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{{#Wiki_filter: | {{#Wiki_filter:ATTACHMENT 3PROPOSEDLICENSEAMENDMENT FORIMPLEMENTATION OF10CFR50'PPENDIX JOPTIONB1-23/46-1thru3/46-103/46-133/46-19thru3/46-233/46-31B3/46-1B3/46-26-15bInsertPages(InsertsA,B,andC)96iiOi0288 961028PDRADQCK05000389P 1.6-ACHANNELFUNCTIONAL TESTshallbethe'injection ofasimulated signalintothechannelasdosetotheprimarysensoraspracticable toverify.OPERABILITY including alarmand/ortripfunctions. | ||
It)48I).$gQfVI<~i'b | 1.7CONTAINMENT VESSELINTEGRITY shallexistwhen:a.Allcontainment vesselpenetrations requiredtobedosedduringaccidentconditions areeither.CapableofbeingdosedbyanOPERABLEcontainment automatic isolation valvesystem,or2.Closedbymanualvalves,blindflanges,ordeactivated automatic valvessecuredintheirdosedItionscetaovidecHn-Fabl 4cUptakes~ha4ai~4'penc~~nrnlev<,'SIcnkQ'ne'er-R8<i'n:Stm]l deCoo>rot.equtpmenhaearedosedandsealed,c.Eachcontainment, vesselairlockisincompliance withtherequirements ofSpecificatio 3.6.1.3,d.Thecontainment leakageratesarewithinthelimitsofSpecification 3.6.12,andIIe.Thesealingmechanism associated witheachpenetration (e.g.,welds,bellowsorO-rings)isOPERABLE. | ||
~-'8h~Q~IN~~~f"4illg~~Jf | 1.8CONTROLLED LEAKAGEshallbethesealwaterflowsuppliedfromthereactorcoolantpumpseats.1.9COREALTERATiON shallbethemovementormanipulation ofanyfuel,sources,reactivity controlcomponents, orothercomponents affecting reactivity withinthereactorvesselwiththevesselheadremovedandfuelinthevessel.Exceptions totheaboveincludeshared(4fingered) controlelementassemblies (CEAs)withdrawn intotheupperguidestructure (UGS)orevolutions perfommdwiththeUGSinphcesuchasCEAlatching/unlatching orverification oflatching/unlatching whichdonotconstitute aCOREALTERATION. | ||
~~4E | Suspension ofCOREALTERATIONS shallnotprecludecompletion ofmovementofacomponent toasafeposition. | ||
ST.LUCIE-UNIT21-2 VA)Slk>>~~')L~IplyiVp~j~ijaf 3/4.6CONTAINMENT SYSTEMS3/4.6.1PRIMARYCONTAINMENT CONTAINMENT INTEGRITY LIMITINGCONDITION FOROPERATION 3.6.1.1PrimaryCONTAINMENT INTEGRITY shallbemaintained. | |||
APPLICABILITY: | |||
MODES1",2",3,and4.ACTION:WithoutprimaryCONTAINMENT INTEGRITY, restoreCONTAINMEHT INTEGRITY within1hourorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.SURVEILLANCE REUIREHENTS 4.6.1.1b.PrimaryCONTAINMENT INTEGRITY shallbedemonstrated: | |||
PAtleastonceper31daysbyverifying thatall.penetrations~ | |||
notcapableofbeingclosedbyOPERABLEcontainment automatic isolation valvesandrequiredtobeclosedduringaccidentconditions areclosedbyvalves,blindflanges,ordeactivated automatic valvessecuredintheirpositipovvctlvcs>hatoy'QgloPA0~cNA<Ate.Imtklin0hasi'sQo~e~nJni'8>'5trR9ive Q~)roLyverifying ateacnrlockisincompliance. | |||
withtherequirements ofSpecification 3.6.1.3.bea~0~aInMODES1and2,theRCBpolarcraneshallberenderedinoperable bylockingthepowersupplybreakeropen.Exceptvalves,blindflanges,anddeactivated automatic valveswhicharelocatedinsidethecontainment andarelocked,sealedorotherwise securedintheclosedposition. | |||
Thesepenetrations shallbeverifiedclosedduringeachCOLDSHUTDOWNexceptthatsuchverification neednotbeperformed moreoftenthanonceper92days.ST.LUCIE-UNIT23/46-1Amendment | |||
.'to. | |||
It)48I).$gQfVI<~i'b CONTAINMENT SYSTEM'CONTAINMENT LEAKAGELIMITINGCONDITION FOROPERATION 3.6.1.2Containment leakageratesshallbelimited'. | |||
i6accordance. | |||
cuI'<hegyyfyinm~4/'ea4tg~ | |||
gp/c7cyp;npiregrang.~-&~~I.%6-p~mbf-fJ4I-1~&+iS,~nt-ament | |||
-ai~per-24-h~0&-ps-ig-.- | |||
~ombinedHeaka hy-wHght-of-4he-uced-pressure-o&P;, | |||
APPL'ICABILITY: | |||
MODES1,2,3,and4.ACTION:Q~sgRgAg~b'-Typ.8d-e-Ig,priortoincreasin theReactorCoolantSystemtemperature above200F.Rcsio~e~he.meant(legs~~~vcxbe.~(ess,+4c~%ha,k-speci[(Q4hyt4Con4~fvlmenk Leq~c'Ra)c.Vcskang'ProgrR~ | |||
SURVEILLANCE REUIRNTS4.6.1.2Thecontainment leakageratesshallbedemonstrated atthe-$e44evAag-rqu'~~Atestscheduleandshallbedetermined inconformance withthecriteriaspecified in4ppen:~P,~~;~~< | |||
Lcw~~gi~-p,<<p,ck.~ptpic.ST.LUCIE-UNIT23/46-2Amendment No.36,81,N.P | |||
~-'8h~Q~IN~~~f"4illg~~Jf CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS (Continued) | |||
+<Q<SVl&3fhvough3/gg-3h~ge4cez>FC~.~c"0. | |||
~i5c3/96"9i'sgAgflcpckIlnli'4page..IfanyperiodicTypeAtestfailstomeeteither.75Lor.75Lthetestscheduleforsubsequent TypeAtestsshallberevieweandpprovedbytheCommission. | |||
Iftwoconsecutive TypeAtestsailtomeeither.75Lor.75Lt,aTypeAtestshallbeperfoedataleastvery18monthsuntiltwoconsecutive TypeAtestmeeteither.75L.75Latwhichtimetheabovetestschedulimayberesumed.c.TheaccuracyoeachTypeAtestshallbeverifdbyasupplemental testwhich:1.ConfirmstheacracyoftheTypeAstbyverifying thatthedifference betweesupplemental anypeAtestdataiswithin0.25Lor0.25Lt.2.Hasadurationsufficietostablishaccurately thechangeinleakageratebetweentheeAtestandthesupplemental test.3.Requiresthequantityogassectedintothecontainment or'bledfromthecontaintduringthesupplemental testtobeequivalent toatlet25KofthetalmeasuredleakagerateatP,41.8psigPt,20.9psig.d.TypeBandCtestsallbeconducted withgaatP,41.8psigatintervals nogreerthan24monthsexceptforttsinvolving: | |||
l.Airloce.2.Pursupplyandexhaustisolation valveswithresientmerialseals.Pursupplyandexhaustisolation valveswithresilient mater1ssshallbetestedanddemonstrated OPERABLEperSurveillance equirements 4.6.1.7.3 and4.6.1.7.4. | |||
ST.LUCIE-UNIT23/46-3Amendnent No.ff,66 | |||
~~4E CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS Continued QECC.ranThecombinedbypassleageesallbedeterinined tobelessoualtoG.I2Lbyapplicable TypeBandCtestsatlenceper24monexceptforpenetrations whicharenoividually testable; penetrsnotindividually tesshallbedetermined tohavenodetectable ewhenteswithsoapbubbleswhilethecontainment ispressuriz | |||
,41.8psigduringeachTypeAtest.g.Airlocksshaltestedanddemonstrated OPERequi.6.1.3.erSurvei1lance~hieprovisions ofSpecification 4.0.2arenotapplicable. | |||
.ST.LUCIE-UNIT23/46-4Amendment S).~ | |||
TABLE3.6- | TABLE3.6-1CONTAINMENT LEAKAGEPATHSgPenetrattnn | ||
~Sstemt7MaupMaterStationAValveTaNumberTeI-HCV-15-1 GlobeI-V-15-328 CheckI-V-18-794 GlobeI-V-18-1270 CheckI-V-18-797 GlobeI-HCV-18-2 GlobeLocationtoContainment OutsideInsideOutsideInsideAnnulusOutsideServicePrimaryMakeupMatStationASupplyTTe*BYPASS/TYPECBYPASS/TYPEC10I1114I'p4rtO25Instrument AfrContainment PurgeContainment PurgeMasteManagement Component CoolinComponCooling.I-V-18-1GlobeI-V-195CheckI-FCV-25-5 | |||
'FLYI-FCV-25-4 B'I-FCV-25-2 B'FI-FCV-25-3 LYV-67GlobeV92CheckI-HCV-14-7 B'FLYI-HCV-14-1 O'PLY-I-HCV-14-6 B'FLYI-HCV-14-2 B'FLYCVCSI-V-2516GlobeI-V-2522GlobePuelTransferTubeOoubleGasketFlangeOutsideInsiAnnulusInsideAnnulusInside0ideInsOutsideInsideOutsideInsideInsideInsideOutsideContainment PurgeExhaustContainment PurgeSupplyN2SupplytoSafetyIn).TanksRCPumpCoolingaterSupplyRCPuCoolingMaterRernFuelTransfer, LetdownLineTYPECTYPECBYPASS/TYPECBYPASS/TYPECBYPASS/TYPECBYPASS/TYPECYPASS/TCInstrument AirSupplyBYPASS/TYPEC TABLE9;6-1~~untinued) | |||
CONTAINMENT LEAKAGEPATHSSamp29ASampling298Sampling4J31a41WasteManagement SafetyInjection WasteManagement 43WasteManagement 44CVCSelPoolrnPenettien~SstemI28A.Sampling208ValveTaNumber/TeISE-05-1A,18,1C10 GlobeISE"05-lE GlobeI-V-5200GlobeI-V-5203GlobeI"V-5204GlobeI-V-5201Globe-5205GlobeI"V-02GlobeI-V"6718DhI-V-6750OiapI"SE"03"2A,28GlobI-V-3463GateI-LCV-11AGlobeI-L-07-118GlobeI-V-6341OiaphI-V-6342OiaphI-V-2524GlobeI-V-2505GlobeI-V-07-206 GateI-V-07"189 GateLocationtoContainment InsideOutsideInsideOutsideOutsideInsideOutsideInsideI>deutsideInsideOutsideInsiOutsideInsideOutsideInsideOutsideOutsideInsideServiceSafety/Injection TankSampleRCSHotLegSamplePressSurgeSaePressureSteamSample~Containment Vent'eaderSafetyInjection TankFill/Orain agdSampling4ReactorCavitySumpPumpDischarge actorOrainTankPuiSuctionReactorlantPumpControlled edoffFuelPoolCleanup(inlet)TestTASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPEC47FuelPoolI-V"07-170GateI-V-07-188 GateOutsideInsideFuelPoolCleanup(outlet)BSSTYPE | |||
/7,f'llIPhgr'hI/l\ | /7,f'llIPhgr'hI/l\ | ||
TABLE3.6'Continued) | TABLE3.6'Continued) eCONTAINMENT LEAKAGEPATHSm.PenetraIg48A48B51A51852AM'2852C52D52E5455n~SetemamplingSamplingSamplingSamplingSamplingSamplingSamplingILRTILRTILRTContainment H2PurgeValveTaNumber/TeI-FSE-27-8,9,10-11 GlobeI-FSE-27-15 GlobeI-V-27-101 CheckI-FSC.27-16 GlobeI-FSE-27-12,13,14 Globe-FSE-27-18 GlobeI-V--102CheckI"FSE-27GlobeI"FCV"26"1GloI-FCV-26-2 GlobeI-FCV-26-3 GlobeI-FCV-26-4 GlobeI-FCV-26-5 beI-FCV GlobeI-0-140Globe-V-00-143 GlobeI-V-00-139 GlobeI-V-00-144 GlobeI-V-00-101 GateBlindFlangeI-FCV"25"26 B'FLYI-FCV-?5-36 B'FLYLocationtoContainment InsideOutsideInsideOutsideInsideOutsideInsideOutsideInetsideInsideutsideInsiOutsideInsideOutsideInsideOutsideOutsideInsideOutsideInsideServiceH2SamplingOutletH2SamplingInletHz-SampngOutl2SamplingInletContainment Radiation Honitoring Containment Radiation Honitoring Containment Radiation Honitoring ILRTILRTILRTCont.Containment H2PurgeHakeupInletTestTTCTYPECTYPECTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASS/TYPECBYPAQTYPEC~ | ||
~~J/J'/1/itl/ | ~~J/J'/1/itl/ | ||
TABLE3.6-1{Continued) | TABLE3.6-1{Continued) | ||
/,rfi'l,/h | CONTAINMENT LEAKAGEPATHSPtratfon5767Personnel LockEscapeLockMaintenance HatchElectrical Penetratfons 12550~SstemContainment H~PurgecuumReefVacuumRelfefHAHAHAMainSteamSteelContainment NozzleMafnSteamSteelContainment NozzlesFeedwater SteelContainment HlesFeedwater eelContafentHozflesFTubeSteelontafnment HozzlesTemporary ServicesValveTaNumber/TeI"V"FCV-25"20B'FLYI-FCV"25"218'LYI-V"25-20 CheckI-FCV"25"7 8'FLY.I-V<<25-21 CheckI"FCV"25"8 8'FLYHoneNoneAllPrfmaryCaner.exceptweldedsparTap1Tap2Tap1TeTap1Tap2Tap1Tap2Tap1BlindFlangeBlindFlangeLocationtoContainment InsideOutsideInsideOutsideInsideOuts!deHAOutsidesideOutsOutsideOutsideOutsideOutsideOutsideInsideOutsideInsideTeste"SecvtceCont.Containment Purge-ExhaustContainment | ||
v~f.IIsiI~~~I1I~"II | .VacuumRelfefContainme VacuumliefInessandEgressoContainment Emergency IngressandTYPE8EgresstoContafnment VesselMaintenance TYPE8BASS/YPECTYPECTYPEBExpansion BellowsExpansfon BellowsTYPE8TYPE8ExsionBellowsExpansion llowsExpansion BellowsTYPE8TYPE8TYPE8Construction/Outage T8Useypeanypassestsareconducted inthesamemanner,theonlydifference fsintheacceptance criteria. | ||
E'I'l~$I~~~&1~P4ht | thatfsapplicable. | ||
/,rfi'l,/h CONTAINMENT SYSTEMSCONTAINMENT AIRLOCKSLIMITINGCONDITION FOROPERATION III3.6.1.3Eachcontainment airlockshallbeOPERABLEwith:a.Bothdoorsclosedexceptwhentheairlockisbeingusedfornormaltransi%entryandexitthroughthecontainment, thenatleastoneairlockdoorshallbeclosed,andb.Anoverallairlocleakagerateof-loess-4han-o~ua4-4o-0&5-L | |||
-a4-againAPPLICABILITY: | |||
MODES1,2,3,and4.ACTlON:Withonecontainment airlockdoorinoperable~: | |||
1.MaintainatleasttheOPERABLEairlockdoorclosedandeitherrestoretheinoperable airlockdoortoOPERABLEstatuswithin24hoursorlocktheOPERABLEairlockdoorclosed.2.Operation maythencontinueuntilperformance ofthenextrequiredovera11airlock1eakagetestprovidedthattheOPERABLEairlockdoorisverifiedtobelockedclosedatleastonceper31days.3.Otherwise, beinatleastHOTSTANDBYwithinthenext6hours'ndinCOLDSHUTDOWNwithinthefollowing 30hours.4.Theprovisions ofSpecification 3.0.4arenotapp1icable. | |||
Withthecontainment airlockinoperable, exceptastheresultofaninoperable airlockdoor,maintainatleastoneairlockdoorclosed;restoretheinoperable airlocktoOPERABLEstatuswithin24hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.Iftheinnerairlockdoorisinoperable, passagetroughtheOPERABLEouterairlockdoorispermitted toeffectrepairstotheinoperable innerairlockdoor.Homorethanoneairlockdoorshallbeopenatanytime.ST.LUCIE-UNIT23/46-9Amendment No.W 0J11 4.6.1.3Eachcontainment airlockshallbedemonstrated OPERABLE: | |||
jf~ai~hM=capabiaty.- | |||
4Atleastonceper6monthsbyverifying thatonlyonedoorineachairlockcanbeopenedatatime.a.'eyve~I'y,'ngl&Lkeg~ratesa~g~;~loci>.Ao~oCcord.~~ceLea<egaRa.laTeskn~P,'rg(ra~ | |||
a~JST.LUCIE-UNIT23/4&10Amendment No.86,~ | |||
v~f.IIsiI~~~I1I~"II CONTAIINENT SYSTB6CDHTAINHENT VESSELSTRUCTURAL INTEGRITY LIHITIHGCOHOITION FOROPERATION 3.6.1.6Thestructural integrity ofthecontaireent vesselshallbeaaintaincd atalevelconsistent | |||
~iththcacceptance criteriainSurveillance Rcqui~nt4.6.1.6.APPLICABILITY: | |||
DOGES1,2,3and4.ACTION:Withthestructural integrity ofthecontainacnt vesselnotconforming totheaboverequiresents, restorethestructural integrity towithinfMliaitspriortoincreasing theReactorCoolantSystceteaperature above2OOoFSURVEILLANCE REUIRENEHTS | |||
~'aac~<~c~~,+OAheGn4ai'AIr endLencage.'Rale7cz$(ng'Propra~4.6.1.Thestructural integrity ofthecontaicment vesselshallbedetcr-aineddur-inexposedaccessible interiorandexteriorsurfacesofthevesselandver-fying noapparentchangesinappearance ofthesurfacesorotherabnormaldegra-dation.i5T.LUCIK-UNIT23/46-13Amendment l)o. | |||
E'I'l~$I~~~&1~P4ht CONTAINMENT SYSTEMS3/4.6.3CONTAINMENT ISOLATION VALVESLIMITINGCONDITION FOROPERATION APPLICABILITY: | |||
MODES1,2,3and4.ACTION:conga'.nconfMithoneormore~-the isolation valve(s)inoperable,maintainatleastoneisolation valveOPERABLEineachaffectedpenetration thatisopenandeither:a.Restoretheinoperable valve(s)toOPERABLEstatuswithin4hours,orb.Isolateeachaffectedpenetration within4hoursbyuseofatleastonedeactivated automatic valvesecuredintheisolation | |||
: position, orC.d.Isolateeachaffectedpenetration within4hoursbyuseofatleastoneclosedmanualvalveorblindflange;orBeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOMNwithinthefollowing 30hours.SURVEILLANCE REUIREMENTS C0nka:eagnew$OPERABLEpriortoreturning thevalvetoserviceaftermaintenance, repairorreplacement workisperformed onthevalveor.itsassociated | |||
: actuator, controlorpowercircuitbyperformance ofacyclingtestandverification ofisolation time.ST.LUCIE-UNIT23/46-19 CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS (Continued) | |||
Cont~'n~o~04.6.3.2Eachautomatic isolation valveshallbedem-onstrated.OPERABLE duringtheCOLDSHUTDOMNorREFUELING MODEatleastonceper18monthsby:a.Verifying thatonaContainment Isolation testsignal(CIAS)and/oraSafetyInjection testsignal(SIAS),eachisolation valveactuatestoitsisolation position. | |||
b.Verifying thatonaContainment Radiation-High testsignal,eachcontainment purgevalveactuatestoitsisolation position. | |||
.~,so<<1"~'anker | |||
<<~~4.6.3.3Theisolation timeofeachpoweroperatedorautomatic valveef-~He~~shallbedetermined tobewithinitslimitwhentestedpursuanttoSpecification 4.0.5.ST.LUCIE-UNIT23/46-20peenJeenhQ0. | |||
Ic\0~14~ggj4spgg4~4s,~~~A%~ | Ic\0~14~ggj4spgg4~4s,~~~A%~ | ||
Penetration.HaximuTestableDuringlsolionA)ConnmentIsolatI-HCV | Penetration | ||
'alveTaumberI"V-6718I"V- | .HaximuTestableDuringlsolionA)ConnmentIsolatI-HCV I-HCV-18-2 I-HCV-18-1 1-FCV-25-5,4 I-FCV-25-2,3 V-6741I-HCV-14-7 I-HCV-14-1 I-HCV-14-6 I-HCV-14-2 I-V-2516I-V-252210232426PrimaryHakeupMater(CIS)StationAirSupplyInstrument AirSupply(CIS)YesContainment PurgeHak(CIS)NitenSupplySafetyInjectTank(CIS)ReactorCtPumpCoolingMaterply()RtorCoolantPumpolingaterReturn(SIAS)LetdownLine(CIS)NoYesContainment PurgeExhaustS)NoI-SE-05-1A)]B, IC,ID,IE28SafetyInjection TankSampleYesI-V-5200I-V-5203I-V-5204I-V-5-5205I-V-520228B29A29BReactorCoolantSystemHotLegSample(CIS)Pressurizer SurgeSample(CIS)Pressurizer SteamSample(CIS)YesYesYes k'llIC'4t/Jf | ||
InMmIlveTaNumber8)HaalCR. | 'alveTaumberI"V-6718I"V-6750Penetration Number31TABLE3.6-2(Continued) | ||
.Ig,aII,~fll\~~I 3/4. | CONTAINHENT ISOLATION VALVESFunctionContainment VentHeader(CIS)HaximuTestableOutingIso)onahYesI"SE"03-2A,28 41SafetyInjection TankTestLineYes(CIS/SIAS) | ||
44~"~4I.V~~'V~44~I~~~4~4~4A4~~4~"V'j4jI | I"LCV-07"11AI"LCV"07"118I-V-6341I"V"6342I"V-2524I-V"2505I-FCV"26"1I-FCU-26-2 I-FCV"26"3 I-FCV-26-4 I-FCV"26-5 I-FCV"26"6 I"FCV-25-26 I-FCV-26V"25-20-FCV-25-21 424352A5657ReactorCavitySumpPumpOischarge (CIS/SIAS) | ||
~IJ~4I~I e,. | TPumpSuction(CISRCPControBleed-off IConnmentRadiatioitoring(CIS)Containment Radiation Honitoring (CIS)Containment Radiation Monitoring (CIS)Cont.Containment/Hz PurgeHakeupInlet(CIS)Cont.Containment/Hq PurgeExhaust(CIS)YesYesNoYesYesYesYesYes5101010 PII'yl!/V/1// | ||
InMmIlveTaNumber8)HaalCR.RemotanualPenetration NumberTASLE3.6-2(Continued) | |||
CONTAINMENT ISOLATION VALVESFunctionHaximumTestable'DuringIsolat~P)t.IIt.lliSI"V"18"79 I-V-18-1270 StationAirSupply(Hanual)StationAirSupply{Check)YesNoNANA4lItOI"V"3463I"V"07"206 I-V-07-189 I-V-07"170I-V"07"188 46I-FSE"27"8)9)10, 4811>15,16I"FSE-27"12,13,14, 5117,18SafetyInjection TankTestLine(Hanual)FuelPoolCleanup(Inlnual)FuelPoClea(Outlet){Hanual),HqSamng(RemoHanual)HqSampling(RemoteHanualYesYes~YesYesYesNAOI"V-00-140 I-V-00"143 I-V-00"139 I"V"00-144 I-V-00"152052EILRT(Hanual)ILRT(Hanual)ILRT{Hanual)YesYesNANA 1I COHTAIHMEHTSYSTEMSSHIELDBUILDINGSTRUCTURAL INTEGRITY UNITINGCONDITION FOROPERATION 3.6.6.3Thestructural integrity oftheshieldbuildingshallbemaintained atalevel.consistent withtheacceptance criteriainSurveillance Require-ment4.6.6.3.APPLICABILITY: | |||
KIDES1,2,3and4.ACTIONWiththestructural integrity oftheshieldbuildingnotconforming totheaboverequirements, restorethestructural integrity towithinthelimitswithin24hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 3Ohours.SVRYEILLAHCE REUIREHEHTS 4.6.&.3Thestructural integrity oftheshieldbuildingshallbedetermined accessible interiorandexteriorsurfacesoftheshieldbuildingandverifying noapparentchangesinappearance oftheconcretesu~facesorotherabnormaldegradation. | |||
gl'naccocdnncc wCAIAc-Can'Arincccn/ICc~~ | |||
4f<ASFI'niinyra~ST.LUCIE-UHIT23/46-31Amendment No. | |||
.Ig,aII,~fll\~~I 3/4.6CONTAINMENT STEMSBASES.3/4.6.1PRIMARYCONTAINMENT 3/4.6.1.1 CONTAINMENT INTEGRITY PrimaryCONTAINMENT INTEGRITY ensuresthatthereleaseofradioactive materials fromthecontainment atmosphere willberestricted tothoseleakagepathsandassociated leakratesassumedinthesafetyanalyses. | |||
Thisrestriction, inconjunction withtheleakageratelimitation, willlimitthesiteboundaryradiation dosestowithinthelimitsof10CFR100duringaccidentconditions. | |||
LgdsEk7Q5(gt,gps,'QMhi'chrcs~llS4io~3/4.6.1.2CONTAINMENT LEAKAGEy4~);~,~;~~~tge basis,lossofCoo'l~~tace.'ew+. | |||
Thelimitations oncontainment leakageraesensurethatetotalcontainment leakagevoltewillnotexceedthevalueassumedintheaccidentPk**khP.P.~~',hhPkhP<<Phhleakagerates~consistent withasmodifiedbyapprovedexemptions Thesurveillance testingformeasuring therequirements ofAppendix0of10CFR50R'-the-r~A4s 3/4.6.1.3 CONTAINMENT AIRLOCKSThemaximumpeakpressureexpectedtobeobtainedfromasteamlinebreakeventis43.4psig.Thelimitof0,4psigforinitialpositivecontainient pressurewilllimitthetotalpressureto43.99psigwhichislessthanthedesignpressureandisconsistent withthesafetyanalyses. | |||
~~Qpf/~5aodR<g4ta<o<1''44ide. | |||
ll(o3>~)eel'ep)o~bcR5'helimitations onclosureandleakrecontaenocksarerequiredtomeet>>therestrictions onCONTAINMENT INTEGRITY andcontainment leakrate.Surveillance testingoftheairlocksealsprovidesassurance thattheoverallairlockleakagewillnotbecomeexcessive duetosealdamageduringtheintervals betweenairlockleakaetests.3/4.6.1.4 INTERNALPRESSURECenkfnwonf Le<gcge,'R~ic-S~'")IJ'"~qandI'5Thelimitations oncontaiaaent internapressureensurethat(1)thecontainment structure isprevented fromexceeding itsdesignnegativepressuredifferential withrespecttotheannulusatmosphere of0.7psiand(2)thecontainment peakpressuredoesnotexceedthedesignpressureof44psigduringsteamlinebreakconditions. | |||
ST.LUCIE-UNIT2B3/46-1Amendnent Ho.d+ | |||
44~"~4I.V~~'V~44~I~~~4~4~4A4~~4~"V'j4jI CONTAINMENT SYSTEMSBASES3/4.6.1.5AIRTEMPERATURE Thelimitation oncontainment averageairtemperature ensuresthatthecontainment temperature doesnotexceedthedesigntemperature of264Fduringsteamlinebreakconditions andisconsistent withthesafetyanalyses. | |||
3/4.6.1.6CONTAINMENT VESSELSTRUCTURAL INTEGRITY | |||
'll8Thislimitation ensuresthatthestructural integr'ofthecontainment steelvesselwillbemaintained ceaparable totheorig'naldesignstandards forthelifeofthefacility. | |||
Structural integrity irequiredtoensurethatthevesselwillwithstand themaximumpressureof.psigintheeventofaAvisualinspection insittodemonstrate thiscapity./'.Jg+ggg&gal,'5Ib5soICoolantAoci'afi'dtg/.6..CONTAINMENT VENTILANSYSTEMThe48-inchcontainment purgesupplyandexhaustisolation valvesarerequiredtobeclosedduringplantoperation sincethesevalveshavenotbeendemonstrated capableofclosingduringaLOCAorsteamlinebreakaccident. | |||
Maintaining thesevalvesclosedduringplantoperations ensuresthatexcessive quantities ofradioactive materials willnotbereleasedviathecontairaent purgesystem.Toprovideassurance thatthe48-inchvalvescannotbeinadvertently opened,=theyaresealedclosedinaccordance withStandardReviewPlan6.2.4whichincludesdevicestolockthevalveclosed,orpreventpowerfrombeingsuppliedtothevalveoperator. | |||
Theuseofthecontainment purgelinesisrestricted tothe8-inchpurgesupplyandexhaustisolation valvessince,unlikethe48-inchvalves,the8-inchvalveswillcloseduringaLOCAorsteamlinebreakaccidentandtherefore thesiteboundarydoseguidelines of10CFRPart100wouldnotbeexceededintheeventofanaccidentduringpurgingoperations. | |||
Leakageintegrity testswithamaximumallowable leakagerateforpurgesupplyandexhaustisolation valveswillprovideearlyindication ofresilient materialsealdegradation andwillallowtheopportunity forrepairbeforegrossleakagefailuredevelops. | |||
The0.60Lleakagelimitshallnotbeexceededwhentheleakageratesdetermined 3ytheleakageintegrity testsofthesevalvesareaddedtothepreviously determined totalforallvalvesandpenetrations subjecttoTypeBandCtests.ST.LUCIE-UNIT2B3/46-2Atttendment No. | |||
~IJ~4I~I e,.ADMINISTRATIVE COHTROthan8daysingaseouseffluents releasedfromeachunittoareasbeyondtheSITEBOUNDARYconforming toAppendixIto10CFRPart50,10)Limitations ontheannualdoseordosecoaxnitment toanyMEMBEROFTHEPUBLICduetoreleasesofradioactivity andtoradiation fromuraniumfuelcyclesourcesconforming to40CFRPart190.g.RadiolicalEnvironmental Monitorin PrramAprepamshallbeprovidedtomonitortheradiation andradio-nuclidesintheenvironsoftheplant.Theprogramshall.provide(1)representative measurements ofradioactivity inthehighestpotential exposurepathways, and(2)verification oftheaccuracyoftheeffluentmonitoring programandmodelingofenvironmental exposurepathways. | |||
Theprogramshall(1)becontained intheODCM,(2)conformtotheguidanceofAppendixIto10CFRPart50,and(3)includethefollowing: | |||
1)Monitoring, | |||
: sampling, analysis, andreporting ofradiation andradionuclides intheenvironment inaccordance withthemethodology andparameters intheODCM,2)ALandUseCensustoensurethatchangesintheuseofareasatandbeyondtheSITEBOUNDARYareidentified andthatmodifications tothemonitoring programaremadeifrequiredbytheresultsofthiscensus,and3)Participation inaInterlaboratory Coiparison Programtoensurethatindependent checksontheprecision andaccuracyofthemeasurements ofradioactive materials inenvironmental samplematricesareperformed aspartofthequalityassurance programforenvironmental monitoring. | |||
ST.LUCIE-UNIT16-15bAmendment No.P PNSERTAUnit2]Withthecontainment leakagerateexceeding theacceptance criteriaoftheContainment LeakageRateTestingProgram,within1hourinitiateactiontobeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours. | |||
[INSERTBUnit2] | [INSERTBUnit2]Inaccordance withGenericLetter91-08,"RemovalofComponent ListsfromTechnical Specifications," | ||
[INSERTCUnit2]h. | theopeningoflockedorsealedclosedcontainment isolation valvesonanintermittent basisunderadministrative controlincludesthefollowing considerations: | ||
(1)statio'ning anoperator, whoisinconstantcommunication withthecontrolroom,atthevalvecontrols, (2)instructing thisoperatortoclosethesevalvesinanaccidentsituation, and,(3)assuringthatenvironmental conditions willnotprecludeaccesstoclosethevalvesandthatthisactionwillpreventthereleaseofradioactivity outsidethecontainment. | |||
[INSERTCUnit2]h.Containment LeakageRateTestingProgramAprogramtoimplement theleakageratetestingofthecontainment asrequiredby10CFR50.54(o)and10CFR50AppendixJ,OptionB,asmodifiedbyapprovedexemptions. | |||
Thisprogramisinaccordance withtheguidelines contained inRegulatory Guide1.163,"Performance-Based Containment Leak-Test Program," | |||
asmodifiedbythefollowing exception: | |||
a.BechtelTopicalReport,BN-TOP-1orANS56.8-1994 (asrecommended byR.G.1.163)willbeusedfortypeAtesting.Thepeakcalculated containment internalpressureforthedesignbasislossofcoolantaccident, Pis41.8psig.Thecontainment designpressureis44psig.Themaximumallowable containment leakagerate,LatPshallbe0.50%ofcontainment airweightperday.Leakagerateacceptance criteriaare:Containment leakagerateacceptance criterion is<1.0L,.Duringthefirstunitstartupfollowing testinginaccordance withthisprogram,theleakagerateacceptance criteriaare<0.60L,fortheTypeBandCtests,<0.75L;forTypeAtests,and<0.27L,forsecondary containment bypassleakagepaths.b.Airlocktestingacceptance criteriaare:1)Overallairlockleakagerateis<0.05L,whentestedat>P,.2)Foreachdoorseal,leakagerateis<0.01L,whenpressurized to>P,.Theprovisions ofT.S.4.0.2donotapplytotestfrequencies intheContainment LeakRateTestingProgram.Theprovisions ofT.S.4.0.3areapplicable totheContainment LeakRateTestingProgram. | |||
1PP}} | 1PP}} | ||
Revision as of 15:48, 29 June 2018
| ML17229A109 | |
| Person / Time | |
|---|---|
| Site: | Saint Lucie  |
| Issue date: | 10/28/1996 |
| From: | FLORIDA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML17229A108 | List: |
| References | |
| NUDOCS 9611010288 | |
| Download: ML17229A109 (45) | |
Text
ATTACHMENT 3PROPOSEDLICENSEAMENDMENT FORIMPLEMENTATION OF10CFR50'PPENDIX JOPTIONB1-23/46-1thru3/46-103/46-133/46-19thru3/46-233/46-31B3/46-1B3/46-26-15bInsertPages(InsertsA,B,andC)96iiOi0288 961028PDRADQCK05000389P 1.6-ACHANNELFUNCTIONAL TESTshallbethe'injection ofasimulated signalintothechannelasdosetotheprimarysensoraspracticable toverify.OPERABILITY including alarmand/ortripfunctions.
1.7CONTAINMENT VESSELINTEGRITY shallexistwhen:a.Allcontainment vesselpenetrations requiredtobedosedduringaccidentconditions areeither.CapableofbeingdosedbyanOPERABLEcontainment automatic isolation valvesystem,or2.Closedbymanualvalves,blindflanges,ordeactivated automatic valvessecuredintheirdosedItionscetaovidecHn-Fabl 4cUptakes~ha4ai~4'penc~~nrnlev<,'SIcnkQ'ne'er-R8<i'n:Stm]l deCoo>rot.equtpmenhaearedosedandsealed,c.Eachcontainment, vesselairlockisincompliance withtherequirements ofSpecificatio 3.6.1.3,d.Thecontainment leakageratesarewithinthelimitsofSpecification 3.6.12,andIIe.Thesealingmechanism associated witheachpenetration (e.g.,welds,bellowsorO-rings)isOPERABLE.
1.8CONTROLLED LEAKAGEshallbethesealwaterflowsuppliedfromthereactorcoolantpumpseats.1.9COREALTERATiON shallbethemovementormanipulation ofanyfuel,sources,reactivity controlcomponents, orothercomponents affecting reactivity withinthereactorvesselwiththevesselheadremovedandfuelinthevessel.Exceptions totheaboveincludeshared(4fingered) controlelementassemblies (CEAs)withdrawn intotheupperguidestructure (UGS)orevolutions perfommdwiththeUGSinphcesuchasCEAlatching/unlatching orverification oflatching/unlatching whichdonotconstitute aCOREALTERATION.
Suspension ofCOREALTERATIONS shallnotprecludecompletion ofmovementofacomponent toasafeposition.
ST.LUCIE-UNIT21-2 VA)Slk>>~~')L~IplyiVp~j~ijaf 3/4.6CONTAINMENT SYSTEMS3/4.6.1PRIMARYCONTAINMENT CONTAINMENT INTEGRITY LIMITINGCONDITION FOROPERATION 3.6.1.1PrimaryCONTAINMENT INTEGRITY shallbemaintained.
APPLICABILITY:
MODES1",2",3,and4.ACTION:WithoutprimaryCONTAINMENT INTEGRITY, restoreCONTAINMEHT INTEGRITY within1hourorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.SURVEILLANCE REUIREHENTS 4.6.1.1b.PrimaryCONTAINMENT INTEGRITY shallbedemonstrated:
PAtleastonceper31daysbyverifying thatall.penetrations~
notcapableofbeingclosedbyOPERABLEcontainment automatic isolation valvesandrequiredtobeclosedduringaccidentconditions areclosedbyvalves,blindflanges,ordeactivated automatic valvessecuredintheirpositipovvctlvcs>hatoy'QgloPA0~cNA<Ate.Imtklin0hasi'sQo~e~nJni'8>'5trR9ive Q~)roLyverifying ateacnrlockisincompliance.
withtherequirements ofSpecification 3.6.1.3.bea~0~aInMODES1and2,theRCBpolarcraneshallberenderedinoperable bylockingthepowersupplybreakeropen.Exceptvalves,blindflanges,anddeactivated automatic valveswhicharelocatedinsidethecontainment andarelocked,sealedorotherwise securedintheclosedposition.
Thesepenetrations shallbeverifiedclosedduringeachCOLDSHUTDOWNexceptthatsuchverification neednotbeperformed moreoftenthanonceper92days.ST.LUCIE-UNIT23/46-1Amendment
.'to.
It)48I).$gQfVI<~i'b CONTAINMENT SYSTEM'CONTAINMENT LEAKAGELIMITINGCONDITION FOROPERATION 3.6.1.2Containment leakageratesshallbelimited'.
i6accordance.
cuI'<hegyyfyinm~4/'ea4tg~
gp/c7cyp;npiregrang.~-&~~I.%6-p~mbf-fJ4I-1~&+iS,~nt-ament
-ai~per-24-h~0&-ps-ig-.-
~ombinedHeaka hy-wHght-of-4he-uced-pressure-o&P;,
APPL'ICABILITY:
MODES1,2,3,and4.ACTION:Q~sgRgAg~b'-Typ.8d-e-Ig,priortoincreasin theReactorCoolantSystemtemperature above200F.Rcsio~e~he.meant(legs~~~vcxbe.~(ess,+4c~%ha,k-speci[(Q4hyt4Con4~fvlmenk Leq~c'Ra)c.Vcskang'ProgrR~
SURVEILLANCE REUIRNTS4.6.1.2Thecontainment leakageratesshallbedemonstrated atthe-$e44evAag-rqu'~~Atestscheduleandshallbedetermined inconformance withthecriteriaspecified in4ppen:~P,~~;~~<
Lcw~~gi~-p,<<p,ck.~ptpic.ST.LUCIE-UNIT23/46-2Amendment No.36,81,N.P
~-'8h~Q~IN~~~f"4illg~~Jf CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS (Continued)
+<Q<SVl&3fhvough3/gg-3h~ge4cez>FC~.~c"0.
~i5c3/96"9i'sgAgflcpckIlnli'4page..IfanyperiodicTypeAtestfailstomeeteither.75Lor.75Lthetestscheduleforsubsequent TypeAtestsshallberevieweandpprovedbytheCommission.
Iftwoconsecutive TypeAtestsailtomeeither.75Lor.75Lt,aTypeAtestshallbeperfoedataleastvery18monthsuntiltwoconsecutive TypeAtestmeeteither.75L.75Latwhichtimetheabovetestschedulimayberesumed.c.TheaccuracyoeachTypeAtestshallbeverifdbyasupplemental testwhich:1.ConfirmstheacracyoftheTypeAstbyverifying thatthedifference betweesupplemental anypeAtestdataiswithin0.25Lor0.25Lt.2.Hasadurationsufficietostablishaccurately thechangeinleakageratebetweentheeAtestandthesupplemental test.3.Requiresthequantityogassectedintothecontainment or'bledfromthecontaintduringthesupplemental testtobeequivalent toatlet25KofthetalmeasuredleakagerateatP,41.8psigPt,20.9psig.d.TypeBandCtestsallbeconducted withgaatP,41.8psigatintervals nogreerthan24monthsexceptforttsinvolving:
l.Airloce.2.Pursupplyandexhaustisolation valveswithresientmerialseals.Pursupplyandexhaustisolation valveswithresilient mater1ssshallbetestedanddemonstrated OPERABLEperSurveillance equirements 4.6.1.7.3 and4.6.1.7.4.
ST.LUCIE-UNIT23/46-3Amendnent No.ff,66
~~4E CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS Continued QECC.ranThecombinedbypassleageesallbedeterinined tobelessoualtoG.I2Lbyapplicable TypeBandCtestsatlenceper24monexceptforpenetrations whicharenoividually testable; penetrsnotindividually tesshallbedetermined tohavenodetectable ewhenteswithsoapbubbleswhilethecontainment ispressuriz
,41.8psigduringeachTypeAtest.g.Airlocksshaltestedanddemonstrated OPERequi.6.1.3.erSurvei1lance~hieprovisions ofSpecification 4.0.2arenotapplicable.
.ST.LUCIE-UNIT23/46-4Amendment S).~
TABLE3.6-1CONTAINMENT LEAKAGEPATHSgPenetrattnn
~Sstemt7MaupMaterStationAValveTaNumberTeI-HCV-15-1 GlobeI-V-15-328 CheckI-V-18-794 GlobeI-V-18-1270 CheckI-V-18-797 GlobeI-HCV-18-2 GlobeLocationtoContainment OutsideInsideOutsideInsideAnnulusOutsideServicePrimaryMakeupMatStationASupplyTTe*BYPASS/TYPECBYPASS/TYPEC10I1114I'p4rtO25Instrument AfrContainment PurgeContainment PurgeMasteManagement Component CoolinComponCooling.I-V-18-1GlobeI-V-195CheckI-FCV-25-5
'FLYI-FCV-25-4 B'I-FCV-25-2 B'FI-FCV-25-3 LYV-67GlobeV92CheckI-HCV-14-7 B'FLYI-HCV-14-1 O'PLY-I-HCV-14-6 B'FLYI-HCV-14-2 B'FLYCVCSI-V-2516GlobeI-V-2522GlobePuelTransferTubeOoubleGasketFlangeOutsideInsiAnnulusInsideAnnulusInside0ideInsOutsideInsideOutsideInsideInsideInsideOutsideContainment PurgeExhaustContainment PurgeSupplyN2SupplytoSafetyIn).TanksRCPumpCoolingaterSupplyRCPuCoolingMaterRernFuelTransfer, LetdownLineTYPECTYPECBYPASS/TYPECBYPASS/TYPECBYPASS/TYPECBYPASS/TYPECYPASS/TCInstrument AirSupplyBYPASS/TYPEC TABLE9;6-1~~untinued)
CONTAINMENT LEAKAGEPATHSSamp29ASampling298Sampling4J31a41WasteManagement SafetyInjection WasteManagement 43WasteManagement 44CVCSelPoolrnPenettien~SstemI28A.Sampling208ValveTaNumber/TeISE-05-1A,18,1C10 GlobeISE"05-lE GlobeI-V-5200GlobeI-V-5203GlobeI"V-5204GlobeI-V-5201Globe-5205GlobeI"V-02GlobeI-V"6718DhI-V-6750OiapI"SE"03"2A,28GlobI-V-3463GateI-LCV-11AGlobeI-L-07-118GlobeI-V-6341OiaphI-V-6342OiaphI-V-2524GlobeI-V-2505GlobeI-V-07-206 GateI-V-07"189 GateLocationtoContainment InsideOutsideInsideOutsideOutsideInsideOutsideInsideI>deutsideInsideOutsideInsiOutsideInsideOutsideInsideOutsideOutsideInsideServiceSafety/Injection TankSampleRCSHotLegSamplePressSurgeSaePressureSteamSample~Containment Vent'eaderSafetyInjection TankFill/Orain agdSampling4ReactorCavitySumpPumpDischarge actorOrainTankPuiSuctionReactorlantPumpControlled edoffFuelPoolCleanup(inlet)TestTASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPEC47FuelPoolI-V"07-170GateI-V-07-188 GateOutsideInsideFuelPoolCleanup(outlet)BSSTYPE
/7,f'llIPhgr'hI/l\
TABLE3.6'Continued) eCONTAINMENT LEAKAGEPATHSm.PenetraIg48A48B51A51852AM'2852C52D52E5455n~SetemamplingSamplingSamplingSamplingSamplingSamplingSamplingILRTILRTILRTContainment H2PurgeValveTaNumber/TeI-FSE-27-8,9,10-11 GlobeI-FSE-27-15 GlobeI-V-27-101 CheckI-FSC.27-16 GlobeI-FSE-27-12,13,14 Globe-FSE-27-18 GlobeI-V--102CheckI"FSE-27GlobeI"FCV"26"1GloI-FCV-26-2 GlobeI-FCV-26-3 GlobeI-FCV-26-4 GlobeI-FCV-26-5 beI-FCV GlobeI-0-140Globe-V-00-143 GlobeI-V-00-139 GlobeI-V-00-144 GlobeI-V-00-101 GateBlindFlangeI-FCV"25"26 B'FLYI-FCV-?5-36 B'FLYLocationtoContainment InsideOutsideInsideOutsideInsideOutsideInsideOutsideInetsideInsideutsideInsiOutsideInsideOutsideInsideOutsideOutsideInsideOutsideInsideServiceH2SamplingOutletH2SamplingInletHz-SampngOutl2SamplingInletContainment Radiation Honitoring Containment Radiation Honitoring Containment Radiation Honitoring ILRTILRTILRTCont.Containment H2PurgeHakeupInletTestTTCTYPECTYPECTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASSTYPECBYPASS/TYPECBYPAQTYPEC~
~~J/J'/1/itl/
TABLE3.6-1{Continued)
CONTAINMENT LEAKAGEPATHSPtratfon5767Personnel LockEscapeLockMaintenance HatchElectrical Penetratfons 12550~SstemContainment H~PurgecuumReefVacuumRelfefHAHAHAMainSteamSteelContainment NozzleMafnSteamSteelContainment NozzlesFeedwater SteelContainment HlesFeedwater eelContafentHozflesFTubeSteelontafnment HozzlesTemporary ServicesValveTaNumber/TeI"V"FCV-25"20B'FLYI-FCV"25"218'LYI-V"25-20 CheckI-FCV"25"7 8'FLY.I-V<<25-21 CheckI"FCV"25"8 8'FLYHoneNoneAllPrfmaryCaner.exceptweldedsparTap1Tap2Tap1TeTap1Tap2Tap1Tap2Tap1BlindFlangeBlindFlangeLocationtoContainment InsideOutsideInsideOutsideInsideOuts!deHAOutsidesideOutsOutsideOutsideOutsideOutsideOutsideInsideOutsideInsideTeste"SecvtceCont.Containment Purge-ExhaustContainment
.VacuumRelfefContainme VacuumliefInessandEgressoContainment Emergency IngressandTYPE8EgresstoContafnment VesselMaintenance TYPE8BASS/YPECTYPECTYPEBExpansion BellowsExpansfon BellowsTYPE8TYPE8ExsionBellowsExpansion llowsExpansion BellowsTYPE8TYPE8TYPE8Construction/Outage T8Useypeanypassestsareconducted inthesamemanner,theonlydifference fsintheacceptance criteria.
thatfsapplicable.
/,rfi'l,/h CONTAINMENT SYSTEMSCONTAINMENT AIRLOCKSLIMITINGCONDITION FOROPERATION III3.6.1.3Eachcontainment airlockshallbeOPERABLEwith:a.Bothdoorsclosedexceptwhentheairlockisbeingusedfornormaltransi%entryandexitthroughthecontainment, thenatleastoneairlockdoorshallbeclosed,andb.Anoverallairlocleakagerateof-loess-4han-o~ua4-4o-0&5-L
-a4-againAPPLICABILITY:
MODES1,2,3,and4.ACTlON:Withonecontainment airlockdoorinoperable~:
1.MaintainatleasttheOPERABLEairlockdoorclosedandeitherrestoretheinoperable airlockdoortoOPERABLEstatuswithin24hoursorlocktheOPERABLEairlockdoorclosed.2.Operation maythencontinueuntilperformance ofthenextrequiredovera11airlock1eakagetestprovidedthattheOPERABLEairlockdoorisverifiedtobelockedclosedatleastonceper31days.3.Otherwise, beinatleastHOTSTANDBYwithinthenext6hours'ndinCOLDSHUTDOWNwithinthefollowing 30hours.4.Theprovisions ofSpecification 3.0.4arenotapp1icable.
Withthecontainment airlockinoperable, exceptastheresultofaninoperable airlockdoor,maintainatleastoneairlockdoorclosed;restoretheinoperable airlocktoOPERABLEstatuswithin24hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.Iftheinnerairlockdoorisinoperable, passagetroughtheOPERABLEouterairlockdoorispermitted toeffectrepairstotheinoperable innerairlockdoor.Homorethanoneairlockdoorshallbeopenatanytime.ST.LUCIE-UNIT23/46-9Amendment No.W 0J11 4.6.1.3Eachcontainment airlockshallbedemonstrated OPERABLE:
jf~ai~hM=capabiaty.-
4Atleastonceper6monthsbyverifying thatonlyonedoorineachairlockcanbeopenedatatime.a.'eyve~I'y,'ngl&Lkeg~ratesa~g~;~loci>.Ao~oCcord.~~ceLea<egaRa.laTeskn~P,'rg(ra~
a~JST.LUCIE-UNIT23/4&10Amendment No.86,~
v~f.IIsiI~~~I1I~"II CONTAIINENT SYSTB6CDHTAINHENT VESSELSTRUCTURAL INTEGRITY LIHITIHGCOHOITION FOROPERATION 3.6.1.6Thestructural integrity ofthecontaireent vesselshallbeaaintaincd atalevelconsistent
~iththcacceptance criteriainSurveillance Rcqui~nt4.6.1.6.APPLICABILITY:
DOGES1,2,3and4.ACTION:Withthestructural integrity ofthecontainacnt vesselnotconforming totheaboverequiresents, restorethestructural integrity towithinfMliaitspriortoincreasing theReactorCoolantSystceteaperature above2OOoFSURVEILLANCE REUIRENEHTS
~'aac~<~c~~,+OAheGn4ai'AIr endLencage.'Rale7cz$(ng'Propra~4.6.1.Thestructural integrity ofthecontaicment vesselshallbedetcr-aineddur-inexposedaccessible interiorandexteriorsurfacesofthevesselandver-fying noapparentchangesinappearance ofthesurfacesorotherabnormaldegra-dation.i5T.LUCIK-UNIT23/46-13Amendment l)o.
E'I'l~$I~~~&1~P4ht CONTAINMENT SYSTEMS3/4.6.3CONTAINMENT ISOLATION VALVESLIMITINGCONDITION FOROPERATION APPLICABILITY:
MODES1,2,3and4.ACTION:conga'.nconfMithoneormore~-the isolation valve(s)inoperable,maintainatleastoneisolation valveOPERABLEineachaffectedpenetration thatisopenandeither:a.Restoretheinoperable valve(s)toOPERABLEstatuswithin4hours,orb.Isolateeachaffectedpenetration within4hoursbyuseofatleastonedeactivated automatic valvesecuredintheisolation
- position, orC.d.Isolateeachaffectedpenetration within4hoursbyuseofatleastoneclosedmanualvalveorblindflange;orBeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOMNwithinthefollowing 30hours.SURVEILLANCE REUIREMENTS C0nka:eagnew$OPERABLEpriortoreturning thevalvetoserviceaftermaintenance, repairorreplacement workisperformed onthevalveor.itsassociated
- actuator, controlorpowercircuitbyperformance ofacyclingtestandverification ofisolation time.ST.LUCIE-UNIT23/46-19 CONTAINMENT SYSTEMSSURVEILLANCE REUIREMENTS (Continued)
Cont~'n~o~04.6.3.2Eachautomatic isolation valveshallbedem-onstrated.OPERABLE duringtheCOLDSHUTDOMNorREFUELING MODEatleastonceper18monthsby:a.Verifying thatonaContainment Isolation testsignal(CIAS)and/oraSafetyInjection testsignal(SIAS),eachisolation valveactuatestoitsisolation position.
b.Verifying thatonaContainment Radiation-High testsignal,eachcontainment purgevalveactuatestoitsisolation position.
.~,so<<1"~'anker
<<~~4.6.3.3Theisolation timeofeachpoweroperatedorautomatic valveef-~He~~shallbedetermined tobewithinitslimitwhentestedpursuanttoSpecification 4.0.5.ST.LUCIE-UNIT23/46-20peenJeenhQ0.
Ic\0~14~ggj4spgg4~4s,~~~A%~
Penetration
.HaximuTestableDuringlsolionA)ConnmentIsolatI-HCV I-HCV-18-2 I-HCV-18-1 1-FCV-25-5,4 I-FCV-25-2,3 V-6741I-HCV-14-7 I-HCV-14-1 I-HCV-14-6 I-HCV-14-2 I-V-2516I-V-252210232426PrimaryHakeupMater(CIS)StationAirSupplyInstrument AirSupply(CIS)YesContainment PurgeHak(CIS)NitenSupplySafetyInjectTank(CIS)ReactorCtPumpCoolingMaterply()RtorCoolantPumpolingaterReturn(SIAS)LetdownLine(CIS)NoYesContainment PurgeExhaustS)NoI-SE-05-1A)]B, IC,ID,IE28SafetyInjection TankSampleYesI-V-5200I-V-5203I-V-5204I-V-5-5205I-V-520228B29A29BReactorCoolantSystemHotLegSample(CIS)Pressurizer SurgeSample(CIS)Pressurizer SteamSample(CIS)YesYesYes k'llIC'4t/Jf
'alveTaumberI"V-6718I"V-6750Penetration Number31TABLE3.6-2(Continued)
CONTAINHENT ISOLATION VALVESFunctionContainment VentHeader(CIS)HaximuTestableOutingIso)onahYesI"SE"03-2A,28 41SafetyInjection TankTestLineYes(CIS/SIAS)
I"LCV-07"11AI"LCV"07"118I-V-6341I"V"6342I"V-2524I-V"2505I-FCV"26"1I-FCU-26-2 I-FCV"26"3 I-FCV-26-4 I-FCV"26-5 I-FCV"26"6 I"FCV-25-26 I-FCV-26V"25-20-FCV-25-21 424352A5657ReactorCavitySumpPumpOischarge (CIS/SIAS)
TPumpSuction(CISRCPControBleed-off IConnmentRadiatioitoring(CIS)Containment Radiation Honitoring (CIS)Containment Radiation Monitoring (CIS)Cont.Containment/Hz PurgeHakeupInlet(CIS)Cont.Containment/Hq PurgeExhaust(CIS)YesYesNoYesYesYesYesYes5101010 PII'yl!/V/1//
InMmIlveTaNumber8)HaalCR.RemotanualPenetration NumberTASLE3.6-2(Continued)
CONTAINMENT ISOLATION VALVESFunctionHaximumTestable'DuringIsolat~P)t.IIt.lliSI"V"18"79 I-V-18-1270 StationAirSupply(Hanual)StationAirSupply{Check)YesNoNANA4lItOI"V"3463I"V"07"206 I-V-07-189 I-V-07"170I-V"07"188 46I-FSE"27"8)9)10, 4811>15,16I"FSE-27"12,13,14, 5117,18SafetyInjection TankTestLine(Hanual)FuelPoolCleanup(Inlnual)FuelPoClea(Outlet){Hanual),HqSamng(RemoHanual)HqSampling(RemoteHanualYesYes~YesYesYesNAOI"V-00-140 I-V-00"143 I-V-00"139 I"V"00-144 I-V-00"152052EILRT(Hanual)ILRT(Hanual)ILRT{Hanual)YesYesNANA 1I COHTAIHMEHTSYSTEMSSHIELDBUILDINGSTRUCTURAL INTEGRITY UNITINGCONDITION FOROPERATION 3.6.6.3Thestructural integrity oftheshieldbuildingshallbemaintained atalevel.consistent withtheacceptance criteriainSurveillance Require-ment4.6.6.3.APPLICABILITY:
KIDES1,2,3and4.ACTIONWiththestructural integrity oftheshieldbuildingnotconforming totheaboverequirements, restorethestructural integrity towithinthelimitswithin24hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 3Ohours.SVRYEILLAHCE REUIREHEHTS 4.6.&.3Thestructural integrity oftheshieldbuildingshallbedetermined accessible interiorandexteriorsurfacesoftheshieldbuildingandverifying noapparentchangesinappearance oftheconcretesu~facesorotherabnormaldegradation.
gl'naccocdnncc wCAIAc-Can'Arincccn/ICc~~
4f<ASFI'niinyra~ST.LUCIE-UHIT23/46-31Amendment No.
.Ig,aII,~fll\~~I 3/4.6CONTAINMENT STEMSBASES.3/4.6.1PRIMARYCONTAINMENT 3/4.6.1.1 CONTAINMENT INTEGRITY PrimaryCONTAINMENT INTEGRITY ensuresthatthereleaseofradioactive materials fromthecontainment atmosphere willberestricted tothoseleakagepathsandassociated leakratesassumedinthesafetyanalyses.
Thisrestriction, inconjunction withtheleakageratelimitation, willlimitthesiteboundaryradiation dosestowithinthelimitsof10CFR100duringaccidentconditions.
LgdsEk7Q5(gt,gps,'QMhi'chrcs~llS4io~3/4.6.1.2CONTAINMENT LEAKAGEy4~);~,~;~~~tge basis,lossofCoo'l~~tace.'ew+.
Thelimitations oncontainment leakageraesensurethatetotalcontainment leakagevoltewillnotexceedthevalueassumedintheaccidentPk**khP.P.~~',hhPkhP<<Phhleakagerates~consistent withasmodifiedbyapprovedexemptions Thesurveillance testingformeasuring therequirements ofAppendix0of10CFR50R'-the-r~A4s 3/4.6.1.3 CONTAINMENT AIRLOCKSThemaximumpeakpressureexpectedtobeobtainedfromasteamlinebreakeventis43.4psig.Thelimitof0,4psigforinitialpositivecontainient pressurewilllimitthetotalpressureto43.99psigwhichislessthanthedesignpressureandisconsistent withthesafetyanalyses.
~~Qpf/~5aodR<g4ta<o<144ide.
ll(o3>~)eel'ep)o~bcR5'helimitations onclosureandleakrecontaenocksarerequiredtomeet>>therestrictions onCONTAINMENT INTEGRITY andcontainment leakrate.Surveillance testingoftheairlocksealsprovidesassurance thattheoverallairlockleakagewillnotbecomeexcessive duetosealdamageduringtheintervals betweenairlockleakaetests.3/4.6.1.4 INTERNALPRESSURECenkfnwonf Le<gcge,'R~ic-S~'")IJ'"~qandI'5Thelimitations oncontaiaaent internapressureensurethat(1)thecontainment structure isprevented fromexceeding itsdesignnegativepressuredifferential withrespecttotheannulusatmosphere of0.7psiand(2)thecontainment peakpressuredoesnotexceedthedesignpressureof44psigduringsteamlinebreakconditions.
ST.LUCIE-UNIT2B3/46-1Amendnent Ho.d+
44~"~4I.V~~'V~44~I~~~4~4~4A4~~4~"V'j4jI CONTAINMENT SYSTEMSBASES3/4.6.1.5AIRTEMPERATURE Thelimitation oncontainment averageairtemperature ensuresthatthecontainment temperature doesnotexceedthedesigntemperature of264Fduringsteamlinebreakconditions andisconsistent withthesafetyanalyses.
3/4.6.1.6CONTAINMENT VESSELSTRUCTURAL INTEGRITY
'll8Thislimitation ensuresthatthestructural integr'ofthecontainment steelvesselwillbemaintained ceaparable totheorig'naldesignstandards forthelifeofthefacility.
Structural integrity irequiredtoensurethatthevesselwillwithstand themaximumpressureof.psigintheeventofaAvisualinspection insittodemonstrate thiscapity./'.Jg+ggg&gal,'5Ib5soICoolantAoci'afi'dtg/.6..CONTAINMENT VENTILANSYSTEMThe48-inchcontainment purgesupplyandexhaustisolation valvesarerequiredtobeclosedduringplantoperation sincethesevalveshavenotbeendemonstrated capableofclosingduringaLOCAorsteamlinebreakaccident.
Maintaining thesevalvesclosedduringplantoperations ensuresthatexcessive quantities ofradioactive materials willnotbereleasedviathecontairaent purgesystem.Toprovideassurance thatthe48-inchvalvescannotbeinadvertently opened,=theyaresealedclosedinaccordance withStandardReviewPlan6.2.4whichincludesdevicestolockthevalveclosed,orpreventpowerfrombeingsuppliedtothevalveoperator.
Theuseofthecontainment purgelinesisrestricted tothe8-inchpurgesupplyandexhaustisolation valvessince,unlikethe48-inchvalves,the8-inchvalveswillcloseduringaLOCAorsteamlinebreakaccidentandtherefore thesiteboundarydoseguidelines of10CFRPart100wouldnotbeexceededintheeventofanaccidentduringpurgingoperations.
Leakageintegrity testswithamaximumallowable leakagerateforpurgesupplyandexhaustisolation valveswillprovideearlyindication ofresilient materialsealdegradation andwillallowtheopportunity forrepairbeforegrossleakagefailuredevelops.
The0.60Lleakagelimitshallnotbeexceededwhentheleakageratesdetermined 3ytheleakageintegrity testsofthesevalvesareaddedtothepreviously determined totalforallvalvesandpenetrations subjecttoTypeBandCtests.ST.LUCIE-UNIT2B3/46-2Atttendment No.
~IJ~4I~I e,.ADMINISTRATIVE COHTROthan8daysingaseouseffluents releasedfromeachunittoareasbeyondtheSITEBOUNDARYconforming toAppendixIto10CFRPart50,10)Limitations ontheannualdoseordosecoaxnitment toanyMEMBEROFTHEPUBLICduetoreleasesofradioactivity andtoradiation fromuraniumfuelcyclesourcesconforming to40CFRPart190.g.RadiolicalEnvironmental Monitorin PrramAprepamshallbeprovidedtomonitortheradiation andradio-nuclidesintheenvironsoftheplant.Theprogramshall.provide(1)representative measurements ofradioactivity inthehighestpotential exposurepathways, and(2)verification oftheaccuracyoftheeffluentmonitoring programandmodelingofenvironmental exposurepathways.
Theprogramshall(1)becontained intheODCM,(2)conformtotheguidanceofAppendixIto10CFRPart50,and(3)includethefollowing:
1)Monitoring,
- sampling, analysis, andreporting ofradiation andradionuclides intheenvironment inaccordance withthemethodology andparameters intheODCM,2)ALandUseCensustoensurethatchangesintheuseofareasatandbeyondtheSITEBOUNDARYareidentified andthatmodifications tothemonitoring programaremadeifrequiredbytheresultsofthiscensus,and3)Participation inaInterlaboratory Coiparison Programtoensurethatindependent checksontheprecision andaccuracyofthemeasurements ofradioactive materials inenvironmental samplematricesareperformed aspartofthequalityassurance programforenvironmental monitoring.
ST.LUCIE-UNIT16-15bAmendment No.P PNSERTAUnit2]Withthecontainment leakagerateexceeding theacceptance criteriaoftheContainment LeakageRateTestingProgram,within1hourinitiateactiontobeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.
[INSERTBUnit2]Inaccordance withGenericLetter91-08,"RemovalofComponent ListsfromTechnical Specifications,"
theopeningoflockedorsealedclosedcontainment isolation valvesonanintermittent basisunderadministrative controlincludesthefollowing considerations:
(1)statio'ning anoperator, whoisinconstantcommunication withthecontrolroom,atthevalvecontrols, (2)instructing thisoperatortoclosethesevalvesinanaccidentsituation, and,(3)assuringthatenvironmental conditions willnotprecludeaccesstoclosethevalvesandthatthisactionwillpreventthereleaseofradioactivity outsidethecontainment.
[INSERTCUnit2]h.Containment LeakageRateTestingProgramAprogramtoimplement theleakageratetestingofthecontainment asrequiredby10CFR50.54(o)and10CFR50AppendixJ,OptionB,asmodifiedbyapprovedexemptions.
Thisprogramisinaccordance withtheguidelines contained inRegulatory Guide1.163,"Performance-Based Containment Leak-Test Program,"
asmodifiedbythefollowing exception:
a.BechtelTopicalReport,BN-TOP-1orANS56.8-1994 (asrecommended byR.G.1.163)willbeusedfortypeAtesting.Thepeakcalculated containment internalpressureforthedesignbasislossofcoolantaccident, Pis41.8psig.Thecontainment designpressureis44psig.Themaximumallowable containment leakagerate,LatPshallbe0.50%ofcontainment airweightperday.Leakagerateacceptance criteriaare:Containment leakagerateacceptance criterion is<1.0L,.Duringthefirstunitstartupfollowing testinginaccordance withthisprogram,theleakagerateacceptance criteriaare<0.60L,fortheTypeBandCtests,<0.75L;forTypeAtests,and<0.27L,forsecondary containment bypassleakagepaths.b.Airlocktestingacceptance criteriaare:1)Overallairlockleakagerateis<0.05L,whentestedat>P,.2)Foreachdoorseal,leakagerateis<0.01L,whenpressurized to>P,.Theprovisions ofT.S.4.0.2donotapplytotestfrequencies intheContainment LeakRateTestingProgram.Theprovisions ofT.S.4.0.3areapplicable totheContainment LeakRateTestingProgram.
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