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Proposed Tech Specs Reflecting Removal of Table of Containment Isolation Valves
	ML17309A502
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Site:	Ginna
Issue date:	11/30/1992
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ATTACHMENT AProposedTechnical Specification Changes9212140159 921130PDRADOCK05000244.'

PDR ATTACHMENT ARevisetheTechnical Specification pagesasfollows:Remove3.6-1-3.6-23.6-33.6-43.6-53.6-63.6-73.6-7A3.6-83.6-93.6-103.6-113.8-13.8-33.8-54'44.4-64.4-74.4-84.4-114.4-134.4-144.4-17Insert3.6-13.6-23.6-33.6-3a3.8-13.8-33.8-53.8-64'-44.4-64.4-74.4-84.4-114.4-134.4-144.4-17

Containment SstemAlicabilit Appliestotheintegrity ofreactorcontainment.

3.6.1Todefinetheoperating statusofthereactorcontainment forplantoperation.

Secification:

Containment Interita~Exceptasallowedby3.6.3,containment integrity shallnotbeviolatedunlessthereactorisinthecoldshutdowncondition.

Closedvalvesmaybeopenedonanintermittent basisunderadministrative control.b.Thecontainment integrity shallnotbeviolatedwhenthereactorvesselheadisremovedunlesstheboronconcentration isgreaterthan2000ppm.c~Positivereactivity changesshallnotbemadebyroddrivemotionorborondilutionwheneverthecontainment integrity isnotintactunlesstheboronconcentration isgreaterthan2000ppm.3.6.2InternalPressureIftheinternalpressureexceeds1psigortheinternalvacuumexceeds2.0psig,thecondition shallbecorrected within24hoursorthereactorrenderedsubcritical.

Amendment No.AS3.6-1Proposed

~~~~~3.6.3Containment Isolation Boundaries 3.6.3.1Withacontainment isolation boundaryinoperable foroneormorecontainment penetrations, either:a.Restoreeachinoperable boundarytoOPERABLEstatuswithin4hours,orb.c~Isolateeachaffectedpenetration within4hoursbyuseofatleastonedeactivated automatic valvesecuredintheisolation

position, oneclosedmanualvalve,ora'blindflange,orVerifytheoperability ofaclosedsystemfortheaffectedpenetrations within4hoursandeitherrestoretheinoperable boundarytoOPERABLEstatusorisolatethepenetration asprovidedin3.6.3.1.b within30days,ord.Beinatleasthotshutdownwithinthenext6hoursandincoldshutdownwithinthefollowing 30hours.3.6.4Combustible GasControl3.6.4.1Whenthereactoriscritical, atleasttwoindependent containment hydrogenmonitorsshallbeoperable.

OneofthemonitorsmaybethePostAccidentSamplingSystem.3.6.4.2Withonlyonehydrogenmonitoroperable, restoreasecondmonitortooperablestatuswithin30daysorbeinatleasthotshutdownwithinthenext6hours.3.6.4.3Withnohydrogenmonitorsoperable, restoreatleastonemonitortooperablestatuswithin72hoursorbeinatleasthotshutdownwithinthenext6hours.3.6.5Containment Mini-PureWheneverthecontainment integrity isrequired, emphasiswillbeplacedonlimitingallpurgingandventingtimestoaslowasachievable.

Themini-purge isolation valveswillremainclosedtothemaximumextentpracticable butmaybeopenforpressurecontrol,forALARA,forrespirable airqualityconsiderations forpersonnel entry,forsurveillance teststhatmayrequirethevalvetobeopenorothersafetyrelatedreasons.Amendment No.9,183.6-2Proposed Basis:Thereactorcoolantsystemconditions ofcoldshutdownassurethatnosteamwillbeformedandhencetherewouldbenopressurebuildupinthecontainment ifthereactorcoolantsystemruptures.

Theshutdownmarginsareselectedbasedonthetypeofactivities thatarebeingcarriedout.The(2000ppm)boronconcentration providesshutdownmarginwhichprecludes criticality underanycircumstances.

Whenthereactorheadisnottoberemoved,acoldshutdownmarginof1%~k/kprecludes criticality inanyoccurrence.

Regarding internalpressurelimitations, thecontainment designpressureof60psigwouldnotbeexceedediftheinternalpressurebeforeamajorsteambreakaccidentwereasmuchas1psig.~'>Thecontainment isdesignedtowithstand aninternalvacuumof2.5psig.<'>The2.0psigvacuumisspecified asanoperating limittoavoidanydifficulties withmotorcooling.Inordertominimizecontainment leakageduringadesignbasisaccidentinvolving asignificant, fissionproductrelease,penetrations notrequiredforaccidentmitigation areprovidedwithisolation boundaries.

Theseisolation boundaries consistofeitherpassivedevicesoractiveautomatic valvesandarelistedinUFSARTable6.2-15.Closedmanualvalves,deactivated automatic valvessecuredintheirclosedposition(including checkvalveswithflowthroughthevalvesecured),

blindflangesandclosedsystemsareconsidered passivedevices.Automatic isolation valvesdesignedtoclosefollowing anaccidentwithoutoperatoraction,areconsidered activedevices.Twoisolation devicesareprovidedforeachmechanical penetration, suchthatnosinglecrediblefailureormalfunction ofanactivecomponent cancausealossofisolation, orresultinaleakageratethatexceedslimitsassumedinthesafetyanalyses.

Intheeventthatoneisolation boundaryisinoperable, theaffectedpenetration mustbeisolatedwithatleastoneboundarythatisnotaffectedbyasingleactivefailure.Isolation boundaries thatmeetthiscriterion areaclosedanddeactivated automatic containment isolation valve,aclosedmanualvalve,orablindflange.Aclosedsystemalsomeetsthiscriterion, however,a30dayperiodtoeitherfixtheinoperable boundaryorprovideadditional isolation isconservatively applied.Verification oftheoperability oftheclosedsystemcanbeaccomplished throughnormalsystemoperation, containment leakagedetection systems,surveillance testing,ornormaloperatorwalkdowns.

Theopeningofclosedcontainment isolation valvesonanintermittent basisunderadministrative controlincludesthefollowing considerations:

(1)stationing anindividual qualified inaccordance withstationprocedures, whoisinconstantcommunication withthecontrolroom,atthevalvecontrols, (2)instructing thisindividual toclosethesevalvesinanaccidentsituation, and(3)assuringthatenvironmental conditions willnotprecludeaccesstoisolatetheboundaryandthatthisactionwillpreventthereleaseofradioactivity outsidethecontainment.

Amendment No.453.6-3Proposed

References:

(1),Westinghouse

Analysis, "ReportfortheBASTConcentration Reduction forR.E.Ginna",August1985,submitted viaApplication forAmendment totheOperating LicenseinaletterfromR.W.Kober,RGGEtoH.A.Denton,NRC,datedOctober16,1985(2)UFSAR-Section3.8.1.2.2 (3)UFSARTable6.2-153.6-3aProposed

3.8REFUELING Alicabilit Appliestooperating limitations duringrefueling operations.

3.8.1Toensurethatnoincidentcouldoccurduringrefueling operations thatwouldaffectpublichealthandsafetySecification Duringrefueling operations thefollowing conditions shallbesatisfied.

a~b.C~Containment penetrations shallbeinthefollowing status:i.Theequipment hatchshallbeinplacewithatleastoneaccessdoorclosed,ortheclosureplatethatrestricts airflowfromcontainment shallbeinplace,ii.Atleastoneaccessdoorinthepersonnel airlockshallbeclosed,andiii.Eachpenetration providing directaccessfromthecontainment atmosphere totheoutsideatmosphere shallbeeither:1.Closedbyanisolation valve,blindflange,ormanualvalve,or2.BecapableofbeingclosedbyanOPERABLEautomatic ShutdownPurgeorMiniPurgevalve.Radiation levelsinthecontainment shallbemonitored continuously.

Coresubcritical neutronfluxshallbecontinuously monitored byatleasttwosourcerangeneutronmonitors, eachwithcontinuous visualindication inthecontrolroomandonewithaudibleindication inthecontainment andcontrolroomavailable whenevercoregeometryisbeingchanged.WhencoregeometryisnotbeingchangedatAmendment No.g,gg3.8-1Proposed 3.8.23.8.3flange.Ifthiscondition isnotmet,alloperations involving movementoffuelorcontrolrodsinthereactorvesselshallbesuspended.

Ifanyofthespecified limitingconditions forrefueling isnotmet,refueling ofthereactorshallcease;workshallbeinitiated tocorrecttheviolatedconditions sothatthespecified limitsaremet;nooperations whichmayincreasethereactivity ofthecoreshallbemade.Iftheconditions of3.8.1.darenotmet,theninadditiontotherequirements of3.8.2,isolatetheShutdownPurgeandMiniPurgepenetrations within4hours.Basis:Theequipment andgeneralprocedures tobeutilizedduringrefueling arediscussed intheUFSAR.Detailedinstructions, theabovespecified precautions, andthedesignofthefuelhandlingequipment incorporating built-ininterlocks andsafetyfeatures, provideassurance thatnoincidentcouldoccurduringtherefueling operations thatwouldresultinahazard3.8-3Proposed providedontheliftinghoisttopreventmovementofmorethanonefuelassemblyatatime.Thespentfueltransfermechanism canaccommodate onlyonefuelassemblyat,atime.Inaddition, interlocks ontheauxiliary buildingcranewillpreventthetrolleyfrombeingmovedoverstoredrackscontaining spentfuel.Theoperability requirements forresidualheatremovalloopswillensureadequateheatremovalwhileintherefueling mode.Therequirement for23feetofwaterabovethereactorvesselflangewhilehandlingfuelandfuelcomponents incontainment, isconsistent withtheassumptions ofthefuelhandlingaccidentanalysis.

Theanalysis<'>

forafuelhandlingaccidentinsidecontainment establishes acceptable offsitelimitingdosesfollowing ruptureofallrodsofanassemblyoperatedatpeakpower.Nocreditistakenforcontainment isolation oreffluentfiltration priortorelease.Requiring closureofpenetrations whichprovidedirectaccessfromcontainment atmosphere totheoutsideatmosphere establishes additional marginforthefuelhandlingaccidentandestablishes aseismicenvelopetoprotectagainstseismiceventsduringrefueling.

Isolation ofthese'penetrations maybeachievedbyanOPERABLEshutdownpurgeormini-purge valve,blindflange,orisolation valve.AnOPERABLEshutdownpurgeormini-purge valveiscapableofbeingautomatically isolatedbyRllorR12.Penetrations whichdonotprovidedirectaccessfromcontainment atmosphere totheoutsideatmosphere supportcontainment integrity byeitheraclosedsystemwithincontainment, necessary isolation valves,oramaterialwhichcanprovideatemporary ventilation barrier,atatmospheric

pressure, forthecontainment penetrations duringfuelmovement.

Amendment No.3.8-5Proposed

References (1)UFSARSections9.1.4.4and9.1.4.5(2)ReloadTransient SafetyReport,Cycle14(3)UFSARSection15.7.3.33.8-6Proposed 4.4.1.4AccetanceCriteria~~~~a.TheleakaergateLtmshallbe<0.75LtatPt.Ptisdefinedasthecontainment vesselreducedtestpressurewhichisgreaterthanorequalto35psig.Ltmisdefinedasthetotalmeasuredcontainment leakagerateatpressurePt.Ltisdefinedasthemaximumallowable leakagerateatpressurePt.IPt1~I~Ltshallbedetermined asLt=LalsaJwhichequals.1528percentweightperdayat35psig.Paisdefinedasthecalculated peakcontainment internalpressurerelatedtodesignbasisaccidents whichisgreaterthanorequalto60psig.Laisdefinedasthemaximumallowable leakagerateatPawhichequals.2percentweightperday.b.c.TheleakagerateatPa(Lam)shallbe<0.75La.Lamisdefinedasthetotalmeasuredcontainment leakagerateatpressurePa.4.4.1.5TestFreuenc'a~Asetofthreeintegrated leakratetestsshallbeperformed atapproximately equalintervals duringeach'0-year serviceperiod.Thethirdtestofeachsetshallbeconducted inthefinalyearofthe10-yearserviceperiodoroneyearbeforeorafterthefinalyearofthe10-yearserviceperiodprovided:

theintervalbetweenanytwoTypeAtestsdoesnotexceedfouryears,following eachin-service inspection, thecontainment

airlocks, thesteamgenerator inspection/maintenance penetration, andtheequipment hatchareleaktestedpriortoreturning theplanttooperation, and3.3.1~anyrepair,replacement,,

ormodification ofacontainment barrierresulting fromtheinservice inspections shallbefollowedbytheappropriate leakagetest.444Proposed b.Thelocalleakagerateshallbemeasuredforeachofthefollowing components:

Containment penetrations thatemployresilient seals,gaskets,orsealantcompounds, pipingpenetrations withexpansion bellowsandelectrical penetrations withflexiblemetalsealassemblies.

ii.Airlockandequipment doorseals.iiiolvovoFueltransfertube.Isolation valvesonthetestablefluidsystemslinespenetrating thecontainment.

Othercontainment components, whichrequireleakrepairinordertomeettheacceptance criterion foranyintegrated leakageratetest.4.4.2.2AccetanceCriterion Containment isolation boundaries areinoperable fromaleakagestandpoint whenthedemonstrated leakageofasingleboundaryorcumulative totalleakageofallboundaries isgreaterthan0.60La.4.4.2.3Corrective Actiona0Ifatanytimeitisdetermined thatthetotalleakagefromallpenetrations andisolation boundaries exceeds0.60La,repairsshallbeinitiated immediately.

4.4-6Proposed

~.>>K,~

b.c~Ifrepairsarenotcompleted andconformance totheacceptance criterion of4.4.2.2isnotdemonstrated within48hours,thereactorshallbeshutdownanddepressurized untilrepairsareeffectedandthelocalleakagemeetstheacceptance criterion.

Ifitisdetermined thattheleakagethroughaIImini-purge supplyandexhaustlineisgreaterthan0.05Laanengineering evaluation shallbeperformed andplansforcorrective actiondeveloped.

4.4.2.4TestFreuenca~b.Exceptasspecified inb.andc.below,individual penetrations andcontainment isolation valvesshallbetestedduringeachreactorshutdownforrefueling, orotherconvenient intervals, butinnocaseatintervals greaterthantwoyears.Thecontainment equipment hatch,fueltransfertube,steamgenerator inspection/maintenance penetration, andshutdownpurgesystemflangesshallbetestedateachrefueling shutdownoraftereachuse,ifthatbesooner.Amendment No.i84.4-7Proposed

c~Thecontainment airlocksshallbetestedatintervals ofnomorethansixmonthsbypressurizing thespacebetweentheairlockdoors.Inaddition, following openingoftheairlockdoorduringtheinterval, atestshallbeperformed bypressurizing betweenthedualsealsofeachdoor,opened,within48hoursoftheopening,unlessthereactorwasinthecoldshutdowncondition atthetimeoftheopeningorhasbeensubsequently broughttothecoldshutdowncondition.

Atestshallalsobeperformed bypressurizing betweenthedualsealsofeachdoorwithin48hoursofleavingthecoldshutdowncondition, unlessthedoorshavenotbeenopensincethelasttestperformed eitherbypressurizing thespacebetweentheairlockdoorsorbypressurizing betweenthedualdoorseals.Amendment No.ggProposed f'N*WI 4.4.4.2thetendoncontaining 6brokenwires)shallbeinspected.

Theacceptedcriterion thenshallbenomorethan4brokenwiresinanyoftheadditional 4tendons.Ifthiscriterion isnotsatisfied, allofthetendonsshallbeinspected andifmorethan5%ofthetotalwiresarebroken,thereactorshallbeshutdownanddepressurized.

Pre-Stress Confirmation Testa~Lift-offtestsshallbeperformed onthe14tendonsidentified in4.4.4.1aabove,attheintervals specified in4.4.4.1b.

Iftheaveragestressinthe14tendonscheckedislessthan144,000psi(60%ofultimatestress),alltendonsshallbecheckedforstressandretensioned, ifnecessary, toastressof144,000psi.b.Beforereseating atendon,additional stress(6%)shallbeimposedtoverifytheabilityofthetendontosustaintheaddedstressappliedduringaccidentconditions.

4.4.54.4.5.1Containment Isolation ValvesEachcontainment isolation valveshallbedemonstrated tobeOPERABLEinaccordance withtheGinnaStationPumpandValveTestprogramsubmitted inaccordance with10CFR50.55a.4.4.64.4.6.14.4.6.2Containment Isolation ResonseEachcontainment isolation instrumentation channelshallbedemonstrated OPERABLEbytheperformance oftheCHANNELCHECK,CHANNELCALIBRATION, andCHANNELFUNCTIONAL TESToperations fortheMODESandatthefrequencies showninTable4.1-1.Theresponsetimeofeachcontainment isolation valveshallbedemonstrated tobewithinitslimitat,leastonceper18months.Theresponsetimeincludesonlythevalvetraveltimeforthosevalveswhichthesafetyanalysisassumptions takecredit.forachangeinvalvepositioninresponsetoacontainment isolation signal.Amendment No.9,1Z4.4-11Proposed TheSpecification alsoallowsforpossibledeterioration oftheleakageratebetweentests,byrequiring thatthetotalmeasuredleakageratebeonly75%ofthemaximumallowable leakagerate.Thedurationandmethodsfortheintegrated leakageratetestestablished byANSIN45.4-1972 provideaminimumlevelofaccuracyandallowfordailycyclicvariation intemperature andthermalradiation.

Thefrequency oftheintegrated leakageratetestiskeyedtotherefueling scheduleforthereactor,becausethesetestscanbestbeperformed duringrefueling shutdowns.

Refueling shutdowns arescheduled atapproximately oneyearintervals.

Thespecified frequency ofintegrated leakageratetestsisbasedonthreemajorconsiderations.

Firstisthelowprobability ofleaksintheliner,becauseof(a)theuseofweldchannelstotesttheleaktightness oftheweldsduringerection, (b)conformance ofthecompletecontainment toa0.1%perdayleakrateat60psigduringpreoperational testing,and(c)absenceofanysignificant stressesinthelinerduringreactoroperation.

Secondisthemorefrequenttesting,atthefullaccidentpressure, ofthoseportionsofthecontainment envelopethataremostlikelytodevelopleaksduringreactoroperation (penetrations andisolation valves)andthelowvalue(0.60La)ofthetotalleakagethatisspecified asacceptable.

Thirdisthetendonstresssurveillance program,whichprovidesassurance thananimportant partofthestructural integrity ofthecontainment ismaintained.

4.4-13Proposed

.Thebasisforspecification ofatotalleakageof0.60Lafrompenetrations andisolation boundaries isthatonlyaportionoftheallowable integrated leakagerateshouldbefromthosesourcesinordertoprovideassurance thattheintegrated leakageratewouldremainwithinthespecified limitsduringtheintervals betweenintegrated leakageratetests.Becausemostleakageduringanintegrated leakratetestoccursthoughpenetrations andisolation valves,andbecauseformostpenetrations andisolation valvesasmallerleakageratewouldresultfromanintegrated leaktestthanfromalocaltest,adequateassurance ofmaintaining theintegrated leakageratewithinthespecified limitsisprovided.

ThelimitingleakageratesfromtheRecirculation HeatRemovalSystemsarejudgement valuesbasedprimarily onassuringthatthecomponents couldoperatewithoutmechanical failureforaperiodontheorderof200daysafteradesignbasisaccident.

Thetest4.4-14Proposed d4 Thepre-stress confirmation testprovidesadirectmeasureoftheload-carrying capability ofthetendon.Ifthesurveillance programindicates byextensive wirebreakageortendonstressrelationthatthepre-stressing tendonsarenotbehavingasexpected, thesituation willbeevaluated immediately.

Thespecified acceptance criteriaaresuchastoalertattention tothesituation wellbeforethetendonload-carrying capability woulddeteriorate toapointthatfailureduringadesignbasisaccidentmightbepossible.

Thusthecauseoftheincipient deterioration couldbeevaluated andcorrective actionstudiedwithoutneedtoshutdownthereactor.Thecontainment, isprovidedwithtworeadilyremovable tendonsthatmightbeusefultosuchastudy.Inaddition, thereare40tendons,eachcontaining aremovable wirewhichwillbeusedtomonitorforpossiblecorrosion effects.Operability ofthecontainment isolation boundaries ensuresthatthecontainment atmosphere willbeisolatedfromtheoutsideenvironment intheeventofareleaseofradioactive materialtothecontainment atmosphere orpressurization ofthecontainment.

Performance ofcyclingtestsandverification ofisolation timesassociated withautomatic containment isolation valvesiscoveredbythePumpandValveTestProgram.Compliance withAppendixJto10CFR50isaddressed underlocalleaktestingrequirements.

References:

(1)UFSARSection3.1.2.2.7 (2)UFSARSection6.2.6.1(3)UFSARSection15.6.4.3(4)UFSARSection6.3.3.8(5)UFSARTable15.6-9(6)FSARPage5.1.2-28(7)North-American-Rockwell Report550-x-32, Reliability

Handbook, February1963.(8)FSARPage5.1-28Autonetics 4.4-17Proposed ATTACHMENT BSafetyEvaluation Attachment BPago1of4Theprimarypurposeofthisamendment istoremoveTable3.6-1,"Containment Isolation Valves",fromtheR.E.GinnaTechnical Specifications.

Thereference toTable3.6-1inTechnical Specification sections3.6.3.1,4.4.5.1,and4.4.6.2willbedeletedwithareference toUFSARTable6.2-13beingaddedtothebasesforTechnical Specification 3.6.Inaddition, theinoperability definition andactionrequiredstatement forTechnical Specifications 3.6.1and3.6.3.1willbeclarified.

TheSpecifications andBasesforcontainment integrity duringrefueling operations (3.8.1sectionaand3.8.3)willberevisedtomakethemmoreconsistent withindustrystandards.

Technical Specifications 4.4.1.5,sectiona(ii)and4.4.2.4,sectionb,willberevisedtoincludethemodifiedsteamgenerator inspection/

maintenance penetration.

Technical Specification 4.4.1.5,sectiona(ii)andtheBasesforsection4.4willalsobeclarified.

Thetemporary notesassociated withthepurgesystemandmini-purge valves(Technical Specifications 3.6.5and4.4.2.4sectionaandd)willberemovedsincethevalveshavebeeninstalled.

Also,theacceptance criteriaforcontainment leakagecriteriaaslistedinTechnical Specification 4.4.1.4and4.4.2.2willbeclarified.

The1988Inservice Test(IST)Programprovidedacompletereviewofthecontainment isolation valvesforGinnaandtheirtestingrequirements.

Theinformation obtainedduringthisreviewwassubmitted totheNRCtodefinetheISTrequirements forthethirdten-yearintervalatGinna.Thissubmittal wassubsequently approvedbytheNRC.Asaresultofthissubmittal andapproval, numerousclarifications wererequiredofTechnical Specification Table3.6-1andUFSARTable6.2-15(formerly 6.2-13).However,thisamendment willremoveTechnical Specification Table3.6-1.Thenecessary changestoUFSARTable6.2-15havebeencompleted.

Attachment EcontainstherevisedUFSARtableandassociated figuresforyourinformation.

GenericLetter91-08providesguidanceonremovingcomponent listsfromtechnical specifications, including thetableofcontainment isolation valves,sincetheirremovalwouldnotaltertherequirements thatareappliedtothesecomponents.

RemovingTable3.6-1fromtheTechnical Specifications andincorporating therequiredinformation intoGinnaUFSARTable6.2-15willmaintainthelistingofthecontainment isolation boundaries withinalicenseecontrolled document.

Changestothisdocumentcanonlybeperformed underthecriteriaof10CFR50.59toensurethatnounreviewed safetyquestions arerelatedtothechange.AnyfuturechangestoUFSARTable6.2-15willbesubmitted aspartoftherequiredUFSARupdate.Inaddition, areportsummaryofthechangestotheGinnaUFSARarefurnished totheNRConarequiredbasis.Areference toUFSARTable6.2-15hasalsobeenprovidedinthebasesforTechnical Specification 3.6consistent, withGenericLetter91-08.GenericLetter91-08alsoprovidedinstructions toaddanotetothecontainment isolation valveLCOwithrespecttoopeninglockedorsealedclosedcontainment isolation valvesunderadministrative control.ThisnotewasaddedtoTechnical Specification 3.6.1andadiscussion ofthenecessary administrative controlsrequiredforperforming thisactionwasaddedtothebases.

Attachment BPage2of4Technical Specification 3.6.3.1isrevisedtoincludetheuseofaclosedsystemasanallowable meanstoisolateacontainment penetration thathasainoperable containment isolation boundary.

Aclosedsystemcanbeconsidered equal,orinmanycasespreferable, totheremaining alternatives (e.g.,aclosedmanualvalve),sincetheclosedsystembydefinition mustbemissileprotected, seismically designedandleaktested.Theuseofaclosedsystemisalsoconsistent withtheintentofthebasesforcontainment isolation inNUREG-1430 whichstates:Intheeventonecontainment isolation valveinoneormorepenetration flowpathsisinoperable

[exceptforpurgevalveleakagenotwithinlimits],theaffectedpenetration must,beisolated.

Themethodofisolation mustincludetheuseofatleastoneisolation barrierthatcannotbeadversely affectedbyasingleactivefailure.Sinceaclosedsystemisnotaffectedbyanysingleactivefailure,itprovidesanequivalent barriertoablindflange,aclosedmanualvalve,oradeactivated containment isolation valve.However,a30daylimitwasconservatively assignedtotheuseofonlytheclosedsystembeforeadditional isolation mustbeprovidedortheinoperable boundaryrepaired.

The30daylimitisalsoconsistent withStandardTechnical Specifications whichrequirethattheflowpathforpenetrations withinoperable containment isolation valvesbeverifiedisolatedonceevery31days.TheBasesforTechnical Specification 3.6werealsoupdatedtoprovidenecessary supporting information withrespecttousingaclosedsystemtoisolateaninoperable isolation boundary.

Theremaining changeswithrespecttotherequiredactionsofTechnical Specification 3.6.3.1allowconsistency withStandardTechnical Specifications.

However,"isolation boundary" wasusedinplaceof"isolation valve"sincenotallpenetrations havetwocontainment isolation valves.Forexample,penetrations underthespecifications forGeneralDesignCriteria57onlyrequireasingleisolation valve;thepipingprovidesanadditional boundary.

Theuseof"isolation boundary" isalsoconsistent withthecolumnheadingsofthecurrentContainment Isolation ValveTable3.6-1.Information onwhatqualifies asan"isolation boundary" isprovidedinthebasesforTechnical Specification 3.6.Thesecriteriaareconsistent withthenecessary GeneralDesignCriteria, orexemption, asappropriate.

"Isolation boundary" wasalsousedinplaceof"isolation valve"inTechnical Specifications 4.4.2.2,4.4.2.3,andtheBasesforsection4.4.Theinoperability definition basedonleakageforcontainment isolation boundaries wasalsoremovedfromTechnical Specification 3.6.3.1.Thisdefinition isfoundinTechnical Specification 4.4.2.3whichwassubsequently updatedtomakeitmoreconsistent with10CFR50AppendixJ.Thischangeeliminates duplication withintheTechnical Specifications andisconsistent withStandardTechnical Specifications.

Attachment BPage3of4Theactionstatement associated withTechnical Specification 3.8.1sectionawasmodifiedtomakeitmorenearlyconsistent withStandardTechnical Specifications.

Themostsignificant changewaswithrespecttoremovingtherequirement ofhavingallautomatic containment isolation valvesoperableduringrefueling operations.

Theproposedspecification nowonlyrequiresthatallpenetrations providing directaccessfromthecontainment atmosphere totheoutsideatmosphere beeitherisolatedorcapableofbeingisolatedbyanautomatic purgevalve.Thischangeisconsidered acceptable sinceafuelhandlingaccidentwillnotsignificantly pressurize thecontainment.

Inaddition, thefuelhandlingaccidentanalyzedforGinnado'esnottakecreditforisolation ofcontainment whileremaining wellwithin10CFR100guidelines (UFSARSection15.7.3.3.1.1).

Therefore, theremovalofthisrequirement doesnotaffecttheconsequences ofafuelhandlingaccident.

ThechangestoTechnical Specification 3.8.3nowspecifically identifywhichpenetrations mustbeclosedifthereisnoresidualheatremovalloopinservice(i.e.,ShutdownPurgeandMini-Purge).

Theremaining penetrations thatprovidedirectaccessfromthecontainment atmosphere totheoutsideatmosphere arealreadyrequiredtobeisolatedduringrefueling operations pernewTechnical Specification 3.8.1sectiona(iii).Thechangestothebasesareconsistent withStandardTechnical Specifications.

Consequently, thesearenottechnical changes.Thechangeswithrespecttocontainment leakagecriteriainTechnical Specification 4.4.1.4areclarifications only.Alltermscontained inthedefinition forLtisspecified intheTechnical Specifications consistent with10CFR50AppendixJ.Theadditionofthesteamgenerator inspection/maintenance penetration toboththeUFSARTableandthenecessary Technical Specification surveillance requirements istheresultofamodification toenhancecontainment closureduringmid-loopoperation (GenericLetter88-17).Nonewcontainment isolation valveswereaddedasaresultofthismodification.

Theadditionofthispenetration totheUFSARTableandTechnical Specifications 4.4.1.5,sectiona(ii)and4.4.2.4,sectionb,resultsinthenewpenetration tobetreatedconsistent withrespecttothePersonnel andEquipment Hatches,andthefueltransfertube(seeletterfromR.C.Mecredy,RGEE,toA.R.Johnson,NRC,datedMarch13,1990).ThefirstlineofTechnical Specification 4.4.1.5,sectiona(ii)isalsomodifiedtostate"following eachin-service inspection..."

Thehyphenation of"in-service" istocorrectatypographical erroronly.Thereplacement of"one"with"each"providesgreaterunderstanding ofthetestfrequency requirements.

Thesechangesareaminorclarification onlyanddonotinvolveatechnical change.Thetemporary notesassociated withthepurgeandmini-purge valvesinTechnical Specifications 3.6.5,4.4.2.4sectionaanddareremovedsincethesevalveshavebeeninstalled.

Thisisnotatechnical changesincethenoteswereonlyintendedtobeapplicable untilthecompletion ofthenecessary modifications.

Attachment BPage4of4Technical Specifications 4.4.5.1and4.4.6.2wererevisedtoremovethereference toTable3.6-1sincethisisbeingdeleted.Thesespecifications werealsochangedtomakethemconsistent withStandardTechnical Specifications.

Inaccordance with10CFR50.91,thesechangestotheTechnical Specifications havebeenevaluated todetermine iftheoperation ofthefacilityinaccordance withtheproposedamendment would:2.3.involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated; orcreatethepossibility ofanewordifferent kindofaccidentpreviously evaluated; orinvolveasignificant reduction inamarginofsafety.Theseproposedchangesdonotincreasetheprobability orconsequences ofapreviously evaluated accidentorcreateanewordifferent typeofaccident.

Furthermore, thereisnoreduction inthemarginofsafetyforanyparticular Technical Specification.

Thedetailedchangesaredescribed inAttachment F.Therefore, Rochester GasandElectricsubmitsthattheissuesassociated withthisAmendment requestareoutsidethecriteriaof10CFR50.91;andanosignificant hazardsfindingiswarranted.

ATTACHMENT C10CFR50AppendixJReliefRequests Attachment CPage1of4Insupportofpreparing thisamendment request,RGGEhasperformed anextensive reviewofthecontainment isolation valves(CIVs)andboundaries (CIBs)forGinnaStation.Includedwiththisreviewwasanassessment ofthetestprocedures thatareusedfor10CFR50,AppendixJtesting.Theseprocedures werereplacedintheirentiretywiththenewprocedures beingusedfornecessary AppendixJtestingduringtherecent1992refueling outage.However,asaresultofpreparing andusingthesenewtestprocedures, RGEEdetermined thatreliefisnecessary fromcertainprovisions ofAppendixJforseveralcontainment isolation valvesandboundaries.

Thesereliefrequestsaredirectlyrelatedtothisapplication foramendment sincereliefisnecessary in'rder.toeliminate theneedforpotential stationmodifications andrevisionoftheisolation valvesandboundaries currently identified onUFSARTable6.2-15.Thereliefrequests, andtheirbasis,areprovidedbelow.Ifgranted,theserequestswillbeaddedtothe1990-1999 Inservice PumpandValveTestProgramforGinnaStationasnecessary.

(1)Penetrations 105and109containtheContainment Sprayinjection linestotheringheaders.Bothpenetrations havetestanddrainlineslocatedoutsidecontainment thatarenotusedfor10CFR50AppendixJtesting.These3/4inchlineshavethenecessary containment isolation valvesandboundaries; however,thesecomponents cannotbeleaktestedsincetherearenoavailable testconnections.

TheContainment Spraylinesarenormallyfilledwithwatertoalevelatleast45feetabovethetestanddrainlinesinordertofacilitate fasterresponseofthesystemduringanaccident.

RGGEhasperformed ananalysisofthislineandconcluded thatthewaterwouldnotboiloffduringaLOCA.Sincethetestanddrainlinesareconstantly exposedtothisheadofwaterduringpoweroperations, anyleakagewouldbenoticedeitherbynormaloperatorwalkdowns (i.e.,indication ofwateronvalveorfloor),orduringmonthlytestsofthecontainment spraypumpswhichrequireconfirmation oftheheadofwater.Consequently, averifiable waterbarrierbetweenthecontainment atmosphere andthevalveswillalwaysbeinplacesuchthatleaktestingwithairshouldnotberequired.

RGGEestimates thatitwouldcostapproximately

$40,000toinstallthenecessary testconnections fortheselines.Assuch,RGGEproposestofilltheContainment Sprayinjection linesusingtheRWSTeachrefueling outagetoaminimumlevelof66.9feet(or29psig).Thisisthemaximumheightofwaterthatcanbeusedwithoutcreatingthepotential forfloodingthecontainment charcoalfilterunits.Eachtestanddrainlinecontainment isolation valveorboundarywouldthenbeevaluated forany,observedleakageeitherthroughvisualinspection ortheuseoflocalpressureindication.

RG6Ebelievesthatthistestmeetstheunderlying purposeofAppendixJwithoutcreatingunduehardships'n thelicensee.

tea Attachment CPago2of4II(2)(3)(4)AOV959forpenetration 111providesacontainment isolation boundarybyisolating thenon-closed portionoftheResidualHeatRemoval(RHR)system.Basedon10CFR50,AppendixJ,AOV959wouldberequiredtobeleaktestedonceeveryrefueling outagesinceit,isanautomatic containment isolation valve.However,leaktestingofthisvalvecannot,beaccomplished sincetherearenoavailable testconnections.

AOV959isnormallyclosed'atpowerwithitsfusesremovedandaboundarycontroltaginplace.Following anaccident,,

thevalveiscontinuously pressurized abovethepeakcontainment accidentpressurebytheheadoftheRHRpumpsactinginthesafetyinjection mode.Thispressureheadisavailable throughout thepostaccidentperiodregardless ofanysingleactivefailure.Consequently, AOV959shouldnotrequiretestingsinceitdoesnotperformacontainment isolation functionasdefinedby10CFR50,AppendixJ,SectionII.B.Themanualvalvedownstream of959(957)isalsomaintained closedatpowerinordertoprovideadditional redundancy.

ItshouldbenotedthatthispositionwasacceptedbytheNRCforMOVs720and721whicharealsoCIVsforpenetration 111(seeletterfromD.M.Crutchfield, NRC,toJ.E.Maier,RG&E,subject:Completion ofAppendixJReview,datedMay6,1981).Penetrations 130and131containtheComponent CoolingWater(CCW)returnandsupplylinesrespectively, fortheReactorSupportCoolers.Thesepenetrations takecreditforaclosedsysteminsidecontainment (CLIC)andtwoMOVs(813and814)asthecontainment isolation boundaries.

ThetwoMOVsarecurrently testedwithairinaccordance with10CFR50,AppendixJ;however,RG&Eproposestotestthesevalveswithwater.TheCCWsystemprovidesa30daywatersealforthetwoMOVSsincethesystemisrequiredtosupporttheResidualHeatRemovalCoolerspost-LOCA.

TheonlytimethatCCWwouldnotbeoperating duringthis30dayperiodisfortheinjection phaseoftheaccident.

However,afailureoftheCLICdoesnotneedtobeassumeduntil24hoursfollowing theaccidentsinceitisapassivecomponent.

Atthistime,therecirculation phasewouldbeinitiated andtheCCWsystemoperating.

Penetration 140containstheResidualHeatRemoval(RHR)suctionlinefromHotLegA.Thetwomaincontainment isolation barriersforthispenetration areMOV701andaclosedsystemoutsidecontainment (CLOC).MOV701doesnotrequire10CFR50,AppendixJtestingforthesamereasonasMOVs720and721(seet2above).Instead,MOV701ishydrostatically testedeveryrefueling outage.ThedrainandventlinesusedinsupportofthistestarelocatedbetweenMOV701andcontainment; consequently, theyarerequiredtohavecontainment isolation valvesandbetestedinaccordance withAppendixJ.RG&Eestimates thatit,wouldcostapproximately

$100,000toaddthenecessary testconnections fortheselines.Inaddition, therearesignificant ALARAconcernswithrespecttomodifying thispiping.Therefore, RG&ErequeststhatrelieffromAppendixJbegrantedfortheisolation valvesontheselinesconsistent withMOV701.

Attachment CPage3of4(~)(6)Penetration 143containstheReactorCoolantDrainTankDischarge Line.Theisolation boundaries forthispenetration consist,ofthreeautomatic air-operated valvesandtwomanualvalves.Manualisolation valve1722cannotcurrently bedirectlytestedsincethereisnodownstream vent;however,thevalveis"inferred" tested(i.e.,exposedtoairtestpressurethroughthetestingofanotherisolation boundarywherebytheleakagethrough1722couldbeinferred).

Inaddition, itcannotbeassuredthatallwaterhasbeendrainedfromthevalveseatpriortoAppendixJtestingsincethisisthedrainlinefromtheFuelTransferCanal.RG6Eestimates thatitwouldcostapproximately

$50,000toinstallaventlineandisolation valvefor1722.TherearealsoALARAconcernssincethepipingnormallycontainsradioactive fluid.Consequently, RG&Eproposestocontinueto"infer"test1722afterdrainingthelineasmuchaspossible.

Itshouldalsobenotedthat1722willnormallyhaveawatersealagainstitwhencontainment integrity isrequired.

Penetrations 20la,20lb,209a,and209bcontaintheServiceWater(SW)supplyandreturnlinesfortheReactorCompartment CoolingUnits.Inaddition, penetrations 312,316,319,and320containtheSWsupplylinestotheContainment FanCoolerswhilepenetrations 308,311,315,and323containthereturnlines.Thesetwelvepenetrations alltakecreditforaclosedsysteminsidecontainment (CLIC)andanormallyopenmanualcontainment isolation valveoutsidecontainment.

Thesemanualvalvesareonlyhydrostatically tested(i.e.,nottestedto10CFR50,AppendixJcriteria) asaresultofacost/benefit studyperformed duringtheSystematic Evaluation ProgramforGinna.Thisstudydetermined thatthemanualisolation valveswouldonlyberequirediftherewasasignificant breachoftheCLICfollowing adesignbasisLOCAwhereasinstalling newautomatic valvesandtestconnections wouldcostseveralmilliondollars.TheNRCacceptedtheproposedhydrostatic testingapproachsincetheCLICisseismically designedandmissileprotected (NUREG-0821, Section4.22.3).Afurtherreviewoftheselineshasfoundvariouspressureindicators, flowandtemperature transmitters, anddrainvalveslocatedbetweenthemanualisolation valvesandcontainment.

However,thesecomponents cannotbeleaktestedsincetheydonothavethenecessary testconnections.

RGGEestimates thatitwouldcostapproximately

$120,000toinstallnewtestconnections.

Consequently, RGREproposestocontinuetohydrostatically testthesecomponents, similartothatperformed forthemanualvalves,inplaceoftherequiredAppendixJtesting.

Attachment CPage4of4(7)(9)Penetrations 206Band207BaretheSteamGenerator Samplelineswhile321and322aretheSteamGenerator Blowdownlines.Eachofthesefourpenetrations containtwocontainment isolation valvesconsisting ofanormallyopenmanualvalveandanautomatic air-operated valve.Alleightvalvesarecurrently testedto10CFR50,AppendixJ.However,thesefourlinesoriginate fromthesteamgenerator secondary side;consequently, thesteamgenerator tubesformonecontainment barrierasaclosedsysteminsidecontainment (CLIC).Othersimilarpenetrations forGinna(e.g.,MainSteam,MainFeedwater) onlyhaveasingleisolation valveoutsidecontainment thatdoesnotneedtobetestedtoAppendixJ(SeeAttachment D,Question414).Consequently, RG&Eproposestoonlyidentifytheautomatic air-operated valvesasCIVsandremoveallAppendixJtestingrequirements.

FireServiceWaterpenetration 307containscheckvalve9229whichislocatedinsidecontainment.

However,itcannotbeassuredthatallwaterhasbeendrainedfromthevalveseatpriortoAppendixJtestingduetoitslocationwithrespecttoavailable drainlines.RG&Eestimates thatitwouldcostapproximately

$20,000toinstallthenecessary drainline.Sincevalve9229isoutsidethemissileshield,itishighlyunlikelythattheFireServiceWaterpipewouldbreakinalocationsuchthatallwaterwouldbecompletely drainedfromthevalveseat.Therefore, testing9229initscurrentconfiguration isrepresentative oftheconditions thatthevalvewouldmostlikelyseeduringanaccident.

RG&Ewillcontinuetotryandremoveasmuchwateraspossiblebeforethetest,butdoesnotbelievethattheadditionofadrainvalveisnecessary.

Thecontainment isolation boundaries forHydrogenMonitorInstrumentation penetration 332aareSOVs922and924andthenuclearsamplingsystem(i.e.,closedsystemoutsidecontainment).

ThetwoSOVsarerequiredtobetestedinaccordance with10CFR50,AppendixJsincetheyareautomatic CIVs;however,thereisnoavailable downstream vent.RG&Eestimates thatitwouldcostapproximately

$15,000toinstallthenecessary vents.Thesecondcontainment isolation boundaryforthispenetration istheHydrogenMonitorSamplingSystemwhichisaclosedsystemoutsidecontainment (CLOC).Thisclosedsystemistestedbypressurizing theHydrogenMonitorpipinguptothetwoSOVs.Consequently, SOVs922and924are"inferred" testedthoughintheoppositedirection.

Therefore, RG&Eproposestocontinuetoinfertestthevalvesbasedonthecostrelatedtoaddingavent.

ATTACHMENT DResponseToNRCRequestForAdditional Information LetterFromA.R.Johnson,NRC,toR.C.Mecredy,RGREgdatedSeptember 26,1991

'r Attachment DPage1of12Asaresultofreviewing RG&E'sApplication forAmendment toOperating LicenseDPR-18withrespecttoremovingthelistofcontainment isolation valvesfromTechnical Specifications, theNRCresponded withaReque'stforAdditional Information (seeletterfromA.R.Johnson,NRC,toR.C.Mecredy,RG&E,,datedSeptember 26,1991).Theissuesdiscussed inthisRAIhavealreadybeenaddressed withintheAmendment Requestandassociated UFSARtableandfigures;however,aspecificresponsetoeachofthetwenty-ninecommentsandquestions isprovidedbelow.Table6.2-13identifies manyvalves,butdoesnotdistinguish betweenwhichvalvesarecontainment isolation valvesandthosethatarenot,otherthanbyuseofnotes.Forexamplesomenotesindicatethatsomevalvesarenotconsidered containment isolationvalves.Theuseoftheterm"considered" doesnotclarifywhattheclassification ofthevalveisandshould(notJbeusedtodescribevalves.Ifthereisanyclarification tobenotedbecausevalvesarelistedwhicharenotclassifiedascontainment isolationvalves,itshouldbeprovidedforaccuracy.

Additional commentsonspecificnotesareprovidedinparagraphs below.Withrespecttoboundaries, thetable,ingeneral,isnotclearonwhatconstitutes aboundaryparticularly incaseswhereonlyonevalveisclassified asacontainment isolation valveforagivenpenetration.

Acontainment isolation boundarymaybeablindflangeoraclosedsystem.However,thetabledoesnotmakecleartheboundaries ofthesecondcontainmentisolationbarrier.Thefiguresnotethatsomeinstruments constitute acontainment isolation boundary.

Therefore, whereasystemorcomponent isconsidered asecondbarrier,inadditiontoasinglecontainment isolation valve,itshouldbesoidentified.

Also,thelocationofthatcomponent wouldbeidentified underTable6.2-13columnheading"Position RelativetoContainment."

Footnote4tothetablewouldbeapplicablewherethisboundaryisaclosedsystemoutsidecontainment, however,thisnotepresently doesnotidentifythatclosedsystem.Footnote4ispoorlywordedsinceitisappendedtothelineentrythatidentifies thecontainment isolation valve.Thisinformation isimportant sincetheTSrequiresanoperableboundary, orsecondisolation valveinthecasethatonecontainment isolation valveisinoperable, andtheTSBasesreferences thistableforsuchinformation.

RESPONSE

RG&Ehasperformed anextensive reviewofthecontainment isolation

'valves(CIVs)andboundaries (CIBs)forGinnaStation.Theresultsofthisreviewhaveb'eenincorporated intotheCIV/CIBtestingprogram,UFSARTable6.2-15(formerly 6.2-13),and,theassociated UFSARfigures(see.,Attachment E).Detailsconcerning thespecificchangeswhichweremadeareprovidedintheanswerstothequestions whichfollow;however,asummaryofthesignificant changesthatweremadeispresented below.

Attachment DPage2of12a.)Allcomponents whichprovideacontainment isolation boundaryareidentified onbothUFSARTable6.2-15andtheassociated figures.Closedsystemsthatareusedasanisolation boundaryhavebeenspecifically identified onUFSARTable6.2-15witheither"CLOG-ClosedLoopOutsideContainment" or"CLIC-ClosedLoopInsideContainment".

Blindflanges,instruments, orothercomponents whichprovideapassivecontainment isolation boundaryhavebeenidentified with"CIB"onthefigures.b.)UFSARTablenoteshavebeenclarified toprovidetheexplicitbasisforAppendixJreliefwherenecessary.

c.)AllCIV/CIBtestprocedures werereviewed,

upgraded, andsubsequently usedfornecessary 10CFR50,AppendixJtestingduringtherecent1992refueling outage.UFSARTable6.2-15wasthenrevisedtoensurethatitwasconsistent withtheAppendixJtestingprogram.MostUFSARfiguresarenowtakendirectlyfromtheCIV/CIBtestprocedures toensurethattheyremainaccurateinthefuture.Inanumberofcases,morethanonepenetration islistedunderasinglepenetration numberinTable6.2-13.Thisiscontrarytothegeneralpracticeofidentifying eachpenetration withitsassociated valvesorboundaryasaseparateentry.Eachpenetration shouldbelistedandidentified individually.

Thisincludesthefollowing:

124a(Separate penetrations forsupplyandreturn.)124b(Separate penetrati onsforairsampleto"C"fanandcommonreturn.)201Topand201Bottom202(Separate penetrati onsforH2"main"and"pilot"burners.)203b(Separate penetrati onsforairsampleto"B"fanandcommonreturn.)209Topand209Bottom305c(Appearstobethreepenetrations, butcontainment boundaryisnotshownonFigure6.2-61)332c(Threepenetrati onsshownforthesamepenetration number.)RESPONSE:

Acontainment penetration atGinnamaycontainseveralprocesslines.Assuch,boththe"supply"and"return"linesforagivensystem,ormultiplelinesperforming thesamefunctionmaygothroughasinglepenetration.

However,toprevent.anymisinterpretations, UFSARTable6.2-15hasbeenrevisedtoshowaseparateentryforeachprocessline.Thepenetration nameshavealsobeenrevisedasnecessary forconsistency (i.e.,eliminated useof"top"and"bottom").

SeeAttachment Eforfurtherdetails.

rta'I'I~-4A Attachment DPage3of12Wherefootnote9isusedinTable6.2-13,thepurposefortheautomatic closureoftheassociated valveshouldbeclarified.

Forvalve427ontheletdownline,itsclosureonacontainment isolation signal(CIS)'isimportant ifoneoftheorificevalvesfailstoclosesinceitprecludes thelossofreactorcoolanttothepressurizer relieftankwhenreactorpressureisgreaterthanthereliefsettingofreliefvalve203thatisisolatedbytheclosureofvalve371onaCIS.Forpenetrations 123,205,206a,207a,and210,theclosureofasecondvalveonaCISprovidesadegreeofredundancy forcontainment isolation.

RESPONSE

Note9toUFSARTable6.2-15isusedtoidentifythosevalveswhichreceiveacontainment isolation signal(CIS),butarenotcontainment isolation valvesbasedonmissilebarrierorclassbreakcriteria.

Thesevalvesareonlyshownonthetabletopreventanyfuturequestions relatingtocomponents whichreceiveaCIS,butarenotincludedonthetable.WithrespecttoAOV427,thisvalvefailsopenonlossofinstrument airwhichwilloccurshortlyafterreceiptofaCISsinceinstrument airtocontainment isalsoisolated.

Consequently, AOV427willalwaysfailopenuntilinstrument airisrestoredtocontainment.

Theimportance ofAOV427withrespecttothefailureofanorificevalveisanoperational concern.ItisnottheintentoftheUFSARtabletoidentifythepotential significance ofeveryvalve,ortodistinguish everyscenariowherethevalvemaybeused(e.g.,recoveryfromanaccident).

Instead,theseissuesareaddressed byprocedures andtraining.

Consequently, Note9hasnotbeenrevised.Forpenetration 143intheTable6.2-13,valve1722shouldbeaddedsinceithasbeenmarkedasa"CIV"(containmentisolation valve)onFigure6.2-43.RESPONSE:

UFSARTable6.2-15hasbeenupdatedtoincludevalve1722asaCIV.Note17inthetableshouldbeupdatedtoreference correspondence whichgrantedrelieffromAppendixJleaktesting,notjustcorrespondence requesting such.RESPONSE:

TheNRCagreedthattestingtoAppendixJrequirements wasnotrequiredforthesevalvesduringtheSEP(seeNUREG-0821, Section4.22.3).Note17toUFSARTable6.2-15hasbeenchangedtoreference thisNUREG.

<L Attachment DPago4of12Figure6.2-14includesanotethat"CIV"isusedtodesignate containment isolation valvesonthisandsubsequent figures.Thisnotationwasalsousedonsomeotherfigurestodesignate anisolation

boundary, buthasbeensubsequently modifiedbydeletingtheletter"V."Itisrecommended thatyouidentify"CI,"orpreferably "CIB,"asnotationforacontainment isolation boundaryorbarrierbytheuseofanoteonthisfigure.AlsoonFigure6.2-14,Figure6.2-16,andFigure6.2-18,anarrowisshownforthecheckvalvestodesignate flowdirection.

Onotherfiguresitappearsthatmarkedchangesforcheckvalves(Figures6.2-37and6.2-38)wereforthepurposetoclarifyflowdirection (itispresumedthattheintentisthattheflowdirection isfromtheuppersidemarking)yetnoconvention forsuchisprovided.

Itwouldappeartobeclearertousethearrowsymbolforconsistency, sincethepresumedintentofmarkingdoesnotworkforacheckvalveshowninaverticallinesuchasinFigure6'.2-15.RESPONSE:

AllUFSARfigureshavebeenupdatedtoidentifycontainment isolation boundaries as"CIB"andvalvesas"CIV".Allitemsidentified withaCIBorCIVhavealsobeenaddedtotheUFSARtable.Thearrowsoncheckvalveshavebeendeletedandnewarrowshavebeenplacedonprocesslinestoindicatedirection offlowasnecessary (i.e.,incomingandoutgoing).

OnFigure6.2-19,valve304BwasaddedandonFigure6.2-23,Valve304Awasadded.Oneofthesefigurescouldnowbedeletedsincetheyareredundant.

Alsobothfiguresidentifythepenetration asP-110ratherthanbyitsfulldesignation "P-110a(top)"asidentified inTable6.2-13.RESPONSE:

AllUFSARfigureshavebeenreplaced; consequently, thereistypically aseparatedrawingforeachpenetration.

Thefiguretitleshavealsobeenupdatedtobeconsistent withUFSARTable6.2-15.OnFigure6.2-33,thecontainment penetrati onsshouldbelabeledas"P-124a(Supply)"

and"P-124a(Return)"

toidentifyeach.RESPONSE:

AllUFSARfigureshavebeenreplaced; consequently, thereistypically aseparatedrawingforeachpenetration.

Thefiguretitleshavealsobeenupdatedtobeconsistent withUFSARTable6.2-15.

Attachment DPage5of12OnFigure6.2-34,thecontainment penetrati onsshouldbelabeledas"P-124b(Top)"and"P-124b(Bottom)"orotherappropriate meanstodistinguish betweenthetwopenetrations thatarecurrently designated as"P-124b."

RESPONSE

AllUFSARfigureshavebeenreplaced; consequently, thereistypically aseparatedrawingforeachpenetration.

Thefiguretitleshavealsobeenupdatedtobeconsistent withUFSARTable6.2-15.OnFigures6.2-40and6.2-44,thelocationofcontainment relativetoP-131andP-209(Top)isthereverseofwhatisshown(Figures6.2-33and6.2-44havetheproperconfiguration shown).RESPONSE:

ThenewUFSARfigurescorrectly showthelocationofcontainment forthesetwopenetrations.

The"CIV"designation isimproperly usedforthereactorcompartment cooler1BonFigure6.2-44.RESPONSE:

TheCIVdesignation associated withthecompartment coolerhasbeenremovedonthenewUFSARfigure.OnFigure6.2-46,thetwopenetrations shouldbeidentified todistinguish themasseparatepenetrations andwiththesameP-202designation usedinthetitleblockandthetable.RESPONSE:

AllUFSARfigureshavebeenreplaced; consequently, thereistypically aseparatedrawingforeachpenetration.

Thefiguretitleshavealsobeenupdatedtobeconsistent withUFSARTable6.2-15.OnFigure6'72Ithepressuretransmitters shouldnotbedesignated as"CIVs"butratherasanisolation boundary.

RESPONSE

ThenewUFSARfigureforpenetration 332acorrectly identifies thetransmitters asCIBs.

Attachment DPage6of12AllcheckvalvesonFigure6.2-75(P-4036P-404)shouldbedesignated andshownas"CIVs."Likewise, Footnote11shouldbedeletedforthesevalvesasshowninTable6.2-13.RESPONSE:

Thesteamgenerator tubesformacontainment isolation boundaryforthemainsteam,feedwater andauxiliary feedwater penetrations.

Thefirstisolation valve(s)outsidecontainment forthesepenetrations havebeenaddedtotheUFSARtableasrequested.

Inaddition, FootnotellhasbeenrevisedtoshowthatthesevalvesareCIVs,buttheydonotrequireAppendixJleaktestingconsistent withpreviousconversations betweenRG&Eandthestaff.RGGEhasagreedtothischangeeventhoughthecurrentTechnical Specification Table3.6-1explicitly statesthatthesearenotcontainment isolation valveswiththeunderstanding thattheNRCapprovesthatnoAppendixJtestingisrequired.

Whereinstruments areconnected toalineupstreamofthecontainment isolation valve,theinstrument anditsrootvalveshouldbelistedinTable6.2-13,similartotheotherlistingofinstruments androotvalves.Thisincludesvalves885A,885Bandtheassociated PTs(whichshouldbenumbered) asshownonfigure6.2-15.Thisistruealsoofvalve2856andPI-933Aandanunidentified instrument onFigure6.2-18,valve2859andPI-933BonFigure6.2-22,valve4588andPI-2141onFigure6.2-44,valve4590andPI2232onFigure6.2-45,PI-(unidentif'iednumber)onFigure6.2-49,valve8052andPI-(unidentified number)onFigure6.2-56,valvesandPIsandFIsshownonFigure6.2-6'3.RESPONSE:

AllUFSARfigureshavebeenreplacedwiththeCIV/CIBtestingprocedure drawings.

Theinstrumentation lineswerereviewedandaddedasnecessary; however,thechangeswithrespect,tothepenetrations identified inthisquestionareprovidedbelow.AddedPT-923andPI-923AasCIB'sand885Band12407asCIVs.P-105P-109Added869Aand2856asCIV's(pressure indicator rootvalvesarenowclosed).Added869Band2858asCIV's(pressure indicator rootvalvesarenowclosed).AddedPT-922andPI-922AasCIBs,and885Aand12406asCIV's.

Attachment DPage7of12P-201bAddedPI-2141asaCIB.Rootvalve4588isnotrequiredtobeaCIVsincetheServiceWatersystemisaCLIC.P-204P-209bNochangesweremade.SeeresponsetoQuestion23.AddedPI-2232asaCIB.Rootvalve4590isnotrequiredtobeaCIVsincetheServiceWatersystemisaCLIC.P-300P-308Nochangesweremade.SeeresponsetoQuestion26.AddedFIA-2033andTIA-2010asCIBs.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-311AddedFIA-2034andTIA-2011asCIBs.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-312Added12500K(drainline)asaCIVandPI-2144asaCIB.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-315AddedFIA-2035andTIA-2012asCIBs.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-316AddedPI-2138asaCIB.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-319AddedPI-2142asaCIB.NorootvalveswereaddedsincetheServiceWatersystemisaCLIC.P-320AddedCIB.Water12500H(drainline)asaCIVandPI-2136asaNorootvalveswereaddedsincetheServicesystemisaCLIC.P-323Added-valvesaCLICFIA-2036andTIA-2013asCIBs.NorootwereaddedsincetheServiceWatersystemis Attachment DPage8of1216.Test,vent,anddrainvalvesthatareusedforAppendixJlocalleakratetestingneednotbelistedTable6.2-13.However,valvesprovidedforotherpurposesincluding testingshouldbelistedaslockedclosedvalvesandidentified ascontainment isolation valves.Therefore, itissuggested toidentifythosevalveswhicharetest,vent,ordrainvalvesusedforlocalleakratetestingwithsomenotationonthefigures,orbylistingtheminTable6.2-13withanappropriate footnote.

Byproviding thisidentification itwillbeclearastowhichoftheremaining valvesare"CIVs"andsubjecttotheAppendixJrequirements.

Clarification ofthefunctionofthefollowing valvesonthefollowing figuresshouldbenoted:FiciureValve6.2-186.2-226.2-306.2-566.2-73864A,2825,2829864B,2826,2830497,498,567,57680497448,7452,7456,8437,8438,8439RESPONSE:

AllUFSARfigureshavebeenreplacedwiththeCIV/CIBtestingprocedure drawings.

Connections usedforAppendixJtestingarenowspecifically identified onthefigureswhileotherconnections havebeenaddedtotheUFSARtableasCIVs.Thechangesmadewithrespecttothepenetrations identified inthequestionareprovidedbelow.P-105P-109P-121aAdded864Aand2829asCIVs.Valve2825isatestconnection usedforAppendixJtesting.Added864Band2830asCIVs.Valve2826isatestconnection usedforAppendixJtesting.'IAdded497and498asCIVs.Valve567isatestconnection usedforAppendixJtesting.Valve576isatestconnection downstream oftwoCIVs(567and508)andisnotrequiredtobeaCIV.P-300P-332a-dNochangesweremade.SeeresponsetoQuestion26.Added7452,7456,and7448asCIVs.Valves8437,8438,and8439areusedforAppendixJtesting.17.NoQuestion

'TIv*L Attachment DPage9of12OnFigure6.2-24,valve959shouldbenotedasaCIVsinceitensuresthattheResidualHeatRemoval(RHR)systemisaclosedsystemonaCISandshouldbelistedinTable6.2-13.Also,thevalvestothesafetyinjectionsysteminsidecontainment shouldbeshownandlistedinthetableasCIVsaswell.asthecheckvalveandtheparallelvalveshownconnecting totheletdownline.Ifanexception istakentothisposition, itshouldbejustified.

RESPONSE

AOV959wasalreadylistedonTable6.2-15asaCIV;however,the"CIV"designator was'missing forthevalveonFigure6.2-24.Thefigurehasbeenrevisedaccordingly.

Withrespecttothe"valvestotheSafetyInjection System",thewordingontheUFSARfigurewasincorrect.

ThesetwoMOVs(852Aand852B)areusedforlowpressure, injection tothereactorvessel.Consequently, bothlinesarecompletely insidecontainment andhavenoaffectupontheintegrity ofRHRasaclosedsystem(i.e.,thefailureof720toisolatewouldnotcreateareleasepathfromcontainment throughthesubjecttwolines).Inaddition, bothMOVsopenonaSIsignaltoprovideaRHRinjection path;consequently, theycannotbeclosedduetotheirfunctionandweretherefore notaddedasCIVs.Thisissueisaddressed inaletterfromtheD.Crutchfield, NRC(toJ.Maier,RGGEdatedSeptember 29,1981.TheflowpathtotheletdownlineconnectstotheCVCSbetweenthetwosetsofcontainment isolation valvesforPenetration 112.Consequently, theisolation valveoutsidecontainment forPenetration 112(i.e.,371)mustfailinadditionto720tocreateareleasepathfromcontainment.

However,nocrediblesinglefailureexistsbetween371and720(e.g.,AOVversusMOV,separateESFAStrainsandcontrolpowersources).

Therefore, thecheckvalvetotheletdownlinewasnotadded.Valves9704Aand9704BonFigure6.2-26shouldbeshownasCIVsandlistedinTable6.2-13.RESPONSE:

Thesteamgenerator tubesformacontainment isolation boundaryforthemainsteam,feedwater andauxiliary feedwater penetrations.

Thefirstisolation valve(s)outsidecontainment forthesepenetrations havebeenaddedtotheUFSARtableasrequested.

Inaddition, Footnote11hasbeenrevisedtoshowthatthesevalvesareCIVs,buttheydonotrequireAppendixJleaktestingconsistent withpreviousconversations betweenRGGEandthestaff.RGGEhasagreedtothischangeeventhoughthecurrentTechnical Specification Table3.6-1explicitly statesthatthesearenotcontainment isolation valveswiththeunderstanding thattheNRCapprovesthatnoAppendixJtestingisrequired.

Attachment DPage10of1220.Footnote14statesthatvalve745forenet(return)istobemanuallclosedunmanuaycloseduntilitismodifiedtouornaicclosuresinal.hhdhhwyasitnotbeenimplemented?

RESPONSE

AOV745wastoutageasstatedinalttftobemodifiedbytheendoftheJohnson,NRC,datedJuly9,1990.Howebenefitanalysis, andthefactthatnthispenetration isrequiredbasedontmodification wascanceled.

0erat'pmonszsstz.llinstructdtooowingaCISforadditional redundancy.

See91letterfromR.MecredRGGEyasmoiiedtoreflectthischange.21.Pleaserovidep'our50.59evaluationandthechangeintheclassification forvf42,valves1813Aand1813Bshouldbeexception itktothinoisposition, itshouldbejustified.

RESPONSE

The50.59evaluation toremovevalves8bl'tldd'ththo'lAmdequestdatedOctober15,delete.on iscontained inthA).However,thebasisfoMax.ergRGB(EItoDECrutchfield, NRCinineAugust30"1982SERSEPT'I4S'hflNUREG-08'c-(seeNRCletterposi.txon expressed inourAt30,21bothreferences andreflectsthethattheNRChadagreedthat851Aand8ourugust30,1982letter,RGGEassumes1813Ad1toincludethenecessary "CIV"dan1813B,theUFSARfiurehaIVdesignation.

22.Valve1722shouldbelistedinTable6.2-13anbea1ockedclosedvalve.Ifnotprovided.

vave.Ifnot,ajustification shouldbeRESPONSE:

Valve1722isalockedclosedvalve.beenupdatedtoreflectthis.TheUFSARfigurehas l,

Attachment DPagellof1223.Valve8074onFigure6'.2-49shouldbeshownasaCIVandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

Manualvalves8074,8074A,andPI-2arenotCIV'sorCIB'ssincethehingedflangeprovidestwocontainment isolation boundaries (i.e.,two0-rings).

AOV5869isonlylistedontheUFSARtablesinceitcanbeusedinplaceofthehingedflangeduringrefueling toprovidethenecessary barrier.24.Valve5749onFigure6'.2-52shouldbeshownasaCIVandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

Thispenetration wasmodifiedduringthe1992Refueling Outagesothatvalve5749isonlyusedforAppendixJtesting.Thenewfigurecorrectly showsthemodifiedpenetration.

25.Valve5754onFigure6.2-54shouldbeshownasaCIVandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

Thispenetration wasmodifiedduringthe1992Refueling Outagesothatvalve5754isonlyusedforAppendixJtesting.Thenewfigurecorrectly showsthemodifiedpenetration.

26.Valve8050onFigure6.2-56shouldbeshownasaCIVandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

Manualvalves8050,8052,andPI-35arenotCIV'sorCIB'ssincethehingedflangeprovidestwocontainment isolation boundaries (i.e.,two0-rings).

AOV5879isonlylistedontheUFSARtablesinceitcanbeusedinplaceofthehingedflangeduringrefueling toprovidethenecessary barrier.27.Thecontainment penetration shouldbeshownonFigure6.2-6'1.Ifthreepenetrati ons,Top,Middle,andBottom,exist,theyshouldbeidentified andlistedseparately Table6.2-13.RESPONSE:

UFSARTable6.2-15wasupdatedtolisteachofthethreepenetrations individually.

AseparateUFSARfigureisalsoprovidedforeachpenetration.

~II444-"1sJ Attachment DPage12of1228.ThedrainvalvesshownonFigure6.2-63shouldbeshownasCIVsandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

ThedrainvalveswereaddedtoUFSARTable6.2-15asCIVs;however,thesevalvesarenotlockedclosed.Thedrainvalvesaremaintained normallyclosedduringpoweroperation persystemlineupprocedures andhave"containment isolation boundary" controltagswhicharecontrolled bytheCIV/CIBtestprocedures.

Thisformofadministrative controlisconsidered acceptable sinceallplantpersonnel areinstructed intheuseofequipment tags.Inaddition, theServiceWatersystemforthesepenetrations isaCLIC,therebyrequiring apassivefailurecoincident withaLOCAbeforechallenging theintegrity ofthedrainvalves.29.Valve5752onFigure6269shouldbeshownasaCIVandlistedintheTable6.2-13asalockedclosedvalve.RESPONSE:

Thispenetration wasmodifiedduringthe1992Refueling Outagesothatvalve5752isonlyusedforAppendixJtesting.Thenewfigurecorrectly showsthemodifiedpenetration.

30.Valves3504A,3505A,3516,3517,3521,and3506,3507ortheirassociated atmospheric reliefvalvesshouldbeshownasCIVsonFigure6.2-74,forpenetrations 403and404,andlistedinTable6.2-13assuch.RESPONSE:

Thesteamgenerator tubesformacontainment isolation boundaryforthemainsteam,feedwater andauxiliary feedwater penetrations.

Thefirstisolation valve(s)outsidecontainment forthesepenetrations havebeenaddedtotheUFSARtableasrequested.

Inaddition, Footnote11hasbeenrevisedtoshowthatthesevalvesareCIVs,buttheydonotrequireAppendixJleaktestingconsistent withpreviousconversations betweenRG&Eandthestaff.RG&EhasagreedtothischangeeventhoughthecurrentTechnical Specification Table3.6-1explicitly statesthatthesearenotcontainment isolation valves.

ATTACHMENT EUFSARTable6.2-15andFigures6.2-13through6.2-78r

GINNA/UFSAR SIAPERTURECARDAlsoAvailab1e OoApertureCardTable6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVINGe~SstemPenetration Novalve/a~aaadaIsolation Position'alve

~TevalveOperator1~ePositionIndication ZnControlRoomPositionRelativetoContainment Normalasereadaa PositionAtColdShutdownImmediate Postaccident~

PowerPailureTriponCZSMaximumIsolation Time~eea'PSAR~PlreClass~Notesseeendoftable'teamgenerator inspection/

maintenance PueltransfertubecharginglinetoBloopsafetyinjection pump1Bdischazge 29100101370BCLOC870B889BCLOC12407PZ-923A'PT-923'85B ala2BlindflangeBlindflangeala2alala2blblblb2checkNACheckcheckHAGlobeNANAGlobeal,a2BlindflangeNAHANANANANAHAManualNAHAManualNAHANAHANANAHANANoNANANoInsideOutsideInsideInsideoutsideoutsideOutsideOutsideoutsideoutsideOutsideOutsideCCC0CCCCCNANAao/co/co/cCCCCCCNANA0CCCC00CCNANA0HANANANAHANAHANANANANAHAHANAHANAHANAHANANANANANANANA,NANANAHA6.2-136.2-1362-136.2-146.2-1462-1562-156.2-156.2-156.2-156.2-156.2-153B3B3B3B3B3B3B3B3B1,21,22I3Alternate chargingtoAcoldlegconstruction fireservicewatercontainment spraypump1A102103105383BCLOCNA5129862ACLOC2829Cap869A285628252825A864A859A859B859Cala2ala2ala2blb2clc2dld2ele2e2e2CheckNAweldedcapGatecheckNAGlobeNAGlobeGlobeGlobeBallGlobeGlobeGlobeGlobeNANAHAManualNANAManualNAManualManualManualManualManualManualManualManualHANANANoHAHANANAHoNoNoNoNoNoNoNoInsideOutsideInsideOutsideoutsideoutsideoutsideOutsideoutsideOutsideoutsideoutsideoutsideoutsideOutsideoutsideCCCLCCCLCCCCLCCC0/Co/cCCLCCCLCLCCCC0CLCCCCLCCCLCLCCNANANANANANANANANANANANANANANANAHANANAHANANANAHANANANANANANAHANANAHANANAHAHANANANANANANA'ANANANA6.2-1662-166.2-176.2-176.2-186.2-186.2-186.2-186.2-186.2-186.2-1862-186.2-186.2-18,62-186.2-183B3B3Br3B3B3B3B3B3B3B3B3B3B3B910109,10ReactorcoolantpumpAsealwaterinlet106304ACLOCala2checkNANAHAHANAInsideoutside0C0CCCHANAHANANANAr6.2-193B6.2-193BsumpAdischarge towasteholduptank10717231728ala2Diaphragm AirDiaphzagm AirstatusStatusOutsideOutside00o/co/cCCPCPCYesYes60606.2-2026.2-202LeendAIAovBLCBLOBothCCIBssCZS,TCIVCLICPailsasisAir-operated valveBreakerlockedclosedBreakerlockedopenR/GandStatusclosedcontainment isolation boundary/bazrier containment

'solation signalcontainment isolation valveclosedloop'nsidecontainment CLOCCVDPCPoIYBJLCrovMVClosedloopoutsidecontainment checkvalveDrainPailsclosedPailsopenInsidemissilebarrierAppendixJconnection LockedclosedMotor-opezated valveManualvalve00/COMBR/GSSovStatusTCVOpenOpenorclosedoutsidemissilebarrierRed/green lightonmaincontrolboardsafetyinjection signalSolenoid-operated valvewhitestatuslightTestconnection Vent6.2-95REV87/92a 0I'B'EC"'Dla)5j1l'pJ~

GINNA/UFSAR SIAPERTURECARD.~AlsoAvailable O~ApertureCard.Table6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

~satanPenetration No.Valve/Isolation Baunda~Position" Valve2reeValveOperator~T8PositionZndication InControlRoomPositionRelativetoContainment PositionAtImmediate Postaccident~

sHormal.Cold~ezarXonsnctdoenPowerPailureTriponctsMaximumIsolation Time~eec'PSAR~PiureNotesClassdSeeendoftable'eactorcoolantpumpsealwaterreturnlineandexcessletdowntoVCTContainment spraypump1B108109313CLOC862BCLOC2830Cap869B285828262826A864B859A859B859Cala2ala2blb2clc2dld2ele2e2e2GateHACheckHAGlobeNAGlobeGlobeGlobeBallGlobeGlobeGlobeGlobeMotorNANANAManualNaManualManualManualManualManualManualManualManualBothNANANANoNANoNoNoNoNoNoNoNooutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideOutsideoutsideoutsideI0CCCLCCCCLCCCLCLCCo/cCCCo/co/cCCLCCCLCLCCCC0CLCCCCLCCCLCLCCAINANANANANANANANANANANANANAYesNANANANANANANAHANANANANANA60HANANANA;HANANA'A'A'A,NAtNANA6.2-2162-216.2-226.2-226.2-226.2-2262-226.2-2262-226.2-226.2-226.2-226.2-226.2-223B3B3B3B3B3B3B3B3B3B3B3B910109,10Reactorcoolant,pumpBsealwaterinletSafetyinjection testline110a110b304BCLOC879al,a2CheckNAGlobeNANAManualNANANoInsideoutsideoutside0C0CCCNAHANANANA,'ANANA6.2-233B6.2-233B6.2-15112ResidualheatremovaltoBcoldleg720959CLOCala2a2GateGlobeNAMotorAirNAR/GStatusNAInsideoutsideHACCC0o/cCCCCAIPCNANoYesNANANANA6.2-243B62-243B62-243B13,1415Letdowntononregenerative heatexchanger Safetyinjection pump~Mdischarge Standbyauxil-iaryfeedwater linetosteamgenerator 1A112113119200A200B202371427870A889ACLOC12406PI-922APT-922cap885A9704A9723CLICalalala2NAalala2blblblblb2alala2GlobeGlobeGlobeGlobeGlobeCheckcheckHAGlobeHAHANAGlobeStop-check GlobeNAAirAirAirAirNANANAManualNAHANAManualMotorManualNAR/GR/GR/GBothR/GNANANANoNANANANoR/GNoNAInsideInsideZnsideoutsideInsideoutsideOutsideOutsideoutsideOutsideOutsideoutsideOutsideOutsideOutsideInsideo/co/cC00cCCCNANAC00LCCCCC0o/cCCCCHANAC00LCCCCCCC00CCNANAC00LCCEcEcPcPCPoNANA,NANANANANANAAINANAYesYesYesYesYesNANANANANANANANANoNANA60606060NANANANANANANANANANAHAHA6.2-256.2-256.2-256.2-256.2-256.2-156.2-156.2-156.2-156.2-156e2-156.2-1562-156.2-266.2-266.2-26111113B3B3B3B3B3B3B3B161616171819Nitrogentoaccumulators Pressurizer relieftanktogasanalyzer120a120b8468623539546ala2ala2GlobecheckGlobeGlobeAirHAAirManualBothNAStatusNoOutsideInsideoutsideOutsideCo/cC0o/co/co/c0CCC0FcNAPCNAYesNAYesHA60HA160NA6'-273A6.2-273A62-2826.2-2826.2-97REV87/92~

3'-)V~i~FIs~)

GINNA/UFSAR

.~Sl--APEQ,JURE CARDTable6.2-15A~gvajta'ble OAApertureCardCONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

~SstemPenetration No.Valve/Isolation

~Baundapoededon'alve

~TeValveOperatorePositionZndication zncontrolRoomPositionRelativetoContainment Normalooeeandon PositionAtcoldzmmediate ShutdovnPostaccident~

PoverFailureTriponoddMaximumIsolation Time~deo'FSAR~FireClass~Notesseeendoftable'akeupwatertopressurizer relieftank121a508alDiaphragm 529a2checkAirNABothNAoutsideZnsideCo/co/co/cFCNAYesNA6062-293A6.2-293ANitrogentopressurizer relieftank121b528547ala2checkGlobeNAManualNANoInside,cOutside~LC0/Co/cNANANA6.2-306.2-303A3A20Containment pressuretransmitters PT945andPT946ReactorcoolantdraintanktogasanalyzerlineStandbyauxil-iaryfeedvater linetosteamgenerator 1BExcessletdownheatexchanger coolingwatersupplyPostaccident airsampletocommonreturnExcessletdownheatexchanger coolingwaterreturnPostaccident airsanpletocfanComponent coolingwaterfromreactorcoolantpump1B121c123a123b124a124b124c124d125PT9451819APT9461819B1600A165517899704B97259724CLIC743CLIC157215731574745CLZC156915701571759BCLOCala2blb2NAala2alalala2ala2ala2a2ala2ala2a2ala2HAGlobeNAGlobeGlobeGlobeDiaphragm Stop-check GlobeGlobeNACheckNADiaphragm GlobeDiaphragm GlobeNADiaphragm GlobeDiaphragm GateNANAManualNAHanualsolenoidManualAirMotorManualManualNAManualHanualManualHanualManualManualMotorNANANoNANoNoNoStatusR/GNoNoNANANANoNoNoR/GNANoNoNoR/GNAOutsideoutsideOutsi.deOutsideOutsideOutsideoutsideOutsideOutsideOutsideZnsideInsideInsideOutsideOutsideOutsideOutsideInsideoutsideOutsideoutsideoutsideOutsideNA0NA00000CCCCCCLCNA0HA0o/c0o/c0CCCCCNA0NA0C0C0CCCCCNAHANANAPCNAFcAZNANANANANANAFcNANANANAAINANAHANANAYesHAYesNoNANANANANANANANANoNANoHANANANANANA60NANANANANANANANANANA'ANA,HA6.2-316.2-316.2-316.2-316.2-326.2-326.2-326.2-266.2-266.2-266.2-266.2-336.2-336.2-346.2-346.2-346.2-336'-336.2-346'-346.2-346.2-356.2-3555517181922212223Component, coolingwaterfromreactorcoolantpump1A126759ACLOCala2GateMotorNA'AR/GHAOutsideOutsideAINAHoNANANA6.2-3626'-36223Component coolingvatertoreactorcoolantpump1A127749A750Aala2GateCheckMotorNAR/GNAOutsideInsideAINANoNANANA6.2-373B6.2-373BComponent coolingvatertoreactorcoolantpump1B128749B750Bala2GateCheckHotorNAR/GHAOutsideInsideAZNANoNANA6.2-383BNA,6.2-383B6.2-99REV87/92 fyephi GINNA/UFSAR a"r~SstemPenetration Valve/Isolation No.~Boundaroelrlon'alve T9(peValveoperator~pePositionIndication ZnControlRoomPositionRelativetoNormalcontadntant

~erat1anSIAPERTURECARDPositionAtColdshutdownImmediate Postaccident~

PowerrallnreTriponcrcA1SOAVai1abIe OnApertureCardMaximumIsolation Time~ceTable6.2-15UPSAREicCureclass'otes Seeendoitable'ONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

Reactorcoola~nt~991713draintankand1799pressurizer 17Q6relieftankto1787containment ventheaderala2blb2checkDiaphragm Diaphragm Diaphragm NAManualAirAirNANostatusStatusoutsideoutsideOutsideoutsideCLC00o/co/cCCCLCCCNAHAEcPCHANAYesYesNANA60606.2-396'-396.2-396.2-393A3A3A3A20component coolingwaterfromreactorsupportcoolingcomponent coolingwatertoreactorsupportcooling130131814CLIO813CLICala2ala2GateNAGateNAMotorNAMotorNABothNABothNAoutsideInsideOutsideInside00CCAINAAZNAYesNAYesNA60NA60NA6.2-406.2-406.2-406.2-402222containment mini-purgeexhaustResidualheatremovalpumpsuctionfromAhotlegResidualheat;removalpumpAsuctionfromsumpB13214014179707971Cap70127632786850A1813Aala2a2alalala2ala2bl,b2Butterfly Butterfly NAGateGlobeGlobeHAGateNAGateAirAirNAMotorManualManualNAMotorNAMotorBothBothNAR/GNoHoNAR/GNAR/GInsideoutsideOutsideInsideInsideInsideoutsideOutsideoutsideOutsideo/cCCCCCCCCCo/co/cC0CCCCCo/cCCCPcEcNAAZNANANAYesYesNAHoNANANANoNAHo33NANANANANANANANA6.2-416.2-416.2-416.2-426.2-426.2-426.2-426.2-436.2-436.2-4313,1415241514,25Residualheat,removalpumpBsuctionfromsumpB142850BalCLOCa21813Bbl,b2GateNAGateMotorNAMotor'/G'NAR/GoutsideoutsideOutsideCCo/c0CCAINAAZNoNA'HoNANANA6.2-446.2-446.2-44241514,25Reactorcoolantdraintankdischarge lineReactorcompartment coolingunitAReactorcompartment coolingunitBreturnBhydrogenrecombiner (pilot)Bhydrogenrecombiner (main)Containment pressuretransmitter PT947andPT948143201a201b202a202b203a1003A1003B1709G1722172147574775CLIC46364776PI-2141CLIC1076B10211%1.1084b1021381PT9471819CPT9481819Dalalalala2alala2alalala2ala2ala2ala2blb2Diaphragm Diaphragm GateDiaphragm Diaphragm

-Butterfly GateHAButterfly GateNAHADiaphragm GlobeDiaphragm GlobeNAGlobeNAGlobeAirAirManualManualAirManualManualNAManualManualNANAManualsolenoidManualsolenoid'NAManualNAManualstatusstatusNoNoStatusNoNoNANoNoNAHANoStatusNoStatusNANoNANooutsideoutsideOutsideOutsideOutsideOutsideOutsideInsideOutsideoutsideoutsideInsideOutsideOutsideoutsideOutsideoutsideOutsideOusideoutside00CLC00CC0CHACNA0NA0o/co/cC00CC0CNACNA0NA0CCCLCC0CC0CNACNA0NA0PCEcNANAFcNANANANANANANAHAEcNAPCNANANANAYesYesNANAYesHANANANANANANANAYesNAYesNANANANA6060NAHA60NANANANANANANANA3NA3NANANANA62-456.2-456.2-456.2-456.2-456.2-466.2-466.2-466.2-476.2-476.2-476.2-476.2-486'-486.2-4856.2-4856.2-4926.2-4926.2-4926.2-4922627302728286.2-101REV87/9292j.mj40i59 ICtPl' GINNA/UFSAR SIApERTURECARDTable6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

~sstemPostaccident airsamplefromDfanPostaccident airsamplefromcommonheaderPenetration No203b203c156315641565156615671568ala2a2ala2a2Valve/Isolation BoundarypoatttonValve~eDiaphragm GlobeDiaphragm Diaphragm GlobeDiaphragm ValveoperatorT~eManualManualManualManualManualManualPositionIndication InControlRoomNoHoNoNoNoNooutsideoutsideoutsideoutsideoutsideoutsideLCCLCCPositionRelativetoHormaltontatnnnnt

~eratioaTriponCZSImmediate postaccident coldshutdownPowerPailurePositionAtHANANAHANANaAlsoAvadableOnApertureCardMaximIsolation Time~(sec'ANANAUPSAR~Fire6'-506.2-506.2-506.2-506.2-506.2-50class'otes seeendoftable'urgesupplyductLoopBhotlegsamplePressuriser liquidspacesample204205206a953956B966BNAala2GlobeNeedleGlobeHAal,a2Blindflange5869NAButterfly 955,NAGlobe956Dal.Needle966Ca2GlobeNAAirairManualAirairManualAirNABothStatusNoStatusstatusNoStatusInsideoutsideInsideOutsideoutsideInsideoutsideoutsideCCC0CC0C0o/cNAPCFcNAFcFCNaEcNAYesYesNAYesYesNAYesNANANANA60NANA606.2-516.2-516.2-526.2-526.2-526.2-536.2-536'-532,29291717Steamgenerator AsamplePressuriser steamspacesampleSteamgenerator BsampleReactorcompartment.

coolingunitBreturnReactorcompartment coolingUnitAsupplyOxygenmakeuptoAsBrecombiners 206b207a207b209a209b210CLIC5735951956F966ACLIC573646354637CLIC46384758PZ-2232CLIC1080A10214Sl10214810215Sl102158ala2NAala2ala2alala2alalala2ala2NAa2NANAGateGlobeNeedleGlobeNAGlobeButterfly GateNAGateButterfly NANAGlobeGlobeGlobeGlobeGlobeairManualAirHAAirManualManualNAMannualManualNANAManualsolenoidsolenoidsolenoidsolenoidNAStatusStatusNoStatusHAStatusNoNoHANoNoNANANoStatusStatusStatusStatusInsideOutsideInsideoutsideoutsideInsideoutsideoutsideoutsideInsideoutsideoutsideoutsideInsideoutsideOutsideoutsideoutsideoutsideC0CC00CNACLCCCCCC0C0CNACLCCCCCC0C0CNACLCCCCCEcHAEcNAFcNANAHANANANANANAPCFcFCPCNAYesYesHAYesNAYesHANAHAHANANANAHAYesYesYesYesNA60NAHA60NA60NANANANANANaNANA33336.2-546.2-546.2-556.2-556.2-556.2-566.2-566.2-476.2-476.2-476.2-4662-466.2-4662-466.2-576.2-576.2-576.2-576.2-5719171926302815,282817,28Purgeexhaustductauxiliary steamsunplvtocontainment 300301NA587961516165al,a2NAala2GateGateManualManualBlindflangeNAButterfly AirNABothNoNoZnsideOutsideOutsideOutside0o/cNAPCNANANAYesNANANANANANA62-58562-5856.2-59462-5942d2929Auxiliary steamcondensate return30361526175ala2Diaphragm Diaphragm ManualManualNoNooutsideoutsideHANANAHANANA6.2-5946.2-5946.2-103REV87/92 S'I41l GINNA/UFSAR SIA,PERTURE CARDTable6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

~sszemAhydrogenrecombiner (pilot)Penetration No.304a1076A1020581ala2Valve/Isolation Boundaroposdndon'alve

~TeDiaphragm GlobeValveOperatorTQQBManualSolenoidPositionIndication InControlRoomNoStatusPositionRelativetoContainment outsideOutsideNormal~ei:asian CColdShutdownPositionAtImmediate Postaccident~

TriponCISPowerFailureHAPCNAYesMaximumIsolation Time~sea'A3AlsoAvailable OnApertureCardUESAR~Pire6.2-606.2-60NotesClass~Seeendoftable'8Ahydrogenrecombiner (main)Containment airsamplepostaccident Containment airsampleinletContainment airsamplepostaccident Containment airsamplepostaccident Containment airsampleoutFireservicewaterservicewaterfromAfancoolerMini-purge supplyInstrument airtocontainment Serviceairtocontainment servicewater'rom BfancoolerServicewatertoDfancoolerLeakagetestdepressurization 304b305a305b305c305d305e307308309310a310b3113123131084A102098115541555155615981599155715581559156015611562159615979227922946294633PZA-2033TZA-2010CLIC74457478539253937141722646304634PZA-2034TZA-2011CLIC4642464612500KPZ-2144CLICNA7444al&2ala2a2ala2ala2a2ala2a2ala2ala2alalalala2ala2ala2ala2alalalala2alalalala2ala2Diaphragm GlobeDiaphragm GlobeDiaphragm Diaphragm Diaphragm Diaphragm GlobeDiaphragm Diaphragm GlobeDiaphragm GlobeDiaphragm GatecheckButterfly GateHANANAButterfly Butterfly GlobecheckGatecheckButterfly GateHANAHAButterfly GateGlobeHANABlindflangeButterfly ManualsolenoidManualManualManualAirAirManualManualManualManualManualManualManualAirAirNAManualManualHANANAAirAirAirNAManualNAManualManualNANAHAManualManualManualHAHAHAMotorNostatusNoHoNoBothBothNoNoNoNoNoNoNoBothBothNANoNoNAHAHABothBothBothNAHoNANoNoNANANANoNoNoNANANAstatusoutsideOutsideoutsideoutsideOutsideOutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideOutsideoutsideInsideoutsideoutsideoutsideOutsideInsideOutsideInsideOutsideInsideOutsideInsideoutsideOutsideOutsideOutsideInsideoutsideoutsideoutsideOutsideInsideInsideoutsideLCCLCCLC00.0'0~CCLo",c'NA';NAC0/C0/Ci0(0.C'Lo,"')NA'NALO'(CNAC',CCo/cCNANACo/co/co/cCNANACo/cCCNACLoCNANACLoCNANACLoCCNACNAFcNANANAFcPCNANANANANANANAEcFcNANAHAHANANAEcEcFCNANANANANANANANANANANANANAHAAINAYesNAHANAYesYesNANAHAHAYesYesNANAHANANANAYesYesYesHANANANANANANANAHANANANANANAYesHANANA6060NANA.NAHA6060NANANANANANA60NANANAHANANANA',HA'ANANANA,NA'ANA6.2-606.2-606.2-61q6.2-616.2-616.2-626.2-626.2-616.2-616.2-616.2-616.2-616.2-616.2-636.2-636.2-646.2-646.2-656.2-656.2-656.2-656.2-656.2-666.2-666.2-676.2-676.2-686.2-686.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-696.2-693A3A3A3A3A3A28262726273027Qa.i2i40159-6.2-105REV87/92 0Pr'tJ104'0pC')Wa~

GINNA/UFSAR SI'PERTURECARDTable6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOIATION VALVING(Continued)

~sstemPenetration No.Valve/Baundaxar Isolation Position'alve

~TeValveOperator~rePositionZndication ZnControlRoomPositionRelativetoContainment Normalrrdaranddaann PositionAtColdshutdownImmediate Postaccident~

PowerFailureTripondreAlsoAvailabte OnApertureCardMaximumIsolation Time~aea'PSAR~F1ureclass4Notesseeendoftable'aServicewaterfromCfancoolerServicewatertoBfancoolerLeakagetestsupplyDeadweight testerServicewatertoAfancoolerservicewatertocfancoolerAsteamgenerator blowdownBsteamgenerator blowdownservicewaterfromDfancoolerDemineralized watertocontainment Hydrogenmonitorinstrumentation lineBydrogenmonitorinstrumentation linecontainment pressuretransmitters PT944,PT949,andPT950315316317318319320321322323324332a332b332c46434647PIA-2035TZA-2012CLIC46284632PZ-2138CLZCNA7443HA46274631PI-2142CLIC46414645PZ-213612500BCLIC5738CLIC5737CLIC46444648PZA-2036TZA-2013CLIC84188419922924CLOC7452cap9237456CapPT9441819GPT9491819EPT9501819Palalalala2alalala2ala2al,a2alalala2alalalala2ala2ala2alalalala2ala2alala2blb2ala2blb2ala2blb2clc2Butterfly GateNANANAButterfly GateNANABlindflangeButterfly Butterfly GateNANAButterfly GateNAGlobeHAGlobeNAGlobeNAButterfly GateNANANAGlobecheckGateGateNAGlobeNAGateNAGlobeHANAGlobeNAGlobeNAGlobeHanualManualHAHAHAManualManualNAHAHAMotorNAManualManualHAHAManualManualHAManualNAAirNAAirNAHanualManualNANANAAirHAsolenoidsolenoidNAManualHASolenoidNAManualNANAHanualNAHanualNAHanualNoNoNAHAHANoNoNANAHAStatusNANoNoNANANoNoNANoNAstatusNAstatusNANoNoNANANABothNABothBothNANoNABothNANoNANANoNANoNANoOutsideoutsideoutsideoutsideInsideoutsideoutsideoutsideZnsideInsideoutsideNAoutsideoutsideoutsideInsideoutsideoutsideoutsideoutsideInsideOutsideZnsideoutsideInsideoutsideOutsideOutsideOutsideInsideoutsideZnsideOutsideOutsideOutsideOutsideOutsideoutsideOutsideoutsideOutsideOutsideoutsideoutsideoutsideolltsideoutsideeeLoCNANACLoCNACNALoCNACLoCNACC,Loc~NANACCCCCCCCHA0NA0NA0o/cCNANACo/cCNACNAo/cCHACo/cCNACCo/cC0/CCo/cCNANACo/co/cNA0NA0NA0LoCNANACLoCHACNALoCNACCNACCLoCHAHACCCCCCNA0HA0HA0NANANANANANANANANANAAINANANANAHAHAPCNAPcNANANANANAHAPcNAPCFCNAHANAPcNANANANANANANANANANANANANANANAHANANANAYesNANANANANANANAHAHANAYesNAYesHANANANANANAYesNAYesYesHANANAYesNAHANANANANAHANANANA,NANANANANA'ANA,NA'A'ANAHANAHAHANA6060NANANANANAHA60NA33NANANA3eNAHANANANANANAHA6.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-706.2-70HA6.2-6562-656.2-656.2-656.2-656.2-656.2-656.2-656.2-656.2-716.2-716.2-726.2-726.2-656.2-656.2-6562-656.2-656.2-736.2-736.2-746.2-746.2-746.2-746.2-746.2-746.2-746.2-746.2-746.2-756.2-756.2-756.2-756.2-756.2-75NA2627302731302730271919262732.OSSA>40i59'-6.2-107REV87/92

~~C~+e~'a~~JQ\C(

.on-w~GINNA/UFSAR

~sstempenetration No.Valve/~nonndoIsolation Position'alve

~eValveoperator~pePositionZndication InControlRoomPositionRelativetoContainment Normaltd<<erntdoonn SIAPERTURECAR9PositionAtAlsoAvailable OnApertureCardcolddon<<downTriponCISImmediate

-PovePostaccident~

FailureMaximumIsolation Time~toolUFSARFiciureClass~Notesseeendoftable'able6.2-15CONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVIHG(Continued)

Hydrogenmonitorinstrumentation lineMainsteamfromAsteamgenerator 332d401921CLOC7448Cap3413A34553505A3505C35073507A3517352136153669110271102911031PS-2092PT-468PT-469PT-469APT-482EndcapsCLZCala2blb2alalalalalalalalalalalalalalalalalalala2GateNAGlobeHAGlobeGlobeGateGateGateGateSvingcheckGateGateGateGateGateGateNANANANANANAsolenoidNAManualNAManualManualMotorManualManualManualAirManualManualManualManualManualManualNANANANAHANANABothHANoNANoNoR/GNoNoNoR/GNoNoHoNoNoNoNANANANANANANAoutsideoutsideOutsideOutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideoutsideOutsideoutsideOutsideoutsideoutsideoutsideOutsideOutsideInsideoutsideOutsideInside0CCC0C00C0CCCNANANANANACCCCCCCCC0CCCCCHANANANANACCo/cCo/cCo/cCCo/cCo/cCCCNANANANANACCFCHANANANAHAAZNAHANAAINAHANANANANAHANANAHANANAYesNANANANANANoNANANANoNAHANAHANANANAHAHANANAHANA3NANANANANA'ANANANANANANANA,NA'ANANANANANANANANA6.2-746.2-746.2-746.2-746.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-766.2-7644444444444444444443218181818666663319MainsteamfromBsteamgenerator 4023412A34563504A3504C35063506A3516352036143668110211102311025PS-2093PT-478PT-479PT-483EndcapsCLIOalalalalalalalalalalalalalalalalalala2GateGlobeGateGateGateGatesvingcheckGateGateGlobeGateGateGateNANANANANAHAManualManualMotorManual,ManualManualAirManualManualManualManualManualManualNANAHANA~NAHANoNoR/GNoNoNoR/GNoNoHoNoNoNoNANANAHAHAHAoutsideoutsideoutsideOutsideoutsideOutsideOutsideOutsideoutsideoutsideOutsideOutsideOutsideOutsideOutsideoutsideOutsideOutsideInside0CCC0'C00C0CCCHANANANACICCCCCCCC0CCCCCNAHANANACCo/cCo/cCo/cCC0Co/cCCCNANANANACCNANAAINANAHAAIHANANANANANANANANANAHAHANAHAHoNANANAHoHAHANAHANANANAHANAHA'AHA=HANANANANANA'ANAHAHAHANA,HAHA'ANA'A'A'.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-776.2-77181818181866663319Feedvater linetoAsteamgenerator 40339933995X4000C40034011A4003A4099E8651CLZCalalalalalalalala2CheckGlobeCheckcheckGlobeGateGateGateHANAManualNANAManualManualManualManualNANANoNANANoNoNoNoNAoutsideoutsideoutsideOutsideoutsideOutsideoutsideOutsideInside0CCCCCCCCCCo/co/cCCCCCHAHANAHANAHANAHANANANANANAHANANANAHANAHANAHAHANAHA'ANA6.2-786.2-786.2-786.2-786.2-786.2-786.2-786.2-786.2-78343434199215140159-6.2-109REV87/92

'$aQg~4~A GINNA/UFSAR

~sstemPenetration HoValve/~BundaIsolation Position'alve

~eValveoperator~TPositionIndication ZnContzolRoomPositionRelativetoContainment NormalcSsrand'nPositionAtcoldShutdownImmediate Postaccident~

SIAPERTURECARDAisoAvailab1e OnApert(ire Cat'~.Isolation PoverTriponTimeFFS.SaraCSFUPSAR~PireTable6.2-15Class4NotesSeeendoftable'ONTAiNMENT PIPINGPENETRATIONS ANDISOLATION VALUING(Continued)

Peedvater linetoBsteamgenerator 40439923994E4000D40044012A3994X4004A8650CLZCalalalalalalalala2CheckGlobecheckCheckGlobeGateGateGateNANAManualNANAHanualManualManualHanualNANANaNANANoNaNoNoNAoutsideoutsideOutsideoutsideoutsideoutsideOutsideoutsideInside0CCCCCCCCCCCCCCCCCCCo/co/cCCCCCNANANANANANANANANANANANANANANANANANANANANANANANANANANA,6.2-78"6.2-78F6'786.2-786.2-7862-786.2-786.2-78t,6.2-78343434Personnel hatch1000NANAala2NANANANANANAInsideOutsideo/co/cNANAHANANANA3.8-31NA3.8-31NAEquipment hatch2000NANAala2NANANANAInsideoutside0/C0/CNANANA3.8-30NANA3.8-30NA'Thistvo-chazacter designator identifies thebranchlinewhichcontainsthevalve(a,b,c,d,ore)andtheisolation boundary(1or2sinceeachlinecontainstvobazriezs).

Refezstopositionimmediately folloving receiptofcontainment isolation signalandcontainment ventilation isolation signal.'Themaximumisolation timedoesnotincludedieselstarttime-norinstrument delaytime.'ReferstoclassesdefinedinSection6.2.4.4.Notesonlyusedtosupplement Section6.2.4.4.Notes(1),Penetration number2vasaddedasaresultofEWR4998tofacilitate steamgenerator maintenance activities duringreducedinventory operation.

Thispenetration isclosedbyadouble-gasketed blindflangeonbothends.Theinnermost gasketforeachflange(i.e.,gasketclosesttocontainment vali)providesacontainment barrier.Therefore, bothflangesarenecessary forcontainment integrity.

(2)Thispenetration ispzovidedvithredundant sealsandisclosedduringnormaloperation.

(3)Theendofthefueltransfertubeinsidecontainment isclosedbyadouble-gasketed blindflange,topreventleakageofspentfuelpoolvaterintothecontainment duringplantoperation.

Thisflangealsosezvesasprotection againstleakagefromthecontainment folloving aloss-of-coolant accident.

(4)Thechargingsystemisaclosedsystemoutsidecontainment (CLOC).Verification ofthisclosedsystemasacontainentisolation boundaryisaccomplished vianormalsystemoperation (2235psig).(5)Thesafetyinjection systemisaclosedsystemoutsidecontainment (CZsOC).Verification ofthisclosedsystemasacontainment isolation boundaryisaccomplished viainsezvice and/orshutdownleakagechecks.(6)Thepressuretransmitter

assembly, byitsdesign,providesacontainment pressureboundary.

Theintegrity afthisboundaryisverifiedbyannualleakagetests.(7)Thispenetration vasonlyutilizedduringinitialplantconstruction andismaintained inactive.

(8)Thecontainment spzaysystemisaclosedsystemoutsidecontainment (CLoc).verification ofthisclosedsystemasacontainment isolation boundaryisaccomplished viainservice and/orshutdovnleakagechecks.(9)Thisvalvemaybeopenedduringcontainment spraypumptestingsincetherevillalvaysbeatleastoneisolation boundarybetveenthevalveandcontainment forthedurationofthetest.(10)Manualvalves859A,859B,and859CareCZVsforbothpenetrations 105and109.(ll)Asecondisolation barrierisprovidedbythevolumecontroltankandconnecting pipingperletterfzomDEDDilanni,NRC,toR.w.Rober,RGaE,datedJanuary30,1987.Thisbarrierisnotrequiredtobetested.a9218140I596.2-111REV87/92

~'~I'Ntl~I't GINNA/UFSAR SIAPERTURECARDTable6.2-15AlsoAvailable OnApertureCardCONTAINMENT PIPINGPENETRATIONS ANDISOLATION VALVING(Continued)

()oyoneisolation b~ierispzovidedsincetherearetwoEventVcheckvalvesin'thesafetyinjection coldlegs,andtwocheckvalvesandanormallyclosedmotor-operated valveinthesafetyinjectiohotlegs.Thisconfiguzation wasacceptedbytheHRcduringthesEp(MUREG0821,section4.22.2).(13)10CFR50,AppendixJcontainment leakagetestingisnotrequiredperD.M.Crutchfield, MRC,lettertoJ.E.Maier,RGSE,datedMay6,1981.(14)MOVs18)3A,1813B,720,and701aremaintained closedatpowerwiththeirbreakerslockedoff.(15)Theresidualheatremovalsystemisaclosedsystemoutsidecontainment (cLoc).verification ofthisclosedsystemasacontainment isolation boundaryisaccomplished via'inservice and/orshutdownleakagechecks.(16)Containment isolation signalswereaddedtoAOVs200A200B,and202sinceAOV427failsopenonlossofpower.Theisolation signalforthesethreevalvesisrelayedfromAOV427.(17)Thisvalvereceivesacontainment i,solation signal;however,creditisnottakenforthisfunctionsincethevalveisinsidethemissilebarrieroroutsidethenecessary classbreakboundary.

Thezefore, thisvalveisnotsubjectto10CFR50,AppendixJleakagetesting,nozdoesitrequireamaximumisolation time.The,containment isolation signalonlyenhancesisolation capability.

(18)(19)(20)(21)(22)Thisvalveisnormallyopenatpowersinceitisrequiredduringpoweroperation orincreases thereliability ofastandbysystem.However,thisvalvecaneitherbeclosedfromthecontzolroomorlocallywhenrequired.

Themainsteam,mainfeedwater, andstandbyauxiliary feedwater penetzations takecreditforthesteamgenerator tubesasaclosedsysteminsidecontainment.

Verification ofthisclosedsystemasacontainentisolation boundaryisaccomplished vianormalpoweroperation.

Theisolation valvesoutsidecontainment forthesepenetzations arenotrequiredtobeAppendixJtested.Manualvalves547and1793arelockedclosedandleaktestedtoprovideequivalent pzotection forGDC56and57(seeUFSARSection6.2.4.4.4.1, Class3A).Operations isinstructed tomanuallycloseAOV745following acontainment isolation signaltoprovideadditional redundancy.

Thecomponent coolingwatersystempipinginsidecontainment forthispenetration isaclosedsystem(CLIC).Verification ofthisclosedsystemasacontainment isolation boundazyisaccomplished viainsezvice and/orshutdownleakagechecks.(23)Thecomponent coolingwatersystempipingoutsidecontainment forthispenetration isaclosedsystem(CLOC).Verification ofthisclosedsystemasacontainment isolation boundaryisaccomplished viainsezvice and/orshutdownleakagechecks.(24)(25)(26)(27)(28)(29)sumplinesareinoperation andfilledwithfluidfollowing anaccident; therefore, 10cFR50,AppendixJleakagetesting,isnotrequiredforthisvalve.SeeD.M.crutchfield, MRC,lettertoJ.E.Maier,RGCE,datedMay6,1981.1Thereisnosecondcontainment barrierforthisbranchline.However,Movs1813Aand1813Baremaintained closedatpowerandtestedtoAppendixJ.TheselinesarealsofilledwithwaterpostLOCA,thusproviding abarriertothezeleaseofcontainment atmosphere.

Thismanualvalveissubjecttoanannualhydrostatic leakagetestandisnotsubjectto10CFR50,AppendixJleakagetesting.ITheservicewatersystempipinginsidecontainment forthispenetration isaclosedsystem(CLIC).Verification ofthisclosedsystemasacontainment isolation boundaryisaccomplished viainservice and/orshutdownleakagechecks.Thissolenoidvalveismaintained inactiveintheclosedpositionbyremovalofitsdccontrolpower.Theflangesandassociated doublesealspzovidecontainment isolation andensurethatcontainment integrity ismaintained forallmodesofoperation abovecoldshutdown.

Duringcoldshutdownwhentheflangesareremovedthesevalvesprovideisolation forcontainment shutdownpurgeandexhaust.Thesevalvesdonotreouire10cFR50,AppendixJleakagetesting,noramaximumisolation time.(30)Theservicewatersystemoperatesat,ahigherpressurethanthecontainentaccidentpressureandismissileprotected insidecontainment.

Therefore, thismanualvalveislusedforflowcontrolonlyandisnotsubjectto10CFR50,AppendixJleakagetesting.SeeletterfromJ.E.Maier,RGCE,toD.M.Crutchfield, MRC,datedAugust30,1982.(31)Thispenetration isdecommissioned andweldedshut.(32)Acceptable isolation capability isprovidedfortheseinstrument linesbytwoisolation boundaries outsidecontainment.

Oneoftheboundaries outsidecontainment isaSeismicCategozyIclosedsystemwhichissubjected toTypeCleakagetestingunder10CFR50,AppendixJ.(33)TheseendcapsincludethosefoundonthesensinglinesforpS-2092,pT-468,FT-469,PT-469A,andPT-482(penetration 401)andPs-2093,pT-479,andpT-483(Penetration 402).(34)Thischeckvalvecanbeopenwhencontainment isolation isrequiredinordertoprovidenecessary feedwatez orauxiliazy feedwater tothesteamgenerators.

Thecheckvalvewillcloseoncefeedwater isisolatedtotheafiectedsteamgeneratoz.

92123.40l.S:96.2-113REV87/92

.0JtJ[

TESTCONNECTION IBITESTCONNECTION tDOUBLE-GASKETED BLINDFLANGENO.2,.SPENTFUELPITDOUBLE~KETED BLINDFLANGENO.29ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-13S/GInspection/Maintenance, Penetration Vio.2FuelTransferTube,PenetrationiVo.

29REV612/90

RCSCHARGINGLINEPENEHM.TION 100IO!!!I!IIII!!CIyP100K'OBORSY/JNOTEDESCRIPTION ontanment Basement(Regenerative HxArea)Auxiliary BldgBasement(RWSTArea)LRMshouldbelocatedinContainment Basement(Regenerative HxArea)PTT-23.8Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-14ReactorCoolantSystemChargingLinePenetration 100azv87/92 SITOLOOPASITOLOOP8andSITESTLINEPENETRATIONS 101110band113022CLLLgsgI0210'llmalIP11312404TC/Jo4<Ia72AIILJ21ABLcILIarlrrIoa0/JTC/J2010SlPVLLPCa1a1IIllalalTO201P101CVIaaaa12401Ca}cwTO200LCa21L'pr023LCP110b(12alaera2$LOII10/J0/JLTOw1n"a2Qh02a028UNENOTEDESCRIPTION Containment nearBStairwayAuxiliary BldgBasementSlPumpAreaLRMshouldbelocatedinAuxBldgBasementROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANT.UPDATEDFINALSAFETYANALYSISREPORTFigure6.2-15~SafetyInjection SystemPenetrations 101,110b,and113PTT'-23.19 Revision1tv87/92 ALTERNATE CHARGINGLINEPENETRATION 102D22122)8IICIYP102383B!I2227TC/JRg525f.)V/JNOTEDESCRIPTION Containment Basement(Regenerative HxArea)Auxiliary BldgBasement(OutsideRWSTArea)LRMshouldbelocatedinContainment Basement(Regenerative HxArea),ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARF'OWERPLANlUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-16Alternate ChargingLinePenetration 102PTl-23.10Revision1REV87/92 CONSTRUCTION FIRESERVICEWATERPENETRATION 1038!ZWELOEDCAPCIB53805$29ATC/JLC(CAP)Y/J5129CONSTRUCTION ClVFlRESERVICEWATERCONNECTIONS NOTEDESCRIPTION Containment Basement(Regenerative HxArea)Auxiliary Bldg(RWSTArea)(1)LRMshouldbelocatedinAuxiliary BldgBasementnearRWSTROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANAIYSISREPORTFigure6.2-17Construction FireServiceWaterPenetration 103Pal=23.49 Revision1REV87/92

"A"CONTAINMENT SPRAYHEADERPENETRATION 105!IIQ3[5!eros!!!!!IFROMPENElRATION 109869ACIVPI7285eCIVTESTIjNETORWSTY/J8&DABLCMS8&DBBLC~NQR11621NOTEDESCRIPTION Containment BasementnearRHXAuxiliary BldgBasement(BehindRWS1)LRMshouldbelocatedinAuxiliary BldgBasementnearCSPumpsROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-18Containment SprayHeaderAPenetration 105PTT-23.18A Revision1REV87/92 "A"RCPSEALWATERLINEPENETRATION 106Fl1298B298AOI93039304CIVP10880ll!TC/J!!!I300A300B2224V/J301BFl1301A303A303Ccg277ALC275NOTE(2)DESCRIPTlON Containment Basement(Regenerative HxArea)Auxiliary BldgBasement(RWSTArea)LRMshouldbelocatedinContainment BasementnearRegenerative HxOperatedwithReachRodsbytheCSPumpsLocated20ftabovethefloorbehindRWSTAreaPTT-23.9A Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-19ReactorCoolantPumpASealWaterLinePenetration 106aZV87/92

SUMP"A"DISCHARGE PENETRATION 107TC/J1002100351003610106II..g)B82m)Pc8IFCP1071I17251072FCCIV1723D/JV/J10012100060I1759175717601758S10023SUMPAPUMPSSAMPIEPUMPNOTEDESCRIPTION CNMTBasementBStairwayAreaAuxiliary BldgBasementFanCoolerAreaLRMshouldbelocatedinContainment Basement(8StairwayArea)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-20SumpADischarge Penetration 107Pal=23.23 Revision1azv87/92 0

RCPSEALWATERRETURN&EXCESSLETDOWNPENETRATION 108FROMREACTORCOOLANTPUMPSEALSTC/J2213Ig(3314o!PzVtMBOMB117Pl118318AOMBIMB322A2214311eLo2212FROMLETOOVeEXCESSHEATEXCHANGER P1O8)IIIIII,ctv313FILTER315CSEALRETURNFtLTERV/J38583828385AFROM~(ItREACTORcootANTPUMPSEALSFROM~AoREACTORCoolANTPUMPSEALSNOTEDESCRIPTION Containment RHXAreaAuxiliary BldgBasement(RWSTArea)(1)LRMshouldbelocatedinContainment BasementnearRHX(2)Onstairwell nexttoAOV-386(3)LocatedinRegenerative HxArea(4)OperatedfromoutsidetheSealReturnFilterRoomwithreachrodsPTT-23.11 Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-21ReactorCoolantPumpSealHaterReturnandExcessLetdownPenetration 108REV87/92

'IIWl~

"B"CONTAINMENT SPRAYHEADERPENETRATION 109Pl552830LCCIVFROMPENETRATION 10585QCCIV8648LCCIV116202825ATESTLINETORWST2825MSP109i~(IIIIPl778698CIV2826CIV2826ACIVPITC/J860BLCM8600BLC~~5~hxo~W~lOgDQuClCPoTC/J2859NOTEDESCRIPTION Containment Basement(RHXArea)Auxiliary Bldg(RWSTArea)LRMshouldbelocatedinAuxiliary BldgnearCSPumpsROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-22Containment SprayHeaderBPenetration 109Pal=23.18B Revision1aVr87/92

"B"RCPSEALWATERLINEPENETRATION 110a303C5277ALCCOOIP110a304BI93012753018301A9302V/JTC/JNOTEDESCRIPTlON Containment Basement(Regenerative HxArea)Auxiliary BldgBasement(RWSTArea)OperatedwithReachRodsbytheCSPumpsLocated20ftabovetheIloorbehindRWSTArea(2)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-23ReactorCoolantPumpBSealWaterLinePenetration 110aREV87/92PTT-23.98 Revision1LRMshouldbelocatedinContainment BasementnearRegenerative Hx RESIDUALHEATREMOVALTOBCOLDLEGPENETRATION 111(PENETRATION

<4D)RESIDVALHEATREMOVALLOOPOUTlETVALVEI(PENETRATION 112)UNEINSTALLED BLANK7198718ASAMPlZSYSTEMFCT958721BLQ2748702SSMLl852A8528BU'LCTOREACTORVESSEL627P111!2TEO2780A51"!!~I0~5ES88Isolation from33013-1247, Revision19ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigurel).2-24ResidualHeatRemovaltoLoopBColdLegPenetration 111REV87/92 LETDOWNLINEFROMREACTORCOOLANTSYSTEMPENETRATION 112RLOOPrIIImiI5454278AREA7Iv////////////////HX/TTCC/2IIIIIIIo/4IIIFROMRHRSTETEMeeIIII0gTOPREESUIRZER REUEFTAHXRHRFENCEI0/iI2000I(CTV2'V/J669$STIONI'IlawsrIr---1IFCI~TT2I21IIIILCyII+II22ETIIII0/JILJIIIIIo>>)LJgCIVIIHRHXRME64~I1~)IICNI2I-5IIgRIIIIIIIIIIlg~~JI>>QIlhnNOTE(4)DESCRIPTION Containment Basement(Regenerative HxArea)Auxiliary BldgBasement(RWSTArea)LRMshouldbelocatedinContainment BasementRegenerative HxAreaLocatedonMidFloornearSquareComerLocatedinBLoopareaatbaseofladdertoRCPPlatformLocatedAuxiliary BldgBasementnesrBCSPumpPTT-23.6Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-25LetdownLinefromReactorCoolantSystemPenetration 112REV87/92 STANDBYAUXILlARY FEEDWATER TOSTEAMGENERATOR APENETRATION I'I9AND123bILO4J'X4JIlAOITC9719AIlsuss726Sl09706Ag705AP119LOI97279723CIVCIVQ9702A9704ABLCFROMSTANDBYAUXIUARYFEEDWATER PUMPCIOOIlAOITC9706BLO9719B0705BP123b9724CIVCIVMLC0725CIV'LJD9702B97~BLOBLCFROllSTANDBYAUXLJARYFEEDWATER PUMPD9722BIsolation from33013-1238, Revision8ROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINAI.SAFETYANALYSISREPORTFigure6.2-26StandbyAuxiliary Feedwater toSteamGenerator APenetrations 119and123bREV87/92

NITROGENTOACCUMULATORS PENETRATION 120ao58625TC/JI~"~i9S6278626Pl6278621VENTOEPOIUl~CC~OVl&4JgCC~0w>Oge9~so:OQI0624CIVP120a8&23IITC/JICtV8462831V/J862S944S628gNOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary BldgMidRoor(SFPHx)LRMshouldbelocatedinContainment MidFloor(SquareComer)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-27NitrogentoAccumulators Penetration 120aPl%-23.46 Revision1azV87/92 PRTGASANALYZERPENETRATION 120bTOCONTAINMENT VENTHEADERhC4LdLUCLlL4Jt4IKMVl4lCLO527jc538P)20bCIV546493,CIV539FC492hlaNOITC/J-..NOTE(2)DESCRIPTION Containment MidFloor(SquareCorner)Auxiliary BldgMidFloor(SFPHx)LRMshouldbelocatedintheAuxiliary BldgMidFloornearSFPHXDownstream ventpointPTT-23.1Revision1ROCHESTER GASANDELECTRICCORPORATION H.h.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-28Pressurizer ReliefTankGasAnalyzerPenetration 120bSzv87/92 PRTMAKEUPWATERPENETRATION 121aO'J4~cg~9307EL~o~I568CIV529LJTC/J567Igh!m497!P121o!49S!,0/JCIV508FCOle~VO.CIx5TC/J576NOTE(3)(4)DESCRIPTION Containment (SquareCorner)Auxiliary BldgMidFloor(SFPHx)LFIMshouldbelocatedintheContainment SquareComerArea3/4'ipeconnection Located10ftabovethefloor,adjacenttomissilebarrierLocated15ftabovethefloorPTT-23.3Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-29Pressurizer ReliefTankMakeupNaterPenetration 121aREV87/92 PRTNPENETRATlON 121bbC4lal0I545496CF52B495494P121b!gy!547!.ci.!IV/J4411662CLILolCI'KNOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary Bldg.MidFloor(SFPHx)LRMshouldbelocatedinContainment intheSquareCornerROCHESTER GASANDELECTRICCORPORATION R.F-GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-30Pressurizer ReliefTankN2Penetration 121bPTT-23.2Revision1REV87/92 CONTAINMENT PRESSURETRANSMITTERS PT-946ANDPT-946PENETRATION 121cGIBPT946V/Jv/sCIV1819ACIV1819BOPENPIPETC/aP121c1818A18188NOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary BldgMidFloor(SFPHx)(1)LRMshouldbelocatedinContainment Mid'Floor intheSquareComerP1T-23.17A Revision1ROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-31Containment PressureTransmitters PT-945andPT-946Penetration 12lctv87/92 lgK RCDTTOGASANALYZERPENETRATlON 123a10041717AClX1655FCCIV17891709F1020FCsT1600A5OITC/JNOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary BldgMidFloor(SFPHx)(1)LRMshouldbelocatedintheAuxBldgMidFloornearSFPHx.(2)Downstream ventpointPTT-23.21 Revision1ROCHESTER GASANDELECTRICCORPORATION

'.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-32ReactorCoolantDrainTanktoGasAnalyzerPenetration 123aazV87/92 CCWTOFROMEXCESSLETDOWNHXPENETRATlON 124aand124coa.auhghOuS>os-vlo3<~ov)742Bgg~M>oSQocgoFCclv7452727P124ciI=l:I;II/I-I'XCESSLETDOWNHEATEXCHANCER (IAov/II'TC/J2776742CIIREACTORcooLANTIIIIIiol3IIHIIII744IIIRHRFENCEII743AIIIIPI24]2725l~v/JIIlKooIKW'XoXooXo40nv/JNOTEDESCRIPTION Containment MidFloor("B"Stairway)

Auxiliary BldgMidFloor(RWST)LRMshouldbelocatedincontainment basementnear"B'tairway CVinternals havebeenpermanently removedPTT-23.30 Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-33Component CoolingWatertoandfromExcessLetdownHeatExchanger Penetrations 124aand124cREV87/92

CONTAINMENT POSTACCIDENTAIRSAMPLECFANPENETFIATION 124band124dII..TC/J124b124dIgwzTC/JZ+>IIX<oLCCIV15691570CIYLCCIY1572LCCIV1571LCCIV1574Y/JI~xOIMIIXIDOCPIY/JNOTEDESCRIPTION Containment MidFloor(BStairway)

Auxiliary BldgMidFloor(RWSTArea)(1)LRMshouldbelocatedinContainment MidFloornearBStairwayPTT-23.50C Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-34Containment Postaccident AirSample(CFan)Penetrations 124band124dazv87/92 CCWFROMBRCPPENETRATlON 12675487568FlCCW1FROMIKACTORCOOLANTPULIP187578765A-12305B765BoimI!1LlP125CIV75082731762Bcp~I0gAau@O8OI758BNOTEDESCRIPTION Containment MidFloor(BStairway)

Auxiliary Bldg.MidFloor(RWST)(1)LRMshouldbelocatedintheContainment MidFloornear'B'tairway PTT-23.29 Revision1ROCHESTER GASANDELECTRICCORPORATION R.KGINNANUCLEAR"POWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-35Component CoolingWaterfromReactorCoolantPump1BPenetration 125REV87/92

&tbsp1" CCWFROMARCPPENETRATION 126FO765DII7$6ACCWFlFROMREACTOR61COOLANTPUilP1A757A12308BITC/JiMP126CIV1)759A2729IC'X702AI0ugCPXOVOO75BANOTEDESCRIPTION Containment MidFloor(BStairway)

Auxiliary Bldg.MidFloor(RWST)(1)LRMshouldbelocatedintheContainment BasementneartheRxComptCoolersPTT-23.28 Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-36Component CoolingWaterfromReactorCoolantPump1APenetration 126REV87/92 COMPONENT COOLINGWATERTOREACTORCOOLANTPUMP1APENETRATION 127N$132723MOOXIOO.5>cczo~"80N0.749B2732NxLJzOaI742AVWaL0ÃoI7$1A761r75DCCIYP127i750ATC/JN740A27612730tc/J0/JN~>gzg)e617BLOQcoR~~NOTEDESCRIPTION Containment MidFloor(BStairway)

Auxiliary Bldg.MidFloor(RWST)LRMshouldbelocatedinContainment BasementnearRxComptCoolersandAuxiliary Bldg.MidFloornearRWSTPTT-23.26 Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-37Component CoolingMatertoReactorCoolantPumplAPenetration 127REV87/92

CCWTO"8'CPPENETRATION 128I,;lhy/SZI$13a5IOg,g>a8MP07Mo~85aHI742AUpOAa7511761E75QDCNP1Zg]7608IICIVg740BTC/JP/J$8le8glu.Q8NOTEDESCRIPTION Containment MidFloor(BStairway)

Auxiliary BldgMidFloor(RWST)LRMshouldbelocatedinContainment nearthe'B'tairway andAuxiliary BldgMidFloornearRWSTPTT-23.27 Revision1ROCHESTER GASANDELECTRICCORPORATION H.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-38Component CoolingWatertoReactorCoolantPumpBPenetration 128azV87/92 RCDTGASHEADERPENETRATION 129FCFCCIY1787CIV178616751676BY/J!!!0O'ISA1016IL40KWTC/JClYY/J101416Oa2NOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary BldgMidFloor(BehindSFPHx)LRMshouldbelocatedinAuxiliary BldgMidFloor(BehindSFPHx)Disconnect tubingfordownstream ventPTT-23.20 Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWEHPLA'NTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-39ReactorCoolantDrainTankGasHeaderPenetration 129REV87/92 CCWFROM0RXSUPPORTCLRSPENETRATION 130and131QwQ-s.E8815AY/JCY8thII3I"I"~(8P130I~818I0/JI))5eIlgO)Io)~5s-IoE)~IHICHIYENTSTC/JTC/J1734,1733SUPPLYfROQCOMPONENT COOUNQWATERPUMPS817MBLOREACTORSUPPORTCOOLERSP131i815I271g1723IiD/JY/JINOTEDESCRIPTION nta1nment MlFoor("B"talrway)Auxiliary BldgMidFloor(BehindRWST)(1)LRMshouldbelocatedinContainment MidFloornearthe'B'tairway PTT-23.24 Revision1ROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-40Component CoolingHaterfromandtoReactorSupportCoolersPenetrations 130and131REV87/92 MINIPURGEEXHAUSTPENETRATION 132ILalKCPC)CCFCCIV7970r-!98'CIS!P)52!79710ITC/JFCTm~CIV7971PgaKCINOTEDESCRIPTION Containment MidFloor(SquareComer)Auxiliary BldgMidFloor(BehindSFPHx)LRMshouldbelocatedinAuxiliary BldgMidFloornearSFPHx.OpenpipewithdebrisscreenROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-41Mini-Purge ExhaustPenetration 132PTT-23.34 Revision1REV87/92 RESIDUALHEATREMOVALFROMAHOTLEGPENETRATION 140252REFUEUNOWATERSTQRAGETANK5g~MX27d5P140701nssCNI!'-00PENETRATION 111)$54TORESIDUALHEATREMOVALSYSTEMIsolation from33013-1247Revision19ROCHESTER GAS'NDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-42ResidualHeatRemovalfromLoopAHotLegPenetration 140REV87/92 SUMP"B"TO"A"RCDTPUMPPENETRATloN 1a1TORCDTPUMPSREFUEUN0WATERSTQRACETANK(CASEDSmrZM)851ACOBLOMC~I!I1813CCV$8$8ABLD1818DY/JTC/J705C850ABLC!R!i5PNOTE'DESCRIPTION CNMTSumpBAuxiliary BldgBasementLRMshouldbelocatedinAuxiliary BldgBasement(connected inRHRSubBasement)

P1T-23.5A Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-43SumpBtoReactorCoolantDrainTankPumpAPenetration 141aZV87/92 SUMP"B"TO"B"RCDTPUMPPENETRATlON

't42REFVEUNOWATERSTORAGETANK(CLOSEDSmrZM)BLOM85181818FCIV18158BLDM705D850BTC/J8LC~7048!~s~III48iP1818KY/JTORCDTPUMPSNOTEDESCRIPTION CNMTSumpBAuxiliary BldgBasementLRMshouldbelocatedinAuxiliary BldgBasement(connected inRHRSubBasement)

PTT-23.5B Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-44SumpBtoReactorCoolantDrainTankPumpBPenetration 142REV87/92 IA"+Pe\-0 RCDTDISCHARGE PENETRATION 143Pl01179SGLCFROMFUELLCTRANSFERCANALDRAINSCIY1722FCCIY100$A172@A1726CONTAINMENT SUMPIIIs-IgIoI8~~CI0IceoI~IoLS43IIITC/JIII1IP145)ICIV1721I17090IFCCIV10058RCDTPUMPS1725APl011811A172718118NOTEDESCRIPTION Containment SumpBAuxiliary BldgSubBasementLRMshouldbelocatedatentrancetoContainment SumpBPUT-23.22 Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGlluNA'NUCLEAR POWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-45ReactorCoolantDrainTankDischarge Penetration 143REV87/92 REACTORCOMPARTMENT COOLINGUNITASUPPLYANDRETURNPENETRATIONS 201aAND209btOIOCIV4757Imlg!!!!47940P201aREACTOR,COMPARTLtENT

[COOmR)A!lII!I!CIS4590CIV4758S4BSA5IIsolation from33013-1250-3Revision7ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-46ReactorCompartment CoolingUnitASupplyandReturnPenetrations 201aand209bREV87/92 REACTORCOMPARTMENT COOLINGUNITBSUPPLYANDRETURNPENETRATIONS 201bAND209alsl.Inl5.Ig)4OCIBPlNXOcv4BJ54837ACLICP20$bREACTORCOMPARTMENT

$BICIY4778CI4778A5CIIsolation from33013-1250-3 Revision7ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-47ReactorCompartment CoolingUnitBSupplyandReturnPenetrations 201band209aREV87/92 BHYDROGENRECOMBINER AINANDPILOPENETRATION 202aand202b)ILI-a'IRi""ILcP202b1076Bc)v1075BTc/JScN10211$1V/J102'11$10203$1Ia,Im)O10203SQP)a10204SIo5)5O~o3>waLoP202a84261084Bc)v1063B.c/.I5CIV1021351V/J102'l3$10204S1NOTEDESCRIPTION Containment MidFloor(above"AAccumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinContainment MidFloorabove"A"Accumulator (2)LocatedinIntermediate BldgBasementoutsideHotShopPTT-23.51B Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNaNUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6,2-48HydrogenRecombiner B(MainandPilot)Penetrations 202aand202bREV87/92 CONTAINMENT PRESSURETRANSMITTERS PT-947ANDPT+48PENETRATION 203aCIBCIBY/JY/JCIV1819CCIV1819DTC/JDPENP)PEP205a1818C1818DNOTEDESCRIPTION Containment MidFloor(Above"ASlAccumulator)

Intermediate Bldg.(SampleShed)(1)LRMshouldbelocatedinContainment MidFloorabove"A"SlAccumulator PT1=23.17B Revision1ROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANT'PDATED FINALSAFETYANALYSISREPORTFigure6.2-49Containment PressureTransmitters PT-947andPT-948Penetration 203aREV87/92

CONTAINMENT POSTACCIDENTAIRSAMPLEFANPENETRATION 203band203co>TC/V4oCC~P205o!!!t!IKQP2MbCIV15051584CVCIV1565CIVOV1560~15001587CIVV/J8IV/JNOTEDESCRIPTION Containment MidFloor(aboveAAccumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinContainment MidFloorabove'A"Accumulator PTT-23.50B Revision1ROCHESTER GASAND'LECTRIC CORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-50Containment Postaccident AirSamp1e(FanD)Penetrations 203band203cREV87/92 PURGESUPPLYPENETRATION 204TC/Jo[gP204FC~COTCIV(BLINDFLANGE)IIIIPl8074K8074V/JNOTEDESCRIPTION Containment MidFloor(behind"A'ccumulator)

Intermediate BldgBasement(nearControlled AccessFans)LRMshouldbelocatedinContainment MidFloorbehind'A'ccumulator ROCHESTER GASANDELECTRICCORPORATION H.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-51PurgeSupplyPenetration 204PTT-23.35.1 Revision1azv87/92

~QMI RCSLOOPBHOTLEGSAMPLEPENETRATlON 205FROllRCSLOOPB-HOTDELAYh!L'mljP205IMn10M'27COITC/JY/JFROMRCSLOOPA-HOTNOTEDESCRIPTION Containment MidFloor(Above'A"Accumulator)

Intermediate Bldg(SampleShed)LRMshouldbelocatedinIntermediate BldgnearSampleShedPTT-23.12C Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPovlERPLANT'UPDATEDFINALSAFETYANALYSISREPORTFigure6.2-52ReactorCoolantSystemLoopBHotLegSamplePenetration 205RVr87/92 PRESSURIZER LIQUIDSAMPLEPENETRATION 206a10001FC9g1P206a958KCN9668927O95SHSSQDTC/JV/JY/JNOTEDESCRIPTION Containment MidFloor(above"A"Accumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinContainment MidFloorabove"A"Accumulator ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-53Pressurizer LiquidSamplePenetration 206aPTT-23.12B Revision1aEv87/92 "A"STEAMGENERATOR SAMPLEPENETRATION 206b0NXTOAS/G8LOWDOWN5748A5781IIy/J5711IIw5769D3LdIP206bFCsu,5785y/J5749IaQgx0>~5Oa5105TC/JNOTEDESCRIPTION Containment MidFloor(above"A"Accumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinIntermediate Bldg(SampleShed)(2)LocatedonS/GPlatformROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-54SteamGenerator ASamplePenetration 206bPTT-23.13A Revision1REV87/92 PRESSURIZER STEAMSAMPLEPENETRATION 207aI40gFC9510Ig!g51~8958FTC/JIY/J958G999EY/J10000921ANOTEDESCRIPTION Containment MidFloor(above"A"Accumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinContainment MidF!oorabove'A'ccumulator.

ROCHESTER GASANDELECTRICCORPORATION R.E.GINhlANUCLEAR'POVVER PL'ANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-55Pressurizer SteamSamplePenetration 207aPTI-23.12ARevision1REV87/92 "8'TEAMGENERATOR SAMPLEPENETRATlON 207bIII;Is~soE8!II5786y/JTOSSG5754570eTC/JNOTEDESCRIPTION Containment MidFloor(above"A"Accumulator)

Intermediate Bldg(SampleShed)LRMshouldbelocatedinIntermediate Bldg(SampleShed)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-56SteamGenerator BSamplePenetration 207bPTT-23.13B Revision1REV87/92 "A"AND"B"HYDROGENRECOMBINER OXYGENMAKEUPPENETRATION 2101079~Og&m/~~La31:1080ACIV10214S1CIYSTST10214SST55Clg10215S110215SCIYNOTEDESCRIPTION Containment MidFloor(Above"A"Accumulator)

Intermediate Bldg(SampleShed)(1)LRMshouldbelocatedinContainment MidFloorAbove"A'ccumulator (2)SpoolpieceslocatedinIntermediate BldgBasementbelowSampleShedPTT-23.51C Revision1ROCHESTER GASANDELECTRICCORPORATlON R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-57HydrogenRecombiner AandBOxygenMakeupPenetration 210REV87/92 PURGEEXHAUSTPENETRATtON 300I.!mmy~~~!y.$NAI!I'!NP300CIB!(euwnru~eE)PI55v/vAIRSUPPLYNOTEDESCRIPTION Containment TopFloor(Mezzanine)

Intermediate Bldg.(floorabovesteamheader)(1)LFIMshoUldbelocatedinContainment onTopFloorMezzanine (2)Intermediate BldgTopFloorROCHESTER GASANDELECTRICCORPORATION R.E.GINrIANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-58PurgeExhaustPenetration 300PTT-23.36.1 Revision1BEV87/92 AUXSTEAMSUPPLYANDAUXSTEAMCNDSTRETURNPENETRATIONS 301AND303.IgQ)crILCSTEAMFROMHOUSEHEATINCBOILER70507941TC/JSTRAINERSPACEHEATERS975PM1CIY6151I7040III'5O5~car6175CIY61657944CIV6152D/JY/J7945V/JT4J7946mgO~W~OXONOTEDESCRIPTION Containment MidFloor('A"FanArea)Intermediate Bldg(TDAFWPArea)(1)LRMshouldbelocatedinIntermediate Bldg(TDAFWPArea)(2)V-7941isinoverheadabove'A"ChillerUnitPTT-23.40 Revision1ROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-59Auxiliary SteamSupplyandCondensate ReturnPenetrations 301and303aZV87/92 AHYDROGENRECOMBINER AINANDPILOPENETRATION 304aand304bKIcL'~f+lalQQMIDI$08gCLIB~laLCS107~CIVCIV10205S11075A10205S10207S1TC/Jv/JoOIYOI10207S10202SXIS10202S110%ACIV10209S1L10209STC/Jv/JNOTEDESCRIPTION Containment MidFloor("ARecircFanArea)Intermediate Bldg(TDAFWPumpArea)(1)LRMshouldbelocatedinContainment MidFloor'A'ecircFanArea(2)LocatedinIntermediate BldgBasementoutsideHotShopPTT-23.51A Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-60HydrogenRecombiner A(MainandPilot)Penetrations 304aand304baVr87/92 CONTAINMENT POSTACCIDENTAIRSAMPLEPENETRATION 305a305cand305dFROM8FANClV1555CV1555Y/JFROMAFANCIV1557IY/JgTC/JP305dLCCOMMONRElURN156OCIV1552CIV1551Y/JNOTEDESCRIPTION Containment MidFloor(A"RecircFanArea)Intermediate Bldg(TDAFWPumpArea)(1)LRMshouldbelocatedinContainment MidFloornear'A"RecircFanAreaPl%-23.50A Revision1ROCHESTER GASANDELECTRICCORPORATION R.EGiNNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-61Containment Postaccident AirSamplePenetrations 305a,305c,and305dREV87/92 CONTAINMENT AIRSAMPLEETURNPENETRATION 305b10010FROMPOSTACCIDENTSAMPUNOSYSTEMOPENPIPETC/JPM5b~y159915S8FROMRADIATION MONITORS1599ANOTEDESCRIPTION Containment MidFloor('A'ecirc FanArea)Intermediate Bldg(TDAFWPArea)(1)LRMshouldbelocatedinContainment MidFloornear"A'ecircFan,(2)MainSteamHeaderAdjacenttoContainment WallROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPGMiERF'LANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-62Containment AirSample(Return)Penetration 305bPTT-23.14 Revision1REV87/92 CONTAINMENT AIRSAMPLEOUTLETPENETRATION 306e!IlOPENPIPEtc/a!cy1596FCCIV159710009P0Sr/ACCInm SAMPUNQSYSTEM05OC)Cl15Mv/aNOTEDESCRIPTION Containment MidFloor("A"RecircFanArea)Intermediate Bldg(TDAFWPumpArea)(1)LRMshouldbelocatedinContainment MidFloornear"A'ecircFan.(2)LocatedonMainSteamHeaderFloorROCHESTER GASANDELECTRICCORPORATION R.F-GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-63Containment AirSampleOutletPenetration 305ePTT-23.15 Revision1tv87/92 FIRESERVICEWATERPENIS'RATION 307KCCXQ3~TC/J9231ClY9229!!Ig8!gmP507!~ygQ9nSTC/JNOTEDESCRIPTION Containment MidFloor("A"FanArea)Intermediate Bldg(TDAFWPArea)(1)LRMshouldbelocatedinContainment MidFloor"A"FanAreaROCHESTER GASANDELECTRICCORPORATION R.E.'GINNANUCLEARPOWERPLANTUPDATEDP!NALSAFETYANALYSISREPORTFigure6.2-64FireServiceNaterPenetration 307PTT-23.52 Revision1REV87/92 SERVICEWATERFORCONTAINMENT FANCOOLERSPENETRATIONS 308311312315316319320323fj5((av)I462746260464146425sgO0QP319III.IIIIIII(0904631451445I54513451d(CIV)12500H125006(as)2142Pl2'13621562144(as)2034452264524645926(312)04522A4524A4592A4594A4655465d46594524466045924594P306(0N)311)46333154634323I46414630tI464412502012502R12502T012502U~20!0~201120122013Isolation from33013-1250-3, Revision7ROCHESTER GASANDELECTRICCORPORATION

,R.FGINNANUCLEA'O'Po'PER PLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-65ServiceWaterforContainment FanCoolers,Penetrations 308,311,312,315,316,319,320,and323REV87/92 MINlPURGESUPPLYPENETRATlON 309TC/JLCFROLIIIIN748OSUPPLYFANCIVPSOQv~n(BVNDFLANCEONINTERMEDIATE BUILDINGROOFILRTVENT)STANDBY7481CONNECTION NOTEDESCRIPTION Containment MidFloor("A"RecircFanArea)Intermediate Bldg(TDAFWPumpArea)(1)LRMshouldbelocatedinIntremediate BldgnearTDAFWPump.(2)LocatedinIntermediate Bldg.aboveSteamHeader(3)OpenpipewithdebrisscreenROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-66Mini-Purge SupplyPenetration 309P1T-23A4Revision1tv87/92 INSTRVMENT AIRPENETRATION 310agZg~g141007045CYMQS96MQ5TC/J!!IgFCP$50a1tHQ25450A54505450SNOTEDESCRIPTION Containment MidFloor("A"FanArea)Intermediate Bldg(TDAFWPArea)(1)LRMshouldbelocatedinContainment MidFloor'A'anArea(2)N,Bottleconnection pointROCHESTER GASANDELECTRICCORPORATION R.FGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-67Instrument AirPenetration 310aPTT-23.33 Revision1REV87/92 SERVICEAIRPENETRATION 310blalfJQ~CP4l~>i~XQ~COO~7227ll=IS~yP310b7225CV7141V/J714'TC/JTC/JNOTEDESCRIPTION Containment MidFloor("AFanArea)Intermediate Bldg(TDAFWPumpArea)LRMshouldbelocatedinContainment MidFloornear'A'an,andIntermediate BldgnearTDAFWPump(2)Locatedapproximately 10ftabovefloorROCHESTER GASANDELECTRICCORPORATION R.E.GiNNANUCLEARPONERPLANTUPDATEDFINALSAFETYANALYSISREPORTPTI-23.32Revision1Figure6.2-68ServiceAirPenetration 310baZV87/92 0

LEAKAGETESTDEPRESSURIZATION PENETRATION 313BLINDFLANGEClYTC/J7ClY7478V/JNOTEDESCRIPTION Containment MidFloor('A'ecirc FanArea)Intermediate Bldg.(TDAFWPArea)LRMshouldbelocatedinIntermediate Bldg.nearTDAFWPIntermediate Bldg.RoofadjacenttoCNMTDomeplatformDoor54,Capremoval/replace shouldbedonewhenvalveispositioned.

ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTPTl-23.42Revision1Figure6.2-69LeakageTestDepressurization Penetration 313aVr87/92

LEAKAGETESTSUPPLYPENETRATION 317!Ig.I.i5IQFLANcE8IIICyP3$7!!!1744$74737475Y/JNOTEDESCRIPTlON Containment MidFloor(ARecircFanArea)Intermediate Bldg.(TDAFWPArea)(1)LRMshouldbelocatedinIntermediate Bldg.nearTDAFWPROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-70LeakageTestSupplyPenetration 317PTT-23.43 Revision1azv87/92 "A"STEAMGENERATOR BLOWDOWNPENETRATlON 321'I!Ilmg<<!eglmCW570$28e45705AV/JNOTEDESCRIPTION Containment MidFloor(above"A"Accumulator)

Intermediate Bldg(TDAFWPArea)LRMshouldbelocatedinIntermediate Bldg(TDAFWPArea)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-71SteamGenerator ABlowdownPenetration 321PTT-23.16A Revision1REV87l92 "B"STEAMGENERATOR BLOWDOWNPENETRATION 322IIIg~!aax!IQIdp82257029h5VO5!!I5768Av/~NOTEDESCRIPTION Containment MidFloor(above'A'ccumulator)

Intermediate Bldg(TOAFWPArea)(1)LRMshouldbelocatedinIntermediate Bldg(TDAFWPArea)ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-72SteamGenerator BBlowdownPenetration 322PIT-23.168 Revision1aVr87/92 DEMINERALIZED WATERPENETRATION 324yB%!g!!!!TC/Jtv/zgh502$~crNL'OTEDESCRIPTION Containment MidFloor(AFanArea)Intermediate Bldg(TDAFWPArea)LRMshouldbelocatedinContainment MidF!oor'A'anAreaROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-73Demineralized HaterPenetration 324PTT-23.39 Revision1aZV87/92

CONTAINMENT HMONITORSPENETRATION 332a332band332dIXCP5$2aP532b7448CIYCNTC/J7452CIYY/JSTCIY921STCNS922T92402085020Ag84517456ICIYTC/JNOTEDESCRIPTION Containment MidFloor(A"RecircFanArea)Intermediate Bldg(TDAFWPumpArea)(1)LRMshouldbelocatedinIntermediate BldgTDAFWPumpAreaROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-74Containment H2MonitorsPenetrations 332a,332b,and332dPTT-23.45 ReViSion1azv87/92 CONTAINMENT PRESSURETRANSMITTERS PT-944PT449ANDPT-950PENETRATION 332cCIBCIBCIBY/JV/JY/JCIV181MCIV1818FCIV1819EHl-!OPENPIPE1818G1818F1818ENOTEDESCRIPTION Containment MidFloor('A"RecircFanArea)Intermediate Bldg.(TDAFWPArea)(1)LRMshouldbelocatedinContainment MidFloornear'A'ecircFanPal=23.17C Revision1ROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLIARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-75Containment PressureTransmitters PT-944,PT-949,andPT-950Penetration 332caZV87/92 MAINSTEAMFROMSTEAMGENERATOR APENETRATION 401II'10KCBCBCBCB110253409CCV1105154IIBCVCV~11020(4lYP)55005511.5515AllQSPHERE TOlEMPKRATlJRE CONFENSATEQSUPPORTS8517CVi5I55105TOAUXIUAlA'EEOWATER 34113415C$413BROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-76HainSteamfromSteamGenerator APenetration 401Isolation from33013-1231,Revision19aZV87/92 MAINSTEAMFROMSTEAMGENERATOR BPENETRATION 402lTDAUXIUARZITEEDWATER

]Cruasua)IIV5504A5504CII5504(4TTP]550555105512ATQCSPHERE lgII112011021CIVPSB5412Cd721551d5515g5514CIV54455III11024AII11025CIV1102254105520PTD47BadPT11025470CIVCldDROCHESTER GASANDELECTRICCORPORATION R.EGINNANUCLEARPOWERPLANTUPDATEDFINALSAFETYANALYSISREPORTFigure6.2-77MainSteamfromSteamGenerator BPenetration 402Isolation from33013-1231,Revision19REV87/92 MAINANDAUXILIARY FEEDWATER TOSTEAMGENERATORS AANDBPENETRATIONS 403AND404IXOMlMKNMKOXIVKNAUXILIAXV IKXOMAllÃ tWtoImPcoI8415CIlcIII.i5jibIIII10IMOMMAINFIZOWA1KN IIIMIIA0001CIVCIV~MMAINIZGWAIKN400KtVWI~CIVKNNIIN!ONOXIVKMAOXRWtfAZDVAlKNWMt1ACIVNOIXl0IKAIXVFKKAIQKOOONVKMAXOIAINKIKXOMAIKN l%NP1~CIVROCHESTER GASANDELECTRICCORPORATION R.E.GINNANUCI'EARPOWERPL'ANTUPDATEDFINALSAFETYANALYSISREPORT,Figure6.2-78MainandAuxiliary Feedwater toSteamGenerators AandBPenetrations 403and404Isolation from33013-1236-2, Revision5and33013-1237,Revision25avr87/92

ATTACHMENT FTableofTechnical Specification Changes Attachment PPage1of3IChangesTechnical Specification ChangesEffect2.3.4~5.6.7.8.Removedreference toTable3.6-1fromTechnical Specifications 3.6.3.1,4.4.5.1,and4.4.6.2.Addedstatement toBasesforTechnical Specification 3.6thatcontainment isolation boundaries arelistedinUFSARTable6.2-15.RemovedTable3.6-1fromTechnical Specifications andplacedinformation inUFSARTable6.2-15.Revisedactionstatement ofTechnical Specification 3.6.3.1.Removeddefinition ofleakageinoperability fromTechnical Specification 3.6.3.1.Addedstatement relatedtointermittent operation ofboundaries tobothTechnical Specification 3.6.1andthebases.Removednoteassociated withTechnical Specification 3.6.5.Addeddefinition of"isolation boundary" toBasesforTechnical Specification 3.6.Updatedreference listcontained inBasesforTechnical Specifications 3.6,3.8,and4.4.Notechnical change.Specifications arenowconsistent withGenericLetter91-08.Valvelistingremainsinalicenseecontrolled documentunder10CFR50.59program.Specification nowconsiders closedsystemsasanacceptable interimpassiveboundaryandismoreconsistent withStandardTechnical Specifications.

Definition isfoundinTechnical Specification 4.4.2.2.Eliminated redundant discussion ofleakageacceptance criteria.

Notechnical change.Specification nowconsistent withGenericletter91-08.Mini-purge valveshavebeeninstalled sospecification isconsidered effective.

Notechnical change.Notechnical change.Clarification of"isolation boundary" providesconsistency withUFSARTable6.2-15.Notechnical change.

Attachment PPago2of3ChangesTechnical Specification ChangesEffectRevisedactionstatement ofTechnical Specification 3.8.1sectiona.Revisedactionstatement ofTechnical Specification 3.8.3.RevisedbasesforTechnical Specification 3.8.Added"Pt"andnecessary definitions toTechnical Specification 4.4.1.4sectiona.Addedtothedefinition of"Lt"inTechnical Specification 4.4.1.4sectionb.Addeddefinition of"Pa"and"Lam"toTechnical Specification 4.4.1.4.Addedsteamgenerator inspection/maintenance penetration toTechnical Specification 4.4.1.5sectiona(ii).RevisedfirstlineofTechnical Specification 4.4.1.5,sectiona(ii).Clarification only.Specification nowconsistent withStandardTechnical Specifications.

Notechnical change.Specification nowspecifically addresses affectedcontainment penetrations.

Notechnical change.Basesarenowconsistent withStandardTechnical Specifications andsupportchangesto3.8.1sectionaand3.8.3.Additionof"Pt"definition providesclarification oftestingtypeconsistent with10CFR50,AppendixJ.Alltermsin4.4.1.4,sectionaarenowfullydefined.Notechnical change.Additionof"Lt"definition providesclarification consistent with10CFR50,AppendixJ.Alltermsin4.4.1.4,sectionbarenowfullydefined.Notechnical change.Additionof"Pa"and"Lam"providesclarification consistent with10CFR50,AppendixJ.Alltermsin4.4.1.4nowfullydefined.Notechnical change.Additionofthispenetration

provides, testingcriteriasimilartotheequipment hatchandcontainment airlocks.Minorclarification only.Notechnical change.

Attachment FPage3of3ChangesTechnical Specification ChangesEffect17.18.19.20.21.22.23.Revisedacceptance criteriaprovidedinTechnical Specification 4.4.2.2Replaced"isolation valve"with"isolation boundary" inTechnical Specification 4.4.2.3andtheBasesforsection4.4.Removednotesassociated withTechnical Specification 4.4.2.4sectiona.Also,deletedreference tosectiond.Addedsteamgenerator inspection/maintenance penetration toTechnical Specification 4.4.2.4sectionb.RemovedTechnical Specification 4.4.2.4sectiondandassociated note.Revisedstatement forTechnical Specification 4.4.5.1.Revisedstatement forTechnical Specification 4.4.6.2.Clarification only.Notechnical change.Minorclarification only.Specification andbasesarenowconsistent withtherevisedTechnical Specification 3.6.3.Mini-purge valveshavebeeninstalled sospecification isconsidered effective.

SectiondwillberemovedfromTechnical Specifications withthisamendment.

Additionofthispenetration providestestingcriteriasimilartotheequipment hatchandcontainment airlocks.Blindflangeshavebeeninstalled sospecification isconsidered effective.

Notechnical change.Specification nowconsistent withStandardTechnical Specifications.

Specification nowconsistent withStandardTechnical Specifications.

3.6Containment SstemAlicabilit Appliestotheintegrity ofreactorcontainment.

Todefinetheoperating statusofthereactorcontainment forplantoperation.

Secification:

3.6.1Containment Interita~Exceptasallowedby3.6.3,containment integrity shallnotbeviolatedunlessthereactorisinthecoldshutdowncondition.g>'j:;:'.;jCX'osedpp;;.',VO3VpSpjNSyjggi8 op"'neddy";:,":);.,:.oxi,'::,,'.:,:;";,~";

o'cia;::n:x'8~57!AOLv8'$,",'con'cx!0~3'~

b.Thecontainment integrity shallnotbeviolatedwhenthereactorvesselheadisremovedunlesstheboronconcentration isgreaterthan2000ppm.c~Positivereactivity changesshallnotbemadebyroddrivemotionorborondilutionwheneverthecontainment integrity isnotintactunlesstheboronconcentration isgreaterthan2000ppm.3.6.2InternalPressureIftheinternalpressureexceeds1psigortheinternalvacuumexceeds2.0psig,thecondition shallbecorrected within24hoursorthereactorrenderedsubcritical.

Amendment No.3.6-1Proposed

3.6.3Containment Isolation-VakveeF~SoQ da~kes3.6.3.1Withepee-aao~aj'oontai::one'nc,',,:.i~'~olati~oP jbon'nclsgf::;:.,~iinaperab1l'eFf ox>OsniytOraa'Or'e'i'!O'On:,,':a';

'nJa'e'nr

'"lip'a'n'etr'i"

':O'ne'j'iteria~b.Restoretba'ilia'a'Ob inoperable

,';:.':.;b'ygjd~y:

toeperahke~OPEHABG'8 statuswithin4hours,oxIsolateeachaffectedpenetration within4hoursbyuseofatleastonedeactivated automatic valvesecuredintheisolation~osition, ihO+j'iici'i8 laanxail~v8'ivy!,:0'iixii,a!.;:".blin'R!'i!gianqsg orc~d.4:-large-,"::::;Verif j,i:tb,pgopaeratigl4t y~;,:,:::!

oi:::.::':;

o'o'sel::,':;"syipem a"':::"-":-"::::':-i"'::i'i:

a::--.'-:::::::ll::::::,:-::-"li5':::::

'-:-"'-'"-;"'-:'::i

-Jt"::--"e:-*":::::is Beinatleasthotshutdownwithinthenext6hoursandincoldshutdownwithinthefollowing 30hours.3.6.4Combustible GasControl3.6.4.13.6.4.2Whenthereactoriscritical, at,leasttwoindependent containment hydrogenmonitorsshallbeoperable.

OneofthemonitorsmaybethePostAccidentSamplingSystem.Withonlyonehydrogenmonitoroperable, restoreasecondmonitortooperablestatuswithin30daysorbeinatleasthotshutdownwithinthenext6hours.3.6.4.3Withnohydrogenmonitorsoperable, restoreatleastonemonitortooperablestatuswithin72hoursorbeatleasthotshutdownwithinthenext6hours.3.6s5Containment Mini-PureWheneverthecontainment integrity isrequired, emphasiswillbeplacedonlimitingallpurgingandventingtimestoaslowasachievable.

Themini-purge isolation valveswillremainclosedtothemaximumextentpracticable butmaybeopenforpressurecontrol,forALARA,forrespirable airqualityconsiderations forpersonnel entry,forsurveillance teststhatmayrequirethevalvetobeopenorothersafetyrelatedreasons.Amendment No.P,gP3.6-2Proposed

Amendment No-9rP3.6-2Proposed

,+,I*~10lt'>o~lir Basis:Thereactorcoolantsystemconditions ofcoldshutdownassurethatnosteamwillbeformedandhencetherewouldbenopressurebuildupinthecontainment ifthereactorcoolantsystemruptures.

Theshutdownmarginsareselectedbasedonthetypeofactivities thatarebeingcarriedout.The(2000ppm)boronconcentration providesshutdownmarginwhichprecludes criticality underanycircumstances.

Whenthereactorheadisnottoberemoved,acoldshutdownmarginof14~k/kprecludes criticality inanyoccurrence.

Regarding internalpressurelimitations, thecontainment designpressureof60psigwouldnotbeexceedediftheinternalpressurebeforeamajorsteambreakaccidentwereasmuchas1psig."Thecontainment isdesignedtowithstand aninternalvacuumof2.5psig.The2.0psigvacuumisspecified asanoperating limittoavoidanydifficulties withmotorcooling.'.4:W~iii(!,,47,:

Amendment No.3.6-3Proposed

References:

(1)Westinghouse

Analysis, "ReportfortheBASTConcentration Reduction forR.E.Ginna",August1985p)gpQRi)i5!%pep'phyla:.

(2)UFSAR-Section6.2.1.4L(:8';)::;;:p~GPSA'Ri:i:.Tibia,p6','::::2.'.:,'-:.:15 3.6-3aProposed 3.8REFUELING Alicabilit Appliestooperating limitations duringrefueling operations.

3.8.1Toensurethatnoincidentcouldoccurduringrefueling operations thatwouldaffectpublichealthandsafetySecification Duringrefueling operations thefollowing conditions shallbesatisfied.

a~~~z~~~+,.~~~+~~x+t~wyn g+~~vox+w~<<

..g~fl~gxccRwc~~~+Pg~j~>l~

st'at~ue::.:

jL~~g;,::,',<~iTh'eppgixiymei5~ha5ch::::;aliall~!bsefsi,'n~plaei:::;:::yah:;::i8,::::

,illglAPW';,,if:,:::,"-::,'--:.,:::,

'--'-:,Bit,,-"::,i4':::.,4h iiy~@!i':--::"::":m'eg~y&RPoxc E~>&'h~+xoPxco~+.

xc~t~,.NhccQ~>~~y0$~~~7dw+'~PPx

'ttt'too&5PY.,~Y+

Ao?Po&x'.

/ha',y!iqiita4'nmianKi'..;::::;::ytmo'+phagia-;:,it ii;"'j~eg~,:,ou>sjd~

~~~@o~%~hp~k~~sh~aL~~be

~e"~~KT"-"'Wi'CLCi886~hj":::::~"'S~n"":

X~5i'8tiSIY" "v8;3;vb"':

':.811%8"tl:~i:-:::::::::::::

-;:::::;,:.

1!",,-::;::,:,::;:::,

Amendment No.g,g.g3.8-1Proposed b.c~-"IK,::::,:;--,:::::,::,::,

-~.,:,:1,,-",;:"-;,:::,;,

F,-;:::,,,:,,:

QfIigainagi~a:

'-.:Ship3owri:

!'.: W,,:iqe

':::ai~RiKi.;::;:::1%iqa

~i:lyg;.Radiation levelsinthecontainment shallbemonitored continuously.

Coresubcritical neutronfluxshallbecontinuously monitored byatleasttwosourcerangeneutronmonitors, eachwithcontinuous visualindication inthecontrolroomandonewithaudibleindication inthecontainment andcontrolroomavailable whenevercoregeometryisbeingchanged.WhencoregeometryisnotbeingchangedatAmendment No.g,ggProposed 3.8.23.8.3flange.Ifthiscondition isnotmet,alloperations involving movementoffuelorcontrolrodsinthereactorvesselshallbesuspended.

Ifanyofthespecified limitingconditions forrefueling isnotmet,refueling ofthereactorshallcease;workshallbeinitiated tocorrecttheviolatedconditions sothatthespecified limitsaremet;nooperations whichmayincreasethereactivity ofthecoreshallbemade.Iftheconditions of3.8.1.darenotmet,theninadditiontotherequirements of3.8.2,Q.8'oil'ilt'Q thaF5hnt8~ova,';.3?uz cga':-:;ka pcti!MipiPPutqa:,:':,:pa~pa:

i,'atfnnawithin4hours.Basis:Theequipment andgeneralprocedures tobeutilizedduringrefueling arediscussed inthegFSAR.Detailedinstructions, theabovespecified precautions, andthedesignofthefuelhandlingequipment incorporating'uilt-in interlocks andsafetyfeatures, provideassurance thatnoincidentcouldoccurduringtherefueling operations thatwouldresultinahazard3.8-3Proposed F4I~

providedontheliftinghoisttopreventmovementofmorethanonefuelassemblyatatime.Thespentfueltransfermechanism canaccommodate onlyonefuelassemblyatatime.Xnaddition, interlocks ontheauxiliary buildingcranewillpreventthetrolleyfrombeingmovedoverstoredrackscontaining spentfuel.Theoperability requirements forresidualheatremovalloopswillensureadequateheatremovalwhileintherefueling mode.Therequirement for23feetofwaterabovethereactorvesselflangewhilehandlingfuelandfuelcomponents incontainment isconsistent withtheassumptions ofthefuelhandlingaccidentanalysis.

Theanalysis~~~~

forafuelhandlingaccidentinsidecontainment establishes acceptable offsitelimitingdosesfollowing ruptureofallrodsofanassemblyoperatedatpeakpower.Nocreditistakenforcontainment isolation oreffluentfiltration priortorelease.Requiring closureofpenetrations

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'!4h"OVCSXde"",:",:.age'O'Sgh8de establishes additional marginforthefuelhandlingaccidentandestablishes aseismicenvelopetoprotectagainstseismiceventsduringrefueling.

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b.Thelocalleakagerateshallbemeasuredforeachofthefollowing components:

~~lie3.i3.3.VevContainment penetrations thatemployresilient seals,gaskets,orsealantcompounds, pipingpenetrations withexpansion bellowsandelectrical penetrations withflexiblemetalsealassemblies.

Airlockandequipment doorseals.Fueltransfertube.Isolation valvesonthetestablefluidsystemslinespenetrating thecontainment.

Othercontainment components, whichrequireleakrepairinordertomeettheacceptance criterion foranyintegrated leakageratetest.4.4.2.2AccetanceCriterion

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ga5a~X'j':,:Xeak8gePaf~3a1l~lhoun'da'x'::.,le'smm3':s'(q'red~'4 4.4.2s3Corrective ActionIfatanytimeitisdetermined that.thetotalleakagefromallpenetrations andisolation vaBreehcnTTdarieg exceeds0.60La,repairsshallbeinitiated immediately.

4.4-6Proposed b.Ifrepairsarenotcompleted andconformance totheacceptance criterion of4.4.2.2isnotdemonstrated c~within48hours,thereactorshallbeshutdownanddepressurized untilrepairsareeffectedandthelocalleakagemeetstheacceptance criterion.

Ifitisdetermined thattheleakagethroughamini-purge supplyandexhaustlineisgreaterthan0.05Laanengineering evaluation shallbeperformed andplansforcorrective actiondeveloped.

4.4.2.4TestFreuenca~below,individual penetrations andcontainment isolation valvesshallbetestedduringeachreactorshutdownforrefueling, orotherconvenient intervals, butinnocaseatintervals greaterthantwoyears.~b.Thecontainment equipment hatch,fueltransfertube~xgtseemi!iy,,:gene'xgfoi!::

ji::':;,-:,in-'i,,p'eigkci'irma'i,:ii'tiananPe pen'eWrpFion, andshutdownpurgesystemflangesshallbetestedateachrefueling shutdownoraftereachuse,ifthatbesooner.Amendment No.4.4-7Proposed II,~"~4~

c~Thecontainment airlocksshallbetestedatintervals ofnomorethansixmonthsbypressurizing thespacebetweentheairlockdoors.Inaddition, following openingoftheairlockdoorduringtheinterval, atestshallbeperformed bypressurizing betweenthedualsealsofeachdooropened,within48hoursoftheopening,unlessthereactorwasinthecoldshutdowncondition atthetimeoftheopeningorhasbeensubsequently broughttothecoldshutdowncondition.

Atestshallalsobeperformed bypressurizing betweenthedualsealsofeachdoorwithin48hoursofleavingthecoldshutdowncondition, unlessthedoorshavenotbeenopensincethelasttestperformed eitherbypressurizing thespacebetweentheairlockdoorsorbypressurizing betweenthedualdoorseals.Amendment, No.g,P4.4-8Proposed Amendment No.gP4.4-8Proposed JM!'

4.4.4.2thetendoncontaining 6brokenwires)shallbeinspected.

Theacceptedcriterion thenshallbenomorethan4brokenwiresinanyoftheadditional 4tendons.Ifthiscriterion isnotsatisfied, allofthetendonsshallbeinspected andifmorethan54ofthetotalwiresarebroken,thereactorshallbeshutdownanddepressurized.

Pre-Stress Confirmation Testa~b.Lift-offtestsshallbeperformed onthe14tendonsidentified in4.4.4.laabove,attheintervalsspecified in4.4.4.1b.

Iftheaveragestressinthe14tendonscheckedislessthan144,000psi(604ofultimatestress),alltendonsshallbecheckedforstressandretensioned, ifnecessary, toastressof144,000psi.Beforereseating atendon,additional stress(64)shallbeimposedtoverifytheabilityofthetendontosustaintheaddedstressappliedduringaccidentconditions.

4.4.5Containment Isolation Valves4.4.5.14.4.6Eachcomma'a%ment')isolation valve~,::.:,,:::.,

',,t!mme'ccordance withtheGinnaStationPumpan8ValveTestprogramsubmitted inaccordance with10CFR50.55a.Containment Isolation Resonse4.4.6.14.4.6.2Eachcontainment isolation instrumentation channelshallbedemonstrated OPERABLEbytheperformance oftheCHANNELCHECK,CHANNELCALIBRATION, andCHANNELFUNCTIONAL TESToperations fortheMODESandatthefrequencies showninTable4.1-1.TheILespons'e,::.'-.,:,time of"'achN-the containment isolation valve,,shallbedemonstrated tobewithin4heg4'Cslimitatleastonceper18months.TheresponsetimeincludesonlythevalveAmendment.

No.P,ggProposed sar.I TheSpecification alsoallowsforpossibledeterioration oftheleakagerateb'etweentests,byrequiring thatthetotalmeasuredleakageratebeonly754ofthemaximumallowable leakagerate.Thedurationandmethodsfortheintegrated leakageratetestestablished byANSIN45.4-1972 provideaminimumlevelofaccuracyandallowfordailycyclicvariation intemperature andthermalradiation.

Thefrequency oftheintegrated leakageratetestiskeyedtotherefueling scheduleforthereactor,becausethesetestscanbest,beperformed duringrefueling shutdowns.

Refueling shutdowns arescheduled atapproximately oneyearintervals.

Thespecified frequency ofintegrated leakageratetestsisbasedonthreemajorconsiderations.

Firstisthelowprobability ofleaksintheliner,becauseof(a)theuseofweldchannelstotesttheleaktightness oftheweldsduringerection, (b)conformance ofthecompletecontainment toa0.14perdayleakrateat60psigduringpreoperational testing,and(c)absenceofanysignificant stressesinthelinerduringreactoroperation.

Secondisthemorefrequenttesting,atthefullaccidentpressure, ofthoseportionsofthecontainment envelopethataremostlikelytodevelopleaksduringreactoroperation (penetrations andisolation valves)andthelowvalue(0.60La)ofthetotalleakagethatisspecified asacceptable Thirdisthetendonstresssurveillance program,whichprovidesassurance thananimportant partofthestructural integrity ofthecontainment ismaintained.

4.4-13Proposed Thebasisforspecification ofatotalleakageof0.60Lafrompenetrations andisolation vakvee<5'ogA~iiieg isthatonlyaportionoftheallowable integrated leakagerateshouldbefromthosesourcesinordertoprovideassurance thattheintegrated leakageratewouldremainwithinthespecified limitsduringtheintervals betweenintegrated leakageratetests.Becausemostleakageduringanintegrated leakratetestoccursthoughpenetrations andisolation valves,andbecauseformostpenetrations andisolation valvesasmallerleakageratewouldresultfromanintegrated leaktestthanfromalocaltest,adequateassurance ofmaintaining theintegrated leakageratewithinthespecified limitsisprovided.

ThelimitingleakageratesfromtheRecirculation HeatRemovalSystemsarejudgement valuesbasedprimarily onassuringthatthecomponents couldoperatewithoutmechanical failureforaperiodontheorderof200daysafteradesignbasisaccident.

Thetest4.4-14Proposed a,P'r Thepre-stress confirmation test.providesadirectmeasureoftheload-carrying capability ofthetendon.Ifthesurveillance programindicates byextensive wirebreakageortendonstressrelationthatthepre-stressing tendonsarenotbehavingasexpected, thesituation willbeevaluated immediately.

Thespecified acceptance criteriaaresuchastoalertattention tothesituation wellbeforethetendonload-carrying capability woulddeteriorate toapointthatfailureduringadesignbasisaccidentmightbepossible.

Thusthecauseoftheincipient deterioration couldbeevaluated andcorrective actionstudiedwithoutneedtoshutdownthereactor.Thecontainment isprovidedwithtworeadilyremovable tendonsthatmightbeusefultosuchastudy.Inaddition, thereare40tendons,eachcontaining aremovable wirewhichwillbeusedtomonitorforpossiblecorrosion effects.Operability ofthecontainment isolation vakveeKbogq'4yx'if'nsures thatthecontainment atmosphere willbeisolatedfromtheoutsideenvironment intheeventofareleaseofradioactive materialtothecontainment atmosphere orpressurization ofthecontainment.

Performance ofcclingtestsandverification ofisolation timesAppendixJto10CFR50isaddressed underlocalleaktestingrequirements.

References:

(2)(3)(4)(5)(6)FSARPage5.1.2-28(7)North-American-Rockwell Report550-x-32, Reliability

Handbook, February1963.Autonetics (8)FSARPage5.1-284.4-17Proposed

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