST-9XI1573ST-9CL07
73ST-9XI1573ST-9XI1573ST-9CL07
73ST-9XI1573ST-9XI1573ST-9CL07
V3ST-9XI1573ST-9XI1573ST-9CLOV
penet. 78
penet. 79
penet..V8
penet. 79
REMARKS
73ST-9XI09
73ST-9XI10
V3ST-9XI05
73ST-9XI09
73ST-9XI09 NRC Letter
73ST-9XI10 NRC Letter
73ST-9XI10
CR
8>~
M4Q K
Q M
Q
zC:O
Zl
O5z
XI
Cm
zU
mOxZ0
z
GTA-HV4 GTP-001 D3 3 10" BTF MO C 0 FSTVPI
OPRF
V3ST-9XI05
DFA-V012
DFB-V019
DFP-001
DFP-001
D6 3
D2 3
2"
2"
Diesel
CK SA C
CK SA C
Fuel Transfe r (DF)
0 OP
OP0
Valves
73ST-9D F01
73ST-9D F01
Diesel Generator (DG) Valves
DGA-V066 DGP-001 B7 3 C 1" CK SA 0/C CSheet 1
OPCS
V3ST-9XI17 1-673ST-9XI 17
CCO g'
VALVENUMBER
DGA-V067
DGB-V068
DGR.yn69
DGA-V317
DGA-V318r
nr.h.yaw
DGA-V355
DGA-V364
nn A rrnnnuVrerOVV
DGA-V397
DGB-V417I
9GB-V418
DGB-V432
P&ID
cn
I
2CIK00,0
DGP-001 B7 3Sheet 1
DGP-001Sheet 1
DGP.nn1Sheet 1
B3 3
arm nniL/vr vvhSheet 6
7
DGP-001 C7Sheet 6
3
DGP-001 F2 3Sheet 4
DGP-001 D2 3Sheet 4
DGP-001 E3 3Sheet 6
DGP401 F6 3Sheet 4
DGP-001 D6 3C'hnnf 8
IlnD CLA1VJSheet 7
DGP-001 C7 3Sheet 3
DGP-001 C6 3CrL AhArllr r I
K0C9
I-0ILI
C 1"
C 1"
C 6"
C 3"
0
0 6
C 3"
C 3"
C - 6"
C 3"
UJNCO
LU
UI
0I~D0
CK SA
CK SA
CK
CK SA
CK SA
C.'
CK SA
CK SA
CK SA
CK SA
CK SA
z0I-CO
0IL
K0z
z00UJKOLU
0KI-cn
0/C C
n/0 0
C 0 FST
0/C 0 FST
n n\r
C 0 FST
0/C 0 FST
C 0 FST
0/C 0 FST
C 0 FST
0/C C FST
O0I-cn
I-
OPCS
OPCS
np
OP
OP
ADVA
OP
OP
OP
OP
OP
OP
zyzOO0 I-I- <DOca~x:o cn
I
OD0
cnI-LLIDOUJKU
UJK
cn
KDO00K0.
73ST-9XI 17
73ST-9XI171-6
REMARKS
73ST-9XI18 1-679RT 4xr1 a
'NQV CLYLla~ vv J vr ~ Jv73ST-9XI18
4xST-xDG01
4xST-xDG01
A..em .nnnr'AXJA Xrrvvh
4xST-xDG01
4xST-xDG01
4~ J-xDG01
4xST-xDG01
4xST-xDG02
Tssted with Train "A"air startsystem
4xST-xDG02
4xST-xDG02
Jested wIth Jram =B 'Irstartsystem
'rJ
CD
rc
zOl.I33
O5ZU)
F.
ITl
ZCl
illAxAI
zCI
DGB-V455 " DGP-001 C4 3Sheet 4
C 6" CK SA C 0 FST OP 4xST-xDG02
DGB-V464 DGP-001Sheet 3
C2 3 C 3" CK SA 0/C 0 FST OP 'xST-xDG02
GB-V496 DGP QQ1 +3Sheet 7
r.K xST-xDG02 Tested with Train 4'ir start,system
rcr
nM rn
0
VALVENUMBER
DGB-V497
DGA-V510
DGA-V520
DGA-V523
DGA-V524
DGB-V610"
DGB-V620
DGB-V623
DGB-V624
DGA-UV3
DGB-UV4
DGA-UV5
DGB-UV6
DGA-UV7
DGB-UVS
DGA-UV9
P&ID
DGP401Sheet 7
DGP-001Sheet 3
DGP-001Sheet 7
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 3
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet'6
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 6
DGP-001Sheet 8
COIUI-zoK00O
C3 3
ES 3
G7
GS 3
CS 3
E4 3
G3
G4 3
C4
3'3
D7
D3
F6
F6
K06I
0
UJNCO
UJ
UJ
C 3" CK SA
C 1 V4 CK SA
C 1" CK SA
C 3" CK SA
C 3 CK SA
C 1 1/4" CK SA
C 1" CK SA
C 3" CK SA
0 8" CK, SA
B 3/8 GA SOL
B 3/8 GA SOL
B 3/8 GA SOL
B 3/8 GA SOL
B 3/8'A SOL
B 3/8 GA SOL
B 3/8 GA SOL
z0ICO0O.
0z
z0~oUJKoIJI
0KI-CO
0 0
0/C 0
C 0
C 0
C 0
0/C 0
C 0
C 0
0 0
C 0
C 0
C 0
C 0
C 0
C 0
C 0
FST
FST
0I-CO
OP
OP
OP
OP
OP
OP'P
OP
OP
OP
OP
OP
OP
OP
OP
OP
zQzooO I-I- <DOCO~oe~OwO
ICOUJDC$UJKU.UJ
UJK
CO
KDoO0Kn.
4xST-xDG02
4xST-xDGOl
4xST-xDG01
4xST-xDGOl
4xST-xDGOl
4xST-xDG02
4xST-xDG02
4xST-xDG02
4xST-xDG02
VRR-16 4xST-xDG01
VRR-16 4xST-xDG02
VRR-16 4xST-xDGOl
VRR-16 4xST-xDG02
VRR-16 4xST-xDG02
VRR-16 4xST-xDG01
VRR-16 4xST-xDG01
REMARKS
Tested with Train "A air startsystem
gC
g M
QM
C" pg
Q
0
5'p
CO g'
zOm
XJ
UKzV)
XI
Cm
z0mOxO
rzC
O
VALVENUMBER P&ID
V)
I-zOCC000
0-CC0C9
0UJ
IUNTTJ
Ill 0l~DI0
z0I
,0)0IL
0z
Z0
UJCC
OUJ
0KIco
O0I-V)
I-
zgzpO
o~Om0
DGB-UV10 DGP-001 F3Sheet 8
B 3/8" GA S0L C 0 FST OP
DGA-UV11 DGP-001Sheet 8
F6 B 3/8 GA SOL 'C 0 FST OP
DrR UV12 DGP.001Sheet 8
r,d SATL AD
DGA-UV15 DGP-001Sheet 6
D6 B 3/8 GA S0L C 0 FST OP
DGB-UV16 DGP-001 D2CL~dllVQIV
B 3/8 GA S0L C 0 FST OP
nn* ncllruLSI1 rlA TVnnn nnluLIC vvhSheet 1
lVh
nnl lrav SA C 0 nnv vnravl
DGB-PSV6 DGP-001 C3 3 C 1" PSV SA C 0 PSVTSheet 1
nnn nntrnuLID-rcvo DGP 001Sheet 1
B3 tv SA rs'v r
Demineralized Water (DW) Valves
n'LVR. Tlnnl
DVYH VU62
nwD nn1~ ~ r vvr
DVYT'001
d44
2"
Sf hTAllllSll
MAN
P\/ d TT&r wrrr
AJLT
ter (EC)Esse illed Wa1 Cllntia Valves
DGA-PSV7 DGP-001 B6 3 C 1" PSV SA C 0 PSVTCIL r ~cIIees l
I-0)UJDQUJKU.UJ
IUK
oJ
KDO00KCL
VRR-16 4xST-xDG01
TTRR TnTrna rV A cv nrnovrv~ Arr%1vv
VRR-16 4xST-xDG01
VRR-16 4xST-xDG02
73STl 9ZZ20
73ST9ZZ20
73ST-9ZZ20
I3STT9ZZ20
~zen nnT ns~ VIJS VVl/VS
738 119CL01
VRR-16 4xST-xDG02
REMARKS
D l LT I API As cllvn v srvvnl U Lrlvol U
Yelmt. 6 Locked Closed
8>)
gZg W
4 "3LrJ
Vr
Q
Q
zOIm
XI
U5RU)
F.
ITl
zU
PlAxAl
RC:
1
ECA.PSV75 ECP-001
ECB-PSV76 ECP-001
ECA-PSV95 HCP-001
D6 3
D3 3
1 1/2'SV
1 1/2 PSV
SA
SA C
0 PSVT
0 PSVT
0- PSVT
73ST-9ZZ20
73 ST-9ZZ20
ECB-PSV96 HCPr001- H1 -3 ~Jll llSV VK-9ZZS
ECB-PSV98 ECP-001
ECA-PSV99 ECP-001
ECA-PSV97 HOP-001
E4 3
G7 3
C I IFSV
PSV
PSV
ShIC
SA
SA C
0 PSVT
0 PSVT
0 PSVT
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
IVr+
0
VALVENUMBER
ECB-PSV100
EGA-PSV101
ECB-PSV102
EGA-PSV103
ECB-PSV104
EGA-PSV105
ECB-PSV106
EGA-PSV107
ECB.PSV108
ECB.PSV109
EGA-PSV117
ECB.PSV120
EGA-PSV121
EWA-UV65
EWA-UV145
P&ID
IIILUI
zOCC0
EWP-001 CS
ELVP401 C4
ECP-001 G2
ECP-001 G6
ECP-001 G1
ECP-001 H7
ECP-001 H4
ECP-001 H6
ECP-001 H2
ECP-001 H5
ECP-001 H1
ECP-001 G4
ECP-001 G5
ECP-001 E3
ECP-001 E6
CC
0LSLLII
o
LUNLoLU
3 C 1"
3 C 1"
3 C 1"
3 C 1"
3 C 1"
PSV
PSV
PSV
PSV
PSV
3 C 1" PS V
3 C 1"
3 C 1"
3 C 1"
PSV
PSV
PSV
3 C 1" PS V
3 C 1" PS V
3„',3 C 1"
PSV
3 B 14" BTF
3 B 14" BTF
0I-
z0ILo0n.
CC0z
z0
LUKOUIV0CCILo
00I-(o
I
zyz000 I-BoZ uLo p0 v)Owo
SA
SA
SA
SA
SA
SA
SA
SA
SA
SA
SA
SA
SA
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
0 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
MO
MO
C C
C C
FSTVPI
FSTVPI
RFCSJ-12
CSJ-12
Esse ntial Cooling IUater (EW) Valves
(0
CC
CI
o0CCn.
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73ST-9XI23
V3ST-9XI23
REMARKS
g
8>~
MRQ M
<Q
Po
Q
ZC0m
05zM
XI
(m
U
mOx-z0l-
zC
EWA-HCV67
EWB-HGV68
ELVA-HCVI33
EWB-HGV134
ELVA-PSV47
EWB-PSV4S
ELVA-PSV61
EiVP-001 ES
Eivp401 E4
EWP-001 D6
EWP-001 D2
EWY-001 B7
EWP-001 B3
EWP-001 D7
3 C 1" PSV
3 C 1" PS V
3 C 1" PSV
3 B 10" BTF
3 B 10" BTF
3 B 10" BTF
3 B 10" BTF
MAN
MAN
MAN
MAN
SA
SA
SA
C 0/C FST OP
C 0/C FST OP
C 0/C FST OP
C 0/C FST Op
C 0 PSVT
C 0 PSVT
0 0 PSVT
73ST-9XI31 Augmented - CRDR 960497
73ST-9XI31 Augmented - CRDR 960497
73ST-9XI31 Augmented - GRDR 960497
V3ST-9XI31 Augmented - CRDR 960497
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
CO
O
Co cn'
5l
O
VALVENUMBER P&ID
LQLUI
zOK000
K0LsLUI-0LLI
EiYB-PSV62
ELVA-PSV79
EiVB-PS V80
EtVP-001
ELIVP-001
EKVP-001
D3 3 C
F7 3 C
DU?A DQTITIIG~JrNJ J Vr JVV
ELVB PSV104
DTTID Irlr1Jflr J VVJ
ENtP-001
TTLllv
H2
nV nJ
2
FPE-V089
FPE-V090
FPP-006 E8
FPP-006 E9
2 A
2 AC
6"
GAE-V011 GAP-001 D6 2 A 1"
C
A
GA A 'f1111Grill=Vr J n AD IrrrrGTJJ -VVJ Trr1J V nJ
GAA-UV2 GAP-001 F3 2 A 1
GAE-V015 GAP-001 F2
UIN(0LU LU
PSV
PSV
PSV
Dar rrov
PSV
GL
CK
CK
CK
GA
GA
Q.
cc'0
D0I-
SA
SA
SA
DAorl
SA
SA
SA'A
I
r. nlOVIJ
SOL
Z0I-LI?0Q.
K0
Z00I-LUCC
OLLI
0LL:I-(I?
O0
LOI-
I-
zgz00O I
LI?—
0C 0
C 0
C
PSVT
PSVT '
n%I
rior rrtlravA
C 0 PSVT
AJLT
AJI.T
RF
RF
A) ValveSe rvice Gas (G
0/C
0/C
0
FSTAJLT
C FSTllVJJ lA 11lIT
FaxVPIAJLT
FST1TDTrrlAJLT
CSRF
DDill'rr
RFRF
OPDDlvrRF
CSJ-13
CSJ-13
Llwasteus Raaseo (GR) Valves
Fire Pro tection (FP) Valves
I-CI?UID0LLL
LC
U.LU
UIK
LQ
KDO00LL:
73ST-9ZZ20
73 ST-9ZZ20
7.'CRT 077on
73al 9ZZ20
73ST-9ZZ20
'REMARKS
73ST-9XI2873ST-9CL01
penet. 30
73ST-9XI28 penet. 29rrnrvrr nnr nrIGal O'VIAIA
VIr?al UA1VI73ST-9XI0773ST-9CL01
73 ST-9XI07TfJrVrl MtfJttIrra A JAlLII73ST-9CL01
penet. 30
penet. 29
73ST-9CL01 Locked Closed
73ST-9CLQl penet. 7
n>)
R8
I. jI~
Q
G
z'OIITl
Zl
05ZCD
m
z.U
A.X.
A,I
zI
GRA-UV1 GRP-QQl HV
6RP-001 GL SOL
0
0 FSTVPIAJLT
OPRFitF
OPRFRF
73ST-9XIQV73ST-9XI07V3ST-9CL01
73ST-9XI07V3ST=N307-73ST-9CL01
penet. 62
penet. 62
Containment HVAC (HC) ValvesIV
P~ ~Gr
0
VALVENUMBER
HCB-UV44
HCA-UV45
HCA-UV46
HCB-UV47
HPA-V002
HPB-V004
HPA-HV7A
HPA-HV7B
P&ID
V)UJI
zOK00O
HCP-001 E3
HCP-001 E2
HOP-001 D3
HPP-001 F7
HPP-001 Cj18
HPP-001 F5
HPP-001 G6
HCP-001 D2
K0UI-OUJ
2 A
2 A
2 A
2 A
2 AC
2 AC
2 A
2 A
IP
2"
2
UJNIIJUJ 0I-
z0IID0Q.
K0z
z0OIUK0IUbC0K(DI-
GA SOL 0
GA SOL 0
GA SOL 0
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
ydrogen Purge
CK SA C
CK SA C
GL SOL 0
GL SOL C
0C
0C
0/C
0/C
FSTFSTAJLT
FSTFSTAJLT
FSTVPIAJLT
FSTVPIAJLT
GA SOL 0
Q0I-
I-
OPRFRF
OPRFRF
OPRFRF
OPRFRF
zyz000 I-I- <DOX U.
o~OwO
(HP) VJtlves
OPCSRF
OPCSRF
OPRFRF
OPRFRF
I-IDlUDCfIUKu.UJ
UJK
ID
KDOO0KQ
73ST-9XIOS73ST-9XI0873ST-9CL01
73ST-9XIO873ST-9XI0873ST-9CL01
73 ST-9XIOS73ST-9XIO873ST-9CL01
73ST-9XIOS73ST-9XI0873ST-9CL01
73ST-9XI0973ST-9XI2873ST-9CL01
73ST-9XI1073ST-9XI2873ST-9CL01
73ST-9XIOS73ST-9XIOS73ST-9CL01
73ST-9XIOS73ST-9XI0873ST-9CL01
penet. 25a
REMARKS
penet. 25a
penet:25b
penet. 25b
penet. 38
penet. 38*'Ibst frequency being evaluatedper CRDR 940174
penet. 39*'Ibst frequency being evaluatedper CRDR 940174
penet. 35
Cg
8~>g M
Q M
HA
Q
ZO
XI
U5zMXI
(RU
mO
Z0
Z
I
HPB-HVSA
HPB-HVSB
HPA-UV1
HPP-001 C5
HPP-001 B6
HPP-001 E7
2 A
2 A
2 A 2
GL SOL 0
GL SOL C
GL MO 0
0/C
0/C
0/C
FSTVPIAJLT
FSTVPIAJLT
FSTVPIAJLT
OPRFRF
OPRFRF
OPRFRF
73ST-9XI0873 ST-9XIOS73ST-9CL01
73 ST-9XIOS73ST-9XIOS73ST-9CL01
73ST-9XI0873ST-9XI0873ST-9CL01
penet. 36
penet. 39
penet. 35
CQ g'
VALVENUMBER
HPB-UV2
HPA-UV3
HPB Uv4
HPA-UV5
HPB-UV6
HPA-UV23
HPA-UV24
1zR omniivn J
IAE-V072
IAE-V073
P&ID
HPP-001
HPP-001
HPP-001
HPP-001
HPP-001
HPP-001
HPP-001
x An nnnlAl VW
IAP-003
IAP-002
(OlUl~z0K000
D7
E6
Db
F6
C6
G6
F4
G5
G7
HV
019
I~0
A.
A
2r
2
2"
2
3N
lUNCO
lU
GL
GL
GL
GL
GI
GL
CK
GL
Q.
0I-
O
MO
MO
MV
MO
MO
SOI
SOL
MAN
z0I-
'0Q.
K0Z
Tnct
'00IlUKOTU
0KI-V)
0/C FSTVPIAJLT
0/C FSTVPI
O0I
I-
OPRFRF
OPRF
0/C FSTVPIAJLT
0/C FSTVrlAJLT
0/C FSTVPIAJLT
FSTVPIAJLT
FSTILT
VPRFRF
OPRFRF
OPRFRF
OPRFRF
OP
IA)VQIvOtter Aii (
riS
RFFSTAJLT
C AJLT RF
zgz000 I-ho0 cn
Oa0
0)
KD.OO0KQ.
73ST-9XIOS73ST-9XIOS73 ST-9CL01
73 ST-9XIOS73 ST-9XI0873ST 9CL01
V3Sll9XI0873ST-9XIO873ST-9CL01
V3ST-9XI08735=i-9XIOS73ST-9CL01
73ST-9XIOS73ST-9XIOS73ST-9CL01
VSST-9XM873 ST-9XIO873ST-9CL01
73ST-9XIOS%ST-9XIOS73ST-9CL01
penet. 36
penet. 35
penet:36
penet. 38
penet. 39
penet. 38
penet. 35
REMARKS
73ST-9XI2873ST-9CL01
penet. 31
73ST-9CL01 Locked Closed
73ST-9CLOl penet. 59
Ib
S4
YI
8)>
Ci ch
g W
i5~ C3
C'fIg w
Q
Q
ZOIm
z05MXI
m
U
mAx
I
&i.
I
IAA-UV2
kiri« i r ~ i ni1irrr Y J JO
IAP-003 G6 GA SOL 0 FSTVPIh.TT ni
CSRFRR
CSJ-14
XX..ni «n -1: «WV i- rTVn1wr i.,riir\ri irL VVO14lg 1IRlnl (l1VI TQLT% c
AJLT RFCSJ 15NCP 003 E6 2 A 10 'K A v v
C
73ST-9XI2373ST-9XI23'T'l~oCiT AT\ 4 r r\/
73St'-9XI2673ST-9CL01
penet. 31
penet. 33
QQIb
coOr.
VALVENUMBER
NCA-HCV244
NCB-HCV245
NCA-HCV258
NCB-HCV259
NCB-UV401
NCA-UV402
NCB.UV403
NCA-PSV250
NCB-PSV251
NCE-PSV614
NCB-PSV615
P8ID
NCP-002
NCP402
NCP-002
NCP-002
NCP-003
NCP-003
NCP-003
NCP-002
NCP-002
NCP-003
NCP-003
(OUJ
I~zOK000
B4 3
B4 3
E7 2
F6 2
E2 3
D2 3
E5 N
E5 N
K0IS
I
0
C
IJINIOUJ
10
10
10
10
10"
10
10"
6r
6"
BTF MAN
BTF MAN
BTF MAN
BTF MAN
BTF MO
BTF MO
BTF MO
PSV SA
PSV, SA
PSV SA
PSV SA
z0IO0n.
0z
z00IUJKOUJsc0KI-IO
0 C
0 C
FSTVPIAJLT
FSTVPIAJLT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
0 C FST
0 C FST
0 C FST
0 C FST
0 CVPIAJLT
00I-
I-
OP
OP
OP
OP
CSRFRF
CSRFRF
CSRFRF
zgzoQO I-hoXO CO
Ow0
CSJ-15
CSJ-15
CSJ-15
lOI-UJ
IUKU.UJ
UJK
IO
KD000K
73ST-9XI31
73ST-9XI31
73ST-9XI31
73ST-9XI31
73ST-9XI2373ST-9XI2373ST-9CL01
73ST-9XI2373ST-9XI2373ST-9CL01
73ST-9XI2373ST-9XI2373ST-9CL01
73 ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
REMARKS
Augmented - CRDR 960497
Augmented - CRDR 960497
Augmented - CRDR 960497
Augmented - CRDR 960497
penet.'J3
penet. 34
penet. 34
Augmented - CRDR 960497
Augmented - CRDR 960497I
Augmented - CRDR 970322
Augmented - CRDR 970322
g
85g tE
Q CO
C" Po
Q) s-c
Q
O
zt:0m
Zl
OKz(fJ
XI
(m
zO
mAKZ0
uel Pool Cooling (PC) VAIYes
PCA-V013
PCB-V017
PCE-V070
PCE-V071
PCE-V075
PCE-V076
PCN-V215
PCA-PSV35
PCP-001
PCP-001
PCP-001
PCP-001
PCP-001
PCP-001
CHP-002
PCP-001
D14 3
B14 3
E10 2
E09 2
G6 2
G5 2
All 3
E13 3
8"
4%
48
40
4%
3$
CK SA
CK SA
GA MAN
GA MAN
GA MAN
GA MAN
DIA MAN
PSV SA
C 0/C FST
C 0/C FST
C C AJLT
C C AJLT
C C AJLT
C C AJLT
C 0 FST
C 0 PSVT
OP
OP
RF
RF
RF
OP
RF
73ST-9PC01
73ST-9PC01
73ST-9CL01
73ST-9CL01
73ST-9CL01
73ST-9CL01
73ST-9XI31
73ST-9ZZ20
Augmented - CRDR 960497
Augmented - CRDR 960497
Locked Closed
Locked Closed
Locked Closed
Locked Closed
Boration Flowpath NRC Letterk B/ANPP-31548 (12-20-84)
Augmented - CRDR 960497 CO g)'
C
VALVENUMBER
PCB-PSV36
RCA-HV101
RCB.HV102
RCA-HV103
RrIT.TTVTAs
RCA-HV106
RCB-HV108
rrnn vrrsnnil%JIP llV JVV
RCE-PSV200
CE PSV201
Trna nerrnnnr'LruV ra7V ruf
CE-YSV203
PaiO
cnlUI-zOK0
POP-001 C13
RCP-001 G15
RCP-001 G15
RGP-001 G14
RrlP AAT rlls
RCP-001 F15
RCP-001 G13
ann nnrIlMVVJ nv A'UJn
RCP-001 F12
RCP.001
nnn nniIvvr vvJ
P12
RGP-001 G12
K0cs
l~O
UJNCIJ
UJ 0I~
OI-
0I-Co0n.
K0z
z0OI-lUKOUJhC0KI-Cn
O0
cnI-
I
hoX ucn—O cn
I-
OmO
RF
(RC) Valves
2 B 1" GL SOL C 0/C FSTVPI'S
RFCSJ-16
B 1"
2 B 1"
GL SOL C
GL SOL C
0/C FSTYPI
0/C FSTVPI
CSRF
CSRP
CSJ-16
CSJ-16
Glc SOT. 0/rVPI RF
r'c.T TA
2 B 1" GL SOL C
1 B 1" GL SOL C
0/C FSTVPI
0/C FSTVPI
CSRF
CSJ-16
CSJ-16
nrVIJ anrOVQ nrnVIV CSRF
nar inWV JV
1 C 6 PS V SA C 0 PSVT
cA
n nnQ
nn' rrsv SA 0
1 G 6" PS V SA C 0 PSVT
Radioactiv e Drains (RD) Valves
3 0 1" PS V SA C 0 PSVT
Reactor Coolant
I-cnlUD0KU.
UJK
cn
KDOO0Kn.
REMARKS
73ST-9X12473ST-9XI24
73ST-9X12473ST-9XI24
73ST-9XI2473ST.9X124
'7'lcm OYT94~
Vugg
ulhlvx73ST-9XI24
73ST-9X12473ST-9XI24
73ST-9XI2473 ST-9XI24
V3ST=9XI2473ST-9XI24
73 ST-9ZZ24
V3ST-9ZZ24
73ST-9ZZ24
73ST-9ZZ20 Augmented - CRDR 960497
n rn
LJ~g
NDwW
jjiQ) wz
Q
'
Q
zC0Im—
XI
O5Z
rn
ZQ
ITl.A*xZ,
I
ZC:
I
RDA-UV23
RDB-UV24
RDP-001 G5
RDP-001 G4
2 A 3" GA IIIO 0 C FSTVPIAJLT
FSTVPIAJLT
OPRpRp
OPRFRF
73ST-9XI07V3ST-9XI07V3ST-9CL01
73ST-9X10773ST-9XI0773ST-9CL01
penet. 9
RDB-UV407 RDP-001 F4 2 A 1/2" GL SOL C C FST1rpl
AJLT
OPPlpRF
73ST-9XI07dynam aYTna~
Vugg
uarur73ST-9CL01
penet. 9
VALVENUMBER
SGB-HV-185
SGB.HV2nn
SGB-HV201
SGB-UV130
ann 1n11aaVV' I JVQ
SGA-UV134
SGA-UV134A
QGB-UV135
SGB-UV137
SGA-U v'138
P&ID
SGP-001
sr.l1.nn2
SGP-002
SGP4l02
enb nnnVAJl
VV'GP-001
SGP-001
bur-1Jvs
SGP-002
SGP-001
oJ
I
ZCJK000
C15
Fl1
011
G12
E13
E13
C12
A12
012
2
K0I9I-0
UJMIJJ
UJ
12"
24"
b"
o.
GL
GA
GA
GA
nava
GA
GL
GA
Z0I-CO
0n.
0Z
AO C
SOL OJC
SOL 0/C
AO 0
UVjjL
MO C
SOL C
AV
HY 0
MO
Z00I-UJKOUJ
0KI-oJ
0/C FSTFTVPI
CJ0
OPOPRF
OP
n
FSTVPI
FST11DT
namrotFSTVPI
OPRF
CS
nnVCCSRF
0/C FSTVPILT
0/C FSTVPI
FSTVPI
PSTFSTvrJ
0/0 Fs rVPILT
OPRF4RF4
OPRF-3RF4
CSRF
OPCS
OPRF4RF4
VPI RF
ZgZ00CI I-hoI/J-O In
I-
Ow0
CSJ-17
nav naVVV 4V
CSJ.17
CSJ-26
I-Il)IJJD0UJKU.
UJK
KDO00KQ.
73 ST-9XI2073 ST-9XI2073ST-9XI20
9%~ avln1~ W4 VIUVJ73ST-9XI01
73ST-9XI0273ST-9XI02
REMARKS
ADV- Pen. 2. FST/I'T includestesting of the check valves onthe Air/Nitrogen lines.
newel 1 1rl llVI h4
penet. 12
enamnvr ~ r
label
@nolo73ST-9XI1673ST-9XI16
73ST-9XI01V3ST-9XI0173ST-9XI34
73ST-9XI01V3ST-9AF02l3b J 9XI34
le J-9XI1973ST-9XI19
V3ST-9XI16V3ST-9XI16l3STJ19X116
l3ST-9XI0273 ST-9XI0273 ST-9XI34
on n ~ i ~penel 0 crCOU, r'Y
penet. 2
penet. 2
penet. 12 Down. EVv.
benet. Econ. EW.
penet. 3
73ST-9XI19 penet. 11 Down. EiV.ms em aY11n~ VVJ QlhlJ4
8~>
3'4Q Uj
FI gHA
L~J
UB
Q
C)
ROIm
XI
UK
Q)
tTI
z
mAxAI
I
SGA-UV138A SGP-001 012 GL SOL C 0/C FST
LT
OPRF4RF4
73ST-9XI02V3ST-9AF0273 ST-9XI34
penet. 3
SGE-UV169 SGP-001 Ell GA 0 0/CVPI
OPRF
73ST-9XI0173ST-9XI01
nenet 2 MSIVBvpaae
SGE-UV170 SGP-001 G10 28" GA HY 0 PSTST
VPI
OPCS-3CSRF
CSJ-25 73ST-9SG0173ST-9SG0173ST-9SG01V3ST-9SG01
penet. 1 MSIV CI
CO
O
VALVENUMBER
SGE-UV171
SGA-UV172
SGA-UV174
SGA-UV175
SGF VA19
SGE-VA20
SGE-VA21
SGE-VA22
SGE-VA23
SGE-VA24
SGE-VA25
SGE-VA26
SGA-VA27
SGA-VA28
P&ID
SGP-001
SGP-002
SGP-002
SGP-002
SGP-001
SGP-001
SGP-001
SGP-001
SGP-001
SGP401
SGP-001
SGP-001
SGP-002
SGP402
CoLLI
ZOCL:
000
D10
G12
E12
C12
G10
Glo
EIO
Elo
D10
DIO
B10
B10
E12
A12
0-LJ:
0C9
I-0
2 B
2 B
2 B
2 B
2 AC
2 AC
2',C
2 AC
2 AC
2 AC
2 AC
2 AC
2 AC
2 AC
LUNcoLU
UJ
8" GA
24" GA
8r GA
1/2 CK
1/2'K
I/2" CK
I/2" CK
I/2 CK
1/2" CK
1/2" CK
1/2" CK
1/2'K
28" GA
z0I-co0n.
AO 0
HY 0
AO 0
SA 0
SA 0
SA 0
SA 0
SA 0
SA 0
SA 0
SA 0
SA 0
SA 0
0zHY 0
Z0I-0LU
KOUJV0IJ:I-C/I
PSTFSTFTVPI
FSTVPI
PSTFSTVPI
FSTVPI
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
FSTLT
O0I-LUI-
OPCS4CSRF
CSRF
OPCSRF
CSRF
CS4CS-3
OOO I-hoCo-ohOa0
CSJ-25
CSJ-1Z
CSJ-26
CSJ-17
CSJ-25
CS-3CS-3
CS-3CS-3
CS-3CS-3
CS4CS-3
CSJ-25
CSJ-25
CSJ-25
CS-3
CS-3CS4
CSCS
CSCS
CSJ-25
CSJ-26
CSJ-26
CS-3 'SJ-25CS-3
C/JI-UJDQLUCt:U.lU
UJCL:
Co
n:DO00CL:
73ST-9SGOl73ST-9SGOIZ3ST-9SG01Z3ST-9SG01
73ST-9XI1973ST-9XI19
73ST-9XI1673ST-9XI1673ST-9XI16
73ST-9XI1973 ST-9XI19
73ST-9SG0173ST-9SG01
73ST-9SG0173ST-9SG01
73ST-9SG0173ST-9SG01
73ST-9SG0173ST-9SGOl
73ST-9SG0173ST-9SG01
73ST-9SG0173ST-9SG01
73ST-9SGOl73ST-9SG01
73ST-9SGOl73ST-9SG01
73ST-9XI1673ST-9XI16
73ST-9XI1673ST-9XI16
REMARKS
penet. 3 MSIV
penet. 11 Down. F.W.
penet. 6 Econ. F.W.
penet. 12 Down. F.lV.
MSIV 170 I.A.Check Valve
MSIV 170 I.A.Check Valvo
MSIV 180 I.A.Check Valve
MSIV 180 I.A.Check Valve
MSIV 171 I.A.Check Valve
MSIV 171 I.A.Check Valve
MSIV 181 I.A.Check Valve
MSIV 181 I.A.Check Valve
ECON FWIV 174 I.A. CheckValve
ECON FWIV 177 I.A. CheckValve
ecI
00O
c',g
84g M
0 tfJ
Q
0
5'p
zOITI
ZJ
UKz
33
(ITI
zU
Oxz0
z
O
SGB-VA29 SGP-002 E12 2 AC
1/2'K SA 0 C FSTLT
CS CSJ-26CS
73ST-9XI1673ST-9XI16
ECON FWIV 132 I.A. CheckValve
VALVENUMBER PAID
VJUJI-ZOK00O
K
VJ
O OVJ
SGB-VA30 SGP-002 A12 2 AC
SGA-UV177 SGP-002 A12 2 B
SGE-UV180 SGP-001 E10 2 B,
SGE-UV181 SGP-001 B10 2 B
SGE-UV183 SGP-001 Bll 2 B
SGA-UV204 SGP-002 G3 2 B
Srh IIV911 am nn9
SGB-UV219 SGP-002 G3 2 B
ena»nrnn»QUO Vvill SGP-002 G5
SGB-UV222 SGP-002 C3 2 B
SGA-UV223 SGP-002 C3 2 B
SOB-UV224 SGP 002 D3 2 B
SG¹UV225 SGP402 D2 2 B
SGA-UV220 SGP-002 G6 2 B,
UJNV)UI
24"
28"
28"
UJ
GA
GA
GA
GA"
GL
GL
Gi
GL
GL
z0IVJ0n.
0Z
SA 0
HY 0
HY 0
HY 0
AO 0/C
SOL 0
en1V»»
SOL 0
SOL 0
SOL 0
SOI 0
z0I'OUJKOUJ
0KI-V)
C
FSTLT
PSTFSTVPI
PSTFST
VPI
PSTFST
VPI
FSTVPI
FST'UDI
VPI
FSTVPI
FSTVrJ
ForVPI
O0I-(oI-
CSCS
OPr.a'V%
RF
OPCS4rS 3RF
OPCS4CS.3RF
OPRF
OP
'O»
RF
OPRF
OP
OPRF
OPRF
OPRF
OPF
Qz00O+DOI- <
VJ~o~0~O
CSJ-26
CSJ-26
CSJ-25
IV)IUD0IUKU.UJ
UIK
V)
-KDOO0K
73ST-9XI1673ST-9XI16
73ST-9XI1679'»n nvl 1 n~ WJ V»»»JV
V3ST-9XI16
V3ST-9SG0173ST-9SG0179c»n QCAM1I V%I» VV'UV»
73ST-9SG01
73ST-9SG0173ST-9SG017'I~ OQrWI
73ST-9SG01
73 ST-9XI0273 ST-9XI02
73 ST-9XI0179a7 nmvn1
~ VVJ V»»»VJ
eadem nwvn»I V@3 l V~VL
73 ST-9XI01
73ST-9XI0173ST-9XI01
73ST-9XI011 3ST 9XJO 1
i3ST'-9XI0173ST-9XI01
73 ST-9X10273ST-9XI02
73ST-9XI023ST-9XI02
73ST-9XI0273ST-KXÃ2
73S7'-9XI0273 ST-9XI02
REMARKS
ECON FWIV 137 I.A. CheckValve
penet. 9 Econ. F.lV.
penet. 2 hlSIV
penet. 4 hlSIV
penet. 3 MSIVBypass
penet. 37B
» TAVneh E7IM
enet. 37B
penet. 49
penet. 49
penet. 63B
penet. 63A
k'CJQ
8>)
Q M
Wg3 CO
4+I~J
Q
GQ
IV
C4 Ql
O
z.C
AI.m
U
rn
m
z.nm.A
'.-
~
OI
5Z
I
VALVENUMBER P&ID
LJ)UJI-Z0K00O
SGB-UV226 SGP-002 C2
SGA-UV227 SGP-002 C5
SGB-UV228 SGP-002 G2
SGA-UV500P SGP-002 E3
SGB-UV500Q SGP-002 E2
8GB-UV500R SGP-002 A3
SGA-UV500S SGP-002 A2
SGA-UV1134 SGP-001 014
SGB-UV1135A SGP-001 Hll
SGB-UV1135B SGP-001 Fll
SGA-UV1133 SGP-001 D14
K0L9
I-OLll
2 B
2 B
2 B
2 B
2 B
2 B
2 B
2 B
2 B
2 B
2 B
LllNLIJ
LU
I/2'L
u2" GL
6" GA
6 II GA
GA
6N GA
Gi
GL
GL
GL
V2" GL
z0I-LIJ0K
K0Z
z00ILUKOLIJ
0K0)I-
SOL 0 C
SOL 0 C
AO 0 C
AO 0 C
AO 0 C
AO 0 C
SOL 0 C
SOL 0 C
SOL 0
SOL 0 C
SOL 0 C
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
UJO0I-(0
I
OPRF
OPRF
OPRF
OPRF
OPRF
OPRF
OPRF
OPRF-3
OPRF-3
OPRF-3
OPRF-3
zgz00I- <0 I-DOZ ULO pO LJJ
OwO
I-(JJLllD0UJKU.UI
LlJK
LO
KDOO0K
73ST-9XI0273ST-9XI02
73ST-9XI02Z3ST-9XI02
73ST-9XI0173ST-9XI01
73ST-9XI0173ST-9XI01
73 ST-9XI0173ST-9XI01
73 ST-9XI0273 ST-9XI02
73ST-9XI0273ST-9XI02
73ST-9XI0173ST-9XI32
penet. 48
penet. 48
penet. 37A
penet. 46
penet. 46
penet. 4Z
penet. 47
penet. 2
73ST-9XI0173ST-9XI32
73ST-9XI0173ST-9XI32
penet. 1
penet. 2
73ST-9XI02 ~ pcnet. 373ST-9XI32
REMARKS
8>~g M<4Q tfIg W
+A
Q
0Q
Om
O5MZl
(zO
mOxZ0
ZC
SGB-UV1136A SGP-001 Dll
SGB-UV1136B SGP-001 Bll
2 B
2 B
GL
GL
SOL 0'
SOL 0 C
FSTVPI
FSTVPI
OPRF-3
OPRF-3
73ST-9XI0273ST-9XI32
73ST-9XI0273ST-9XI32
penet. 3
penet. 4
SGE-PSV554 SGP-001 D12
SGE-PSV555 SGP-001 D13
SGE-PSV556 SGP-001 D14
SGE-PSV557 SGP-001 D14
SGE-PSV558 SGP-001 B14
2 C
2 C
2 C
2 C
2 C
6 II
6H
6H
6 II
PSV
PSV
PSV
PSV
PSV
SA C 0
SA C 0
SA C 0
SA C 0
SA C 0
PSVT
PSVT
PSVT
PSVT
PSVT
73ST-9ZZ18 penet. 3
73ST-9ZZ18 penet. 3
73ST-9ZZ18 penet. 3
73ST-9ZZ18 penet. 3
73ST-9ZZ18 penet. 4
"d
C)O
CO g)'
VALVENUMBER PAID
SGE-PSV559 SGP401
SGE-PSV560 SGP-001
SGF PSV561 SGP4I01
COIllI-zOK00O
B14 2
B13 2
B12 2
K0cs,I-O
6"
6"
6"
IUMCO
IU
PSV
PSV
PSV
0I-
z0I-CO0n.
0zSA C
SA C
SA C 0 PSVT
z00I-IUKOIUhC0KICO
0 PSVT
0 PSVT
O0I-CO
I-
zgz00
X
O COI
0~O
COI
UID0IUKUlU
lUK
CO
KOO0Kn.
73ST-9ZZ18
73ST-9ZZ18
73ST-9ZZ18
penet. 4
penet. 4
nenet.4
REMARKS
zC0IIDg3
05z
Crc DCCIr~n~JVJ» J V TVlk crD nn1
~JU» VVJ
SQE PSV577 SQP.AA1
SGE-PSV578 SGP-001
SGF PSV579 SGP-001
SGE.PSV691 SGP-001
8GE-PSV692 SGP-001
SGE-PSV694 SGP-001
CGE PSV695
nnn nn»rnnnDUD ID YCV4
cGp.nnl
SGP401
SGB-PSV305 SGP-001
SGA-PSV309 SGP-001
SGA-PSV312 SGP4I01
SGA-PSV316 SGP4I01
SGE-PSV573 SGP-001
SGE-PSV574 SGP-001
SGE-PSV575 SGP-001
SGE-PSV576 SGP-001
UTnT 4 ACt
H13
H14 2
H15 2
F14 2
F14
F13'
F12 2
F.15 2
H16 2
D15 2
Bll 3
Gll 3
Gll 3
G14 3
n
6"
6"
6"
C 6"
1»
1»
1»
0 6"
6"
6"
DC11J»T ~
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
PSV
CA»Tn n\/
SA C
SA C
SA C
SA C
SA C
cA
SA C
SA C
SA C
SA C
SA C
SA C
C'A
Dc11mA»TTA
0 PSVT
0 PSVT
0 PSVT
PcVT
0 PSVT
0 PSVT
0 PSVT
0 PSVT
0 PSVT
PcVT
YDVr0 PSVT
0 PSVT
0 PSVT
0 PSVT
nnemnaa»o1ncA @nolo
73 ST-9ZZ18
73 ST-9ZZ18
73 ST-9ZZ18
73 ST-9ZZ18
7.'R~ c77.1 c
73 ST-9ZZ18
73 ST-9ZZ18
73ST-9ZZ18
73ST-9ZZ18
73ST-9ZZ18
7'ICV'77.1 C
7i&l 9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
peneh 1
penet. 1
penet. 1
penet. 1
penet. 2
penet. '2
'enet.2
penet. 2
penet. 1
penet. 3
'tl 8n rn
L~JjC
tg mQ) m
RQ
OQ
fll
zU
miAxzA
ze
SGB YSV322
cnD nn1YU» vvJ
GP-001 A13
1»
1»
DC11A»T TCA~JT L
n Dc11mA»TTA nncmnwmnn~ vol rnTTAv
73ST-9ZZ20
SGB-PSV325 SGP-001 B13 3 1» PSV SA C 0 PSVT 73ST-9ZZ20
Safety Injection (SI) Valves
VALVENUMBER
SIE-V113
SIE-V114
SIE-V123
SIE-V124
SIE-V133
SIE-V134
SIE-V143
PAID
loulI~2OK00O
K0L9LUI
O
SIP4I02 F14 2 C
SIP-002 F14 2 C
SIP-002 F12 2 C
SIP-002 F7 2 '
SIP-002 F6 2 C
SIP-002 F4 2 C
SIP-002 F11 2 C
LUNtOul
3$
12"
3$
12"
3N
12"
3%
LU
00I-
CK SA
CK SA
CK SA
CK 'A
CK SA
CK SA
CK SA
z0
50z
z0I-0LUKOLUhC0K(0I
0C
0C
0C
0C
0C
0C
0C
FSTFST
FSTFST
FSTFST
FSTFST
FSTFST
00I-
I
RFCS-3
RFCS-3
CSCS-3
RFCS-3
CSCS-3
RFCS-3
zOO0 I-I- <DO
OaO
CSJ-19
CSJ-19
CSJ-19
I-LolUD0KuLU
K
VRR-28
VRR-28
VRR-28
VRR-28
Oe
KDCI
OOK
73ST-9XI3373ST-9SI05
73ST-9XI2773ST-9SI05
73ST-9XI3373ST-9SI05
REMARKS
penet. 13*pabst frequency being evaluatedper CRDR 940174
penet. 17~pabst frequency being evaluatedper CRDR 940174
penet. 14*Test frequency being evaluatedper CRDR 940174
73ST-9XI3373 ST-9SI05
penet. 15*Test frequency being evaluatedper CRDR 940174
73ST-9XI26 „penet. 1973ST-9SI05 'Vest frequency being evaluated
per CRDR 940174
73ST-9XI3373ST-9SI05
penet. 16*Test frequency being evaluatedper CRDR 940174
73ST-9XI27 penct. 1873ST-9SI05 'Test frequency being evaluated
per CRDR 940174
g>~g tEMRQ Ig W
HA
t
4Q
zC0
Zl
U5Z(0
x
(lTl
U
lTlAKRA
SIE-V144
SIA-V157
SIB-V158
SIP-002 F4 2 0
SIP@01 G13 2 C
SIP-001 C13 2 C
12'8
18"
CK SA
CK SA
CK SA
0C
C 0
C 0
FSTFST
PST
PST
FST
CSCS4
OP
RF
OP
RF
CSJ-19
VRR40
VRR40
73ST-9XI2673ST-9SI05
73ST-9XI06/73ST-9XI0973ST-9XI29
73ST-9XI06/73ST-9XI1073ST-9XI29
penet. 20'Test frequency being evaluatedper CRDR 940174
zC
SIA-V164
SIB-V165
SIP-002
SIP-002
F8 2 AC
F6 2 AC
10"
10
CK SA
CK SA
C 0
C 0
AJLTFST
AJLTFST
RFRF
RFRF
VRR41
VRR-31
73ST-9CL0173ST-9ZZ25
73ST-9CL0173 ST-9ZZ25
penet. 21(Disassemble)
penet. 22(Disassemble)
nl
cn'
VALVENUMBER
SIB-V200
SIA-V201
SIA-V205
SIB-V206
SIE-V215
SIE-V217
SIE-V225
P&ID
SIP-001
SIP-001
SIP-001
SIP-001
SIP-002
SIP-002
coIUI-zOK00O
B12
F12
G14
A14
A13
A12
O
K0C9
I-Oul
2 C
2 C
2 C
1 AC
1 AC
1 A'C
2 C
IUNtOul
20"
20"
24"
24"
14"
14
0I-
O
CK SA
CK SA
CK SA
CK SA
CK SA
CK SA
z0Ico0Q.
K0z
z00I-UJKOulhC0KI-co
C 0
C 0
0C
00
C00
C00
C
C 0
I-coulI-
O0
I-
FSTFST
RFRF
PST OP
FSTFST
RFRF
FST RFDnmrol DDar
FSTFST
RFRF
FSJPSTFSTIT
CS-3RFRF
FST*PSTFSTLT
CSRFRF
FST*PSTFSTLT
RFRF
PST OP
zgz00O I-
O
coI-CUD0IUKu.UJ
IUK
VRR-30
VRR-30«
VRR-32
VRR-32
VRR-33
YrcR 34
VRR43
COIUKDOO0Kn
73ST-9SI11/73ST-9XI1073ST-9XI2940ST-9SI09
73ST-9SI 1l/rrnnm nwrnnCoital VACVV
73ST-9XI2940ST-9SI09
73 ST-9ZZ25r nnm nnrnnrvDJ uQluu
73ST-9ZZ2540ST-9SI09
73ST-9XI3273 ST-9XI30I3ST-SI0373ST-9ZZ25«*
73ST-9XI27387-SXI30
73ST-9SI0373ST-9ZZ25*«
73ST-9XI3273ST-9XI3073ST-9SI0373 ST-9ZZ25«*
REMARKS
«Test frequency being evaluatedper CRDR 940174
«pabst frequency being evaluatedper CRuR 940174
(Disassemble)'-Test Frequency being evaluatedper CRDR 940174
(Disassemble)«Test Frequency being evaluatedper CRDR 940174
*Closure test (req'd by VRR-33and 34 approval letter) beingeval by CRDR 940174.
**Alternate FST
*Closure test(req'd. by YRR-33and 34 approval letter) beingeval b~DR 940174.
«*Alternate FST
'Closure test (Req'd by VRR43and 34 approval Ietter1beingeval by CRDR 940174.
8>)
Q M
25
g Qt" f/IQ7 w
4Q
zC0Im
XI
O5zMXl
(Ill
U
IllAx
I
zI
SIE-V227 SIP-002 A10 1 AC
C00
rmu«
CSRFDDlrr
73ST-9XI2773ST-9XI30~rnDm nDrnn~ QQ«Va7ll/t773ST-9ZZ25*«
«Closure test (req'd by VRR-33and 34 approval letter) beingeval by CRDR 940174.
'*Alternate FST
co
t4CO
OI n
r«C
coCJ
VALVENUMBER
SIE-V235
SIE-V237
SIF V245
SIE-V247
P&ID
coujI-zOn:00O
SIP-002 A7
SIP-002 A5
SIP-002 A4
SIP-002 A6
0UI-0
1 AC
1 AC
1 AC
1 AC
UJM
UJ
14"
14"
14"
14"
UJ
CK
CK
CK
CK
0I-I0
z0I-CO0n.
0zSA C
SA C
SA C
SA C
z00I-ujn:Ouj0rr.ICO
C00
C00
C00
C00
FST'ST
FSTLT
FST'ST
FSTLT
FST*PSTFSTLT
FST*PSTFSTLT
LUQ0
oe
I-
CS-3RFRF
CSRFRF
CS4RFRF
CSRFRF
zgzOO0 I-hoCO ~p
omOwO
I-(0uJD0lUnulU
UJn:
CO
n:DOO0IL
REMARKS
73ST-9XI32VRR-33 73ST-9XI30
73ST-9SI03
*Closure test (req'd by VRR-33and 34 approval letter) beingeval by CRDR 940174.
73ST-9ZZ25" *'Alternate FST
73ST-9XI26VR&34 73ST-9XI30
73ST-9SI03
~Closure test (req'd by VRR43and 34 approval letter) beingeval by CRDR 940174.
'Closure test (req'd by VRR-33and 34 approval letter) beingeval by CRDR 940174
73 ST-9XI32VRR-33 73ST-9XI30
73 ST-9SI0373ST-9ZZ25" "Alternate FST
'Closure test (req'd by VRR-33and 34 approval letter) beingoval by CRDR 940174.
73ST-9XI26VRR-34 73ST-9XI30
73ST-9SI0373ST-9ZZ25" *'Alternate FST
73ST-9ZZ25" i~Alternate FST
85g M
QM
o'o
Q
0Q
zOm
Zl
U5z
33
CmDZU
mOzZA
SIA-V404
SIB-V405
SIP-001 F6
SIP-001 B4
2 C
2 C
4$ CK
CK
SA C
SA C
0C
0C
FSTFST
FSTFST
RFRF
RFRF
VRR-28 73 ST-9XI3373ST-9X133
VRR-28 73ST-9XI3373ST-9XI33
"Vest frequency being evaluatedper CRDR 940174
'Test frequency being evaluatedper CRDR 940174
SIA-V424
SIB-V426
SIA-V434
SIB-V446
SIB-V448
SIA-V451
SIE-V463
SIP-001 F10
SIP-001 A10
SIP-001 F9
SIP-001 B9
SIP-001 B10
SIP-001 G10
SIP-001 D8
2 C
2 C
2'C
2 0
2 C
2 C
2"
2 II
10"
10"
2'N
2"
CK
CK
CK
CK
CK
GL
SA C
SA C
SA C
SA C
SA C
SA
MAN C
0 FST OP
0 FST OP
0 PSTFST
PSTFST
OPCS
OPCS
0 FST OP
0 FST OP
C AJLT RF
CSJ-29
CSJ-29
73ST-9CL01 penet. 28Locked Closed
73 ST-9SI10
73ST-9SI10
73ST-9XI0973ST-9XI26
73ST-9XI1073ST-9XI27
73ST-9SI 1 1 Miniflow
73ST-9SI11 Miniflow
5'p
cn'
O
VALVENUMBER P8ID
C/I
I-zOCC000
CC
0C9
I
0
UJNCoIU
UJ
z0I-0)0n.
0z
z00UJKOUJsc0
O0I-
I-
zyz00O +I- <DOx:UO In
I
Om0
KDO00K
REMARKS
SIB-V484
SIA-V485
SIA-V486
SIP-001
SIP-001
SIP-001
C9 2
H9 2
GIQ 2
C 10" CK
C 2" CK
C 10" CK SA C
SA C
SA C
0 PSTFST
OPCS
0 FST OP
0 PST OPFST CS CSJ40
V3ST-9XI1073ST-9XI27
73ST-9XI0973 ST-9XI26
73ST-9XI06 Minitlow
SIB-V487
ua A rrAnnaaa ruaa
SIP QQI
nan nnnaaaa
uua'IQnn'V4 AC
ns
CK SA
0C
FST
Fca J
FST*LT
OP
RF
Y5R 35
Vs~ «IYInk 'VVA AVV
73STJA9XI33
73ST-9SI03
AIWInMVI
*Need and frequency for closuretest being evaL by CRDR 940174
SIA-V523
SIB-V532
SIB-V533
SIP-002
SIP-002
SIP-002
C10 1
A 3
A 3"
C
A 3"
C
CK
CK
SA 0
SA'A
C
0
0C
0C
FSTnwe\aCAJ J
AJLTLT
FSTFS1LT
STFST4AJLT "
LT
RF
RF
RF
RF
VRR45
VRR-35
VRR-35
73ST-9XI33
73ST-9CL0173ST-9SI03
73 ST-9XI33
73ST-9SI03
73ST-9XI33
3S I'-9CL0173ST-9SI03
penet. 77=Need and frequency for ciosuretest being eval. by CRDR 940174
rNeed and frequency for closuretest being eval. by CRDR 940174
neneL 67rNeed and frequency for closuretest being eval. by CRDR 940174
SIE-V540 SIP-002 013 AC
12" CK 0C
FSTFST'T
r<J 31 7.'1M'-9XI27
3b I'-9SI03'Need and frequency for closuretest being eval. by CRDR 940174
SIE-V541
SIE-V642
SIE-V543
IA-V997
SIP.002
SIP-002
SIP-002
SIP-002
Cll
C6 1
C4 1
AC
12"
A 12"
C
A 12"
C
CK SA C
0
SA
0C
0C
0C
0/0
FbI'ST*
LT
FST
F8'T
FSTAJLT
RF
CS CSJ-31
CSJ 31
ica-34
73ST-9XI27
73ST-9SI03
73ST-9XI26
73ST-9SM3
73ST-9XL%
73ST-9XI21738 T-9CL01
~Need and frequency for closuretest being eval. by CRDR 940174
'Need and frequency for closuretest being eval. by CRDR 940174
'Need and frequency for closuretest being eval. by CRDR 940174
Being installed per DMWOhlau nnf bn an all aanIIts
yet.
SIA-VA10 SIP-002
SIB-VA15 SIP-002
SIA-HV306 SIP-001
SIB-HV307 SIP-001
SIC-HV321 SIP-002
SID-HV331 SIP-002I
SIA-HV604 SIP-001
SIA-HV605 SIP@02
VALVENUMBER
SIB-V998 SIP-002
CJ)UJ
I~zOK00O
D10
G3
G10
G5
B4
G2
G9
G3
E15
K06I-O
UJNCIJ
UJ
UJn.
0I-
O
A 1"
CCK SA
A 1
CCK SA
A 1"
CCK SA
B 10" GL MO
A 3" GI MO
A 3'L MO
B 3" GA MO
B 1" GL SOL
B 10" GL MO
z0J-CIJ
0n.
0Z
z0J-0UJKOUJhC0KJ-co
C 0/C
C 0/C
0 0
0 0
C 0
C 0
C 0
C 0
C 0/C FSTAJLT
FSTAJLT
FSTAJLT
FSTTP/VPI
FSTTP/VPI
FSTTP/VPIAJLT
FSTTP/VPIAJLT
FSTVPI
FSTVPI
00I-'-
CSRF
OPRF
OPRF
OPRF
OPRF
CSRFRF
CSRFRF
CSRF
CSRF
ZgzOO0 I-hOX UCIJ—oCOwO
CS-34
CSJ-21
CSJ-21
CSJ-21,
CSJ-22
I-0)UJDQUJKUUJ
UJK
CJJ
KD0O0KQ.
73ST-9XI2173ST-9CL01
73ST-9XI0973ST-9CL01
73ST-9XI1073ST-9CL01
73ST-xXIll73ST-xXI11
73ST-xXI1273ST-xXI12
73ST-xXI1173 ST-XXIll73ST-9CL01
73ST-xXI1273ST-xXI12 ~
73ST-9CL01
73ST-9XI2573 ST-9XI25
73ST-9XI3773ST-9XI37
REMARKS
Being installed per DhllVO714670. May not be in all unitsyet.
Being installed per DhBVO746122. May not be in all unitsyet.
Being installed per DMSO746122. May not be in all unitsyet.
penet. 19
penet. 17
penet. 77
penet. 67
a
3>~g &'tl RQM
L g
Q
0
zOm
33
O5Z(6
XI
(m
O
mOxz0
ZSIA-HV606 SIP@02
SIA-HV607'IP-002
SIA-HV608 SIP-002
SIB-HV609 SIP401
SIB-HV613 SIP-002
E12
E7
03
E15
B 1"
B 1"
B 3"
B 1"
GL SOI
GL SOL
GL SOL
GA MO
GL SOL
C 0
C 0
C 0
C 0
C 0
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
CSRF
CSRF
CSRF
CSRF
CSRF
CSJ-22
CSJ-22
CSJ-22
CSJ-21
CSJ-22
73ST-9XI3773ST-9XI37
73ST-9XI3773ST-9XI37
73ST-9XI3773ST-9XI37
73ST-9XI2573ST-9XI25
73ST-9XI3773ST-9XI37
M v'
O
VALVENUMBER
SIB-HV623
SIB-HV633
SIB-HV643
SIA-HV657
SIB-HV658
SIA-HV685
SIA-HV686
SIA-HV688
cIR.HV69n
SIA-HV691
SIB-HV693
SIB-HV694
P&ID
LO
I-Z0Q00O
LL:
0(9
I
O
SIP-002 E12 2 B
SIP-002 E7 2 B
SIP-002 E4 2 B
SIP401 H4 2 B
SlP401 C4 2
SIP401 G8
SIP-001 G9 2 B
RIP.nn7 wl~ A
SIP-002 H4 2 A
SIP-001 C9 2 B
SIP-001 B8 2 B
SIP 001 H6 2 B
LUNLO
LU
Q
GL
Ih
GL
10" GA
20" GA
10" GA
10"
10" GL
10" GA
10" GA
16" BTF
0I-
Z0I
'CO
0n.
Q0Z
Z00LUtL0LUhC0Q0)I-
00I-(nI-
SOL C 0
SOL C 0
SOL C 0
FSTVPI
FSTVPI
FSTVPI
CSRF
CSRF
RF
h10
MO 0
FS1'PI
0/0 FSTVPI
RF
OPRF
MO C 0/C FSTVPI
OPRF
hIO C 0/C FSTVPI
hIOVPIAJLT
OPRF
r,cRFRF
MO C 0 FSTVplAJLT
CSRFRF
MO 0
MO C
0/C FSTVPI
0/C FSTVPI
OPRF
OPRF
hIO C 0/C FST OPVrl
Zgz000 I-hoX QLO p0 Ln
O
CSJ-22
CSJ-22
CSJ-22
res 27
CSJ-27
ILnLU,D0LUKILUl
Q
tllLU
D0LUO0CQ
73ST-9XI3773ST-9XI37
73 ST-9XI3773 ST-9XI37
73ST-9XI3773ST-9XI37
73ST-9XI1373S 1'-9XI13
73ST-9XI 1473ST-9XI14
73ST.9x 113
73ST-9XI13
73ST-9XI1373ST-9XI13
73 ST-9XI0379c7'.LIXIna
7'Zcv oxL91
73ST-9XI2173ST-9CL01
73ST-9XI217%cv QVI91
73ST-9CL01
73ST-9XI0473ST-9XI04
73ST-9XI1473ST-9XI14
hhnht
penet. 27
REMARKS
8>~M
O R
g +
Q
Q
0Im
Zl
U5z(0
Xl
(lTl
O
fHOx0I
z.l
SIB-HV696
SIA-HV698
SIB-HV699
SIP-001 C6 2 B
SIP-001 F4 2 B
SIP-001 B3 2 B
20"
4%
4%
GA
GA
GA
MO 0 C FSTVPI
MO 0 C FSTVPT
C '/C FSTVPI
OPRF
OPRF
OPRF
73ST-9XI1473ST-9XI14
73ST-9XI0373 ST-9XI03
73ST-9XI0473ST9XI04
gnOLI(D
t4
OIA
VALVENUMBER
SIB-UV322
SIB-UV332
'IB-UV611
SIB-UV614
SIB-UV615
SIB-UV616
SIA-UV61Z
SI8-UV618
SIB-UV621
SIB-UV624
SIB-UV625
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
SIP-002
0)LU
I~z0K00O
D2
D10
B16
A14
G13
G14
G15
B16
C13
A12
Gll
0-L0(0I-OLU
2 B
2 B
2 B
1 B
2 B
2 B
2 B
1'B
2~ BL
1 B
2 B
UINLoLU LLI
GL
14" GA
12" GL
2" GL
2" GL
GL
2" GL
12" GL
14" GA
AO
AO
AO
MO
MO
MO
MO
AO
AO
MO
MO
z0ILo0n.
LL:0z0/0
0/C
0/C
0
0/C
0/C
0
z0OI-LULL:
ClLUhC0LL:I-Lo
0
0
0
0
I-QILUI
O0I-
FSTVPI
FSTVPI
OPRF
OPRF
FSTVPI
CSRF
FST OPTP/VPI RF
FSTVPI
FSTVPI
FSTVPI
FSTVPI
FSTVPI
OPRF
OPRF
OPRF
OPRF
CSRF
FST OPTP/VPI RF
FST 'PVPI RF
z000 I-hoX Q
J gOwO
CSJ-23
OI
LL:DOO0LL:
73ST-9XI0373ST-9XI03
73ST-9XI0473ST-9XI04
73 ST-9XI0473ST-9XI04
Z3ST-9XI2573ST-9XI25
73ST-xXI1273ST-xXI12
73ST-9XI1473ST-9XI14
73ST-9XI1373ST-9XI13
73ST-9XI0473ST-9XI04
73ST-9XI0473ST-9XI04
73ST-9XI2573 ST-9XI25
73ST-xXI1273ST-xXI12
penet. 17
penet. 13
penet. 13
penet. 18
REMARKS
g
85~ co
~ pQ
ZOrn
ZJ
U5ZV)
x
(GATI
ZO
OxZ0
ZSIB-UV626
SIA-UV627
SIB-UV628
BIB-UV631
SIP-002
SIP-002
SIP-002
SIP-002
G12
G12
B13
C8
2 B
2 B
2"
2"
GL
GL
GL
GL
MO
AO
AO
0/C
0/C
0
0
FSTVPI
FSTVPI
FSTVPI
FSTVPI
OPRF
OPRF
OPRF
OPRF
73ST-9XI1473ST-9XI14
73ST-9XI1373ST-9XI13
73ST-9XI0473ST-9XI04
Z3ST-9XI0373ST-9XI03
penet. 14
penet. 14
5'p
0SIA-UV634 SIP-002 A7 1 B 14" GA MO 0 FST
VPICSRF
CSJ-23 73ST-9XI2573ST-9XI25 M cn'
VALVENUMBER PAID
COUI
zOK00O
0GI
O
SIA-UV635 SIP-002 G6 2 B
SIB-UV636 SIP-002 G7 2 B
SIA-UV637 SIP-002 G8 2 B
SIB-UV638 SIP-002 B8 1 B
SIB vv641 SIP v02
SIA-UV644 SIP-002 A4 1 B
SIA-UV645 SIP-002 G4 2 B
G5 2 B
SIB-UV648 SIP-002 B7 1 B
SIA-UV651 SIP-002 C3 1 A
SIB-UV652 SIP-002 010 1 A
SIB-UV646 SIP-002 G4 2 B
UINCO
UI
UI
12" GI
GL
2" GL
GL
2
14" GA
12" GL
2" ". GL
GIL
GL
16" GA
16" GA
n.
0I-
z0I-CO
0n
K0z
00IUIKOIUV0KI-CO
ICO
I-
MO C 0
MO C 0
MO C 0
FSTTP/VPI
FSTVPI
FSTVPI
MO
0/C C ForVPI
FSTVPI
MO C 0
MO C 0
Mn
AO 0/C C
MO C 0/C
FSTVPI
FSTVPI
FSTVPI
LTFSTVPI
MO C 0/C LTFSTVPI
AO 0/C C FSTrmrVrl
O0ICO
I-
OPRF
OPRF
OPRF
OP
OPRF
CSRF
OPRF
OPRF
npRF
OPRF
RFCSRF
RFCSRF
zgz00O I-hoX UCO-O CO
I
OmO
CSJ-23
r c.1n4
CSJ-24
COI-lU
0IUKU.IU
IUK
CO
KDOO0K0.
73ST-XXI1 1
73ST-xXI11
73ST-9XI1473ST-9XI14
73ST-9XI1373ST-9XI13
73ST-9XI03I3Q c'9XIv3
738T19XI0373ST-9XI03
738T 9XI2573ST-9XI25
73ST-xXIll73ST-xXI11
73ST-9XI147%~ QX11ll
n'1~ OYI1'0~ vrr 4 rr ~ Jv73ST-9XI13
73ST-9XI0373ST-9XI03
73ST-98103neman oYln1~ lllrVAukJ
73ST-9XI21
73ST-9SI0373ST-9XI2173ST-9XI21
penet. 19
penet. 15
penet. 15
penet. 20
penet. 16
nnnat 1 0yr w ~ av
REMARKS
'd
5Orc
8>~g WdROM55
5~~C'W I-3
Q
-G
zC0Im
XJ
O5zU)
XJ
(m
U
mAx
l
AI
z. C
I
SIC-UV653 SIP-002 E3 1 A 16" GA
-16"
MO C
MO
0/C LTFSTVPIAJIT
0/C LTFSTVPIAJLT
CSRFRF
CSRFRF
CSJ-24
CSJ-24
73ST-9810373ST-9XI2173ST-9XI21738T40L01
73ST98 103
73ST-9XI2173ST-9XI21738T4CL01
CnQCI
CD
tinCO
Ol A
VALVENUMBER P&ID
SI8-UV656 SIP402
SI8-UV659 SIP-.001
SIA-UV660 SIP-001
SIA-UV664 SIP-001
SI8-UV665 SIP-001
SIA-UV666 SIP-001
SI8-UV667 SIP-001
SIB-UV668 SIP-001
SIA-UV669'IP-001
SIA-UV655 SIP-002
Lo
V)VJ'z
LL:O g0 VJ0O
CC
08uJI-OLU
G3 2 A
G10 2 A
A6 2 8
F62''10
2 8
810 2 8
F10 2 8
810 2 8
G10 2 8
A10.2
8'JJ
NVJLU
LU0
LU
16" GA
16" GA
4w GL
4% GL
2" GL
2" GL
GL
GL
2" GL
2" ', GL I
z0IVJ00.
K0zMO C
MO C
SOL 0
lUKOUJhC0LJ:I-VJ
0/C FSTVPIAJLT
0/C FSTVPIAJLT
C FSTVPI
MO 0 C
MO 0 C
MO 0 C
MO 0 C
MO 0 C
MO '0 C
FSTVPI
FSTTP/VPI
FSTTP/VPI
VPI
VPI
FSTVPI
FSTVPI
SOL 0 0
LUO0I-
I-
CSRFRF
CSRFRF
CSRF
CSRF
OPRF
OPRF
OPRF
OPRF
OPRF
OPRF
zoo
uV)—O V)
Ow0CSJ-24
CSJ-24
CSJ-20
CSJ-20
I-0)UJDOuJLJ:
uLU
lUIJ:
V)
LI-DOO0LL.'.
73ST-9XI2173ST-9XI2173ST-9CL01
73ST-9XI2173ST-9XI2173ST-9CL01
73ST-9XI2173ST-9XI21
73ST-9XI2173ST-9XI21
73ST-9XI0373ST-9XI03
73ST-9XI0473ST-9XI04
73ST-9XI1373 ST-9XI13
73ST-9XI g473ST-9XI14
73ST-9XI 1473ST-9XI 14
73ST-9XI1373ST-9XI13
penet. 27
penet. 26
REMARKS e
8>~g M
Q Ql
+Q
L Po
Q
ZC0
Zl
CI
KzIXI
gJ
(m
zU
mAz0
ZSIB-UV671 SIP-001
SIA-UV672 SIP-001
SIA-UV673 SIP-001
SIA-UV674 SIP-001
BIB-UV675 SIP-001
C6 2 A
G6 2 A
G16 2 8
G14 2 8
A16 2 8
8" GA
GA
24" BTF
24" BTF
24" BTF
MO C 0
MO C,O
MO C 0
MO C 0
MO C 0
FSTVPIAJLT
FSTVPIAJLT
FSTVPI
FSTVPI
FSTVPI
OPRFRF
OPRFRF
OPRF
OPRF
OPRF
73ST-9XI0473ST-9XI0473ST-9CL01
73ST-9XI0373ST-9XI0373ST-9CL01
73ST-9XI0373 ST-9XI03
73 ST-9XI0373 ST-9XI03
73ST-9XI0473ST-9XI04
penet. 22 C.S. Isol.
penet. 21 C.S. Isol.
penet. 23 Sump
penet. 23 Sump
penet. 24 Sump
'tl00
C)0
5'p
co g'
O
VALVENUMBER
couII-ZOK000
K0(9I-0
uINCO
uj 0I-
Z0I-CII0Q.
K0Z
Z0OI-uJKOuIhC0KcoI-
00
COI-
I
Zyz00O I-h~oX u.co-OCn
I-
OwO
co
KDO00K
REMARKS
SIB-UV676 SIP-001 A14 2
SIA-UV682 SIP-001 D10 2
SIA-UV708 SIP-001 G15 2
SIA-UV709 SIP-001 E8 2
SIB-UV710 SIP-001 A7
SIB-PSY140 SIP-001 B15 2
SIA.PCVIR1
SIA PSV162
CIP AA1
SIP-001
SIB-PSV166 SIP-002 G9 2
BIB-PSV169 SIP-002 D10 1
SIA-PSV179 SIP-002 F3 2
SIB-PSV189 SIP4102 F10 2
SIB-PSV191 SIP401 D6 2
IB.PSV192 SIP-001
SI B.PSV193 SIP-001 D6 2
SIA-PSV194 SIP-001 H6 2
SIB.PSV141 SIP-001 B14 2
SIA-PSV150 SIP-001 G15 2
SIA-PSV151 SIP-001 G15 2
B 24"
A 2"
A- 1/2
B 1/2
C 3/4
C 3/4
C 3/4"
C 3/4"
C 1 1/2'
6"
C
A 6"
C
3/4"
C 1 I/2
BTF MO
GL AO
GL SOL
GL SOL
GL SOL
DQ11
PSV
ChVj~
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
C 0
C C FSTVPIAJLT
C 0 PSVT
C 0 PSVT
C 0
C 0
PSVTLT
PSVTLT
C 0 PSVT
C 0 PSVT
0 0 PSVT
0/C FSTvrtAJLT
0/C FSTVPI
0/C FSTYPI
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 SVT
n
OPRF
OPRFRF
OPRFRF
OPRF
OPRF
RFRF
RFRF
73ST-9XI0473ST-9XI04
73ST-9XI0373ST-9XI0373ST-9CL01
73ST-9XI0373b I'-9XI0373ST-9CL01
73 ST-9X10373ST-9XI03
73ST-9XI0473ST-9XI04
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
7387.9ZZK-
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ1973ST-9CL01
73ST-9ZZ1973ST-9CL01
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
penet. 24 Sump
penet. 28
Remove after SARCN deletesthis valve.
penet. 24
penet. 23
penet. 27 LTOP
penet. 26 LTOP
co
CO
O
8~>
n rng &I
LgM M
Q
I1(O
U5zV)
m
ZU
PlA.zA
I
VALVENUMBER P&ID
SIE-PSV211 SIP-002
SIE-PSV221 SIP-002
SIE-PSV231 SIP402
SIE-PSV241 SIP4I02
SIA-PSV285 SIP401
SIB-PSV286 SIP-001
SIB-PSV287 SIP-001
SIE-PSV288 SIP-001
SIA-PSV289 SIP-001
SIE-PSV407 SIP-001
SIB-PSV409 SIP-001
SIA-PSV417 SIP-001
SIA-PSV439 SIP-001
SIB.PSV449 SIP-001
CDUlI-z0K00O
E15 2
E12 2
E7 2
E5 2
B9 2
C9 2
E5 2
G9 2
E8 2
B2 2
H3 2
D3 2
K08IUI-0UJ
UlNCO
UJ
C 2"
C 2"
C 2"
C 2"
C 3/4
C 3/4
C 3/4
C 3/4'
3/4'
3/4
C 3/4"
C, 3/4'
3/4"
C 3/4
UJQ.
UJ
UJQ.
0I-
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV I SA
PSV SA
PSV SA
z0I-CO0Q.
K0z
z00IUJKOUJhC0KCDI-
I-COUJI
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVT
0 PSVT
C 0 PSVT
UJO0I-CD
I
z000 I-I- <DOZ uCD—oh0~O
I-CDulD0ulKU.
UJK
CO
KDCl
O0K
73 ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
REMARKS
Cg-
8>~
() Mg W
g I-IR
0
zO
Zl
U5zV)
XI
(m
zU
mOxZ0
rSIA-PSV468 SIP-002
SIA-PSV469 SIP-002
SIE-PSV473 SIP-001
SIE-PSV474 SIP-001
SIA-PSV754 SIP-002
SIB-PSV755 SIP-002
G2 2
D3 1
E10 2
E9 2
B3 1
B10 1
C 3/4'
3/4
C 3/4
A 3/4C
0 1/2"
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
PSV SA
C 0 PSVT
C 0 PSVT
C 0 PSVT
C 0 PSVTAJLT
C 0 PSVT
C 0 PSVT
Essent al Spray Pond (SP) Valves
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73 ST-9ZZ2073ST-9CL01
73ST-9ZZ20
73 ST-9ZZ20
penct. 28
Bemg mstalled per DMWO677651. May not be in all unitsyet.
Being installed per DM'tVO677651. May not be in all unitsyet.
CO
0
O
VALVENUMBER P&ID
CO
l~20K00O
K0CO
I-OUJ
UJNCO
UJK0I-
z0I-CO
0K
0z
LUK0LU
0KI-CO
O0I-LU
z
0 I-I- <DOx:CO ™p
O CO
OmO
I-COUJD0LUKU.LLJ
LLIK
CO
K0O0K
REMARKS
SPB-V012
SPA-V041
cPR.LLPV 9A7
SPE-HCV-208
SPA-PSV29
SPB-PSV30
SPA-PSV137
SPB-PSV138
SPA-PSV139
SPB-PSV140
SPA-PSV141
'PB-PSV142
SPA-PSV143
SPP-001 C6 3 C
SP F401 C4 3 C
PP JURAT
SPP-001 E4 3 B ~
SPP-002 D3 3 C
SPP-002 D7 3 C
SPP-002 G2 3'
SPP-002 G5 3 C
SPP-002 F2 3 C
PP-002 F5 3 C
SPP-002
SPP-002 F5 3 . C
SPP-002 F2 3 C
24"
24
1A"
10"
1»
1»
1»
CK SA C
CK SA C
TCTP hC dM
BTF MAN C
PS V SA C
PS V SA C
PS V SA C
PS V SA C
PS V SA 0
PS V SA C
PSV SA C
PSV SA C
PS V SA C
0
0
n
0
0
0
0
0
0
0
0
FST OP
FST OP
OD
FST OP
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
PSVT
73ST-9SPOl
73ST-9SP01
99cT nvTQT~ uva uaaauh
73ST-9XI31
V3ST-9ZZ20
73 ST-9ZZ20
73 ST-9ZZ20
73ST-9ZvZ20
738 T-9ZZ20
73 ST-9ZZ20
73ST-9ZZ20
73ST;9ZZ20
73 ST-9ZZ20
hler
2 a TCITI Daauusu w ava a avaaaaaa Itua
CRDR 930025.10.
Added to IST Program perCRDR930025.10.
PB-PSV144 cIPP.002 PSv a'A PCVT 'TacT CT779A
Uclear S amIIIIJLg iSSj Valves
SSB-UV200 SSP-001 G6 A GL SOL C FSTvpiAJLT
OPRFRF
V3ST-9XI0673 ST-9XI0673ST-9CL01
penet. 42C
SSB-UV201 SSP401 F6 2 A GL SOL C FSTVPIAJLT
OPRFRF
73ST-9XI0673ST-9XI0673ST-9CL01
penet. 42A
SSR llV202 SSPAJ01 9 d 1 T9» cOLVPIAJLT
D
RFRF
IT9cnI nv Tnn~ uva Daaauu
V3ST-9XI0673ST-9CL01
1naaIauaat I aa aa
SSA-U V203 SSP-001 G7 2 A GL SOL C FSTvp I
AJLT
OPRFRF
73ST-9XI069ITCT OVTAAvv4 uaaavv
73ST-9CL01
penet. 42C
VALVENUMBER
SSA-UV204
SSA-UV205
WCE-V039
WCB.UV61
WCA-UV62
P&ID
UILUI
ZOK00O
SSP-001 E7 2
WCP401 G7 2
WCP-001 F7 2
WC P-001 F6 2
SSP-001 F7 2
K0(9I-0
AC
A
UlNcoUI
10"
10"
10"
n.
g0I-
0I
Z0ICO0K
K0ZGL SOL C
GL SOL C
GA MO 0
GA MO 0
Norm
CK SA 0
Z00ILUK0Ul
0KI-co
FSTVPIAJLT
FSTVPIAJLT
00I-
I-
OPRFRF
OPRFRF
Chill r (lVC)
FSTAJLT
FSTVPIAJLT
FSTVPIAJLT
CSRF
OPRFRF
OPRFRF
ed AVate
ZgZ00
X g
0
Valves
CSJ-13
I-coLUD0LllKUUl
UlK
co
KD0O0Kn.
73ST-9XI0673ST-9XI0673ST-9CL01
73ST-9XI0673ST-9XI0673ST-9CL01
73ST-9XI2873ST-9CLOl
73ST-9XI0773ST-9XI0773ST-9CLOl
73ST-9XI0773ST-9XI0773ST-9CL01
REMARKS
penet. 42A
penet. 42B
penet. 60
penet. 61
penet;61
g
8>~g M
Q M
< C)
L u
Q
CIWCB-UV63 WCP-001 F6 2 10" GA MO 0 FST
VPIAJLT
OPRFRF
73 ST-9XI0773 ST-9XI0773ST-9CL01
penet. 60
I