|
|
| Line 17: |
Line 17: |
|
| |
|
| =Text= | | =Text= |
| {{#Wiki_filter:REGULATlINFORMATIONDISTRIBUTIO1YSTEM(RIDE)ACCESSIO'AABR19408010220DOC.DATE:94/07/26NOTARIZED:YESDOCKETFACIL:50-315DonaldC.CookNuclearPowerPlant,Unit1,IndianaM0500031550-316DonaldC.CookNuclearPowerPlant,Unit2,IndianaM05000316AUTH.NAMEAUTHORAFFILIATIONFITZPATRICK,E.IndianaMichiganPowerCo.(formerlyIndiana&MichiganEleRECIP.iNAMERECIPIENTAFFILIATIONDocumentControlBranch(DocumentControlDesk) | | {{#Wiki_filter:REGULATlINFORMATION DISTRIBUTIO1YSTEM (RIDE)ACCESSIO'A ABR19408010220 DOC.DATE: |
| | 94/07/26NOTARIZED: |
| | YESDOCKETFACIL:50-315 DonaldC.CookNuclearPowerPlant,Unit1,IndianaM0500031550-316DonaldC.CookNuclearPowerPlant,Unit2,IndianaM05000316AUTH.NAMEAUTHORAFFILIATION FITZPATRICK,E. |
| | IndianaMichiganPowerCo.(formerly Indiana&MichiganEleRECIP.iNAME RECIPIENT AFFILIATION DocumentControlBranch(Document ControlDesk) |
|
| |
|
| ==SUBJECT:== | | ==SUBJECT:== |
| ApplicationforamendstolicensesDPR-58sDPR-74,proposingTS,bymodifyingTS4.1.1.4suchthatrequirementtomeasuremoderatortemperaturecoefficientnearendofcyclewillbecomeconditional.DISTRIBUTIONCODE:AOOIDCOPIESRECEIVED:LTR/ENCL/SIZE://+//TITLE:ORSubmittal:GeneralDistributionNOTES:RECIPIENTIDCODE/NAMEPD3-1LAHICKMAN,JINTERNAL:NRR/DE/EELBNRR/DRCH/HICBNRR/DSSA/SPLBNUDOCS-ABSTRACTOGC/HDS2EXTERNAL:NRCPDRCOPIESLTTRENCL1122111111111011RECIPIENTIDCODE/NAMEPD3-1PDNRR/DORS/ONDDNRR/DRPWNRR/DSSA/SRXBOCCBEGILE01NSICCOPIESLTTRENCL111111111NOTETOALL"RIDS"RECIPIENTS:PLEASEHELPUSTOREDUCEWASTE!CONTACTTHEDOCUMENTCONTROLDESK,ROOKIPl-37(EXT.504-2083)TOELIIiIINATEYOURNAMEFROMDISTRIBUTIONLISTSI'ORDOCUMENTSYOUDON"I'EED!TOTALNUMBEROFCOPIESREQUIRED:LTTR16ENCL14 lLll IndianaMichiganPowerCompanyP.O.Box16631Columbus,OH43216ÃAEP:NRC:1028ADonaldC.CookNuclearPlantUnits1and2DocketNos.50-315and50-316LicenseNos.DPR-58andDPR-74PROPOSEDTECHNICALSPECIFICATIONCHANGESFORMODERATORTEMPERATURECOEFFICIENTMEASUREMENTU.S.NuclearRegulatoryCommissionDocumentControlDeskWashington,D.C.20555Attn:Mr.W.T.Russell'July26,1994
| | Application foramendstolicensesDPR-58sDPR-74,proposing TS,bymodifying TS4.1.1.4suchthatrequirement tomeasuremoderator temperature coefficient nearendofcyclewillbecomeconditional. |
| | DISTRIBUTION CODE:AOOIDCOPIESRECEIVED:LTR |
| | /ENCL/SIZE://+//TITLE:ORSubmittal: |
| | GeneralDistribution NOTES:RECIPIENT IDCODE/NAME PD3-1LAHICKMAN,J INTERNAL: |
| | NRR/DE/EELB NRR/DRCH/HICB NRR/DSSA/SPLB NUDOCS-ABSTRACT OGC/HDS2EXTERNAL: |
| | NRCPDRCOPIESLTTRENCL1122111111111011RECIPIENT IDCODE/NAME PD3-1PDNRR/DORS/ONDD NRR/DRPWNRR/DSSA/SRXB OCCBEGILE01NSICCOPIESLTTRENCL111111111NOTETOALL"RIDS"RECIPIENTS: |
| | PLEASEHELPUSTOREDUCEWASTE!CONTACTTHEDOCUMENTCONTROLDESK,ROOKIPl-37(EXT.504-2083)TOELIIiIINATE YOURNAMEFROMDISTRIBUTION LISTSI'ORDOCUMENTS YOUDON"I'EED!TOTALNUMBEROFCOPIESREQUIRED: |
| | LTTR16ENCL14 lLll IndianaMichiganPowerCompanyP.O.Box16631Columbus, OH43216ÃAEP:NRC:1028A DonaldC.CookNuclearPlantUnits1and2DocketNos.50-315and50-316LicenseNos.DPR-58andDPR-74PROPOSEDTECHNICAL SPECIFICATION CHANGESFORMODERATOR TEMPERATURE COEFFICIENT MEASUREMENT U.S.NuclearRegulatory Commission DocumentControlDeskWashington, D.C.20555Attn:Mr.W.T.Russell'July26,1994 |
|
| |
|
| ==DearMr.Russell:== | | ==DearMr.Russell:== |
| ThisletteranditsattachmentsconstituteanapplicationforamendmenttotheTechnicalSpecifications(T/Ss)forDonaldC.CookNuclearPlantUnits1and2.ChangesareproposedtotheModeratorTemperatureCoefficientsectionoftheT/Ss.Specifically,,weproposetomodifyT/S4.1.1.4suchthattherequirementtomeasurethemoderatortemperaturecoefficient(MTC)neartheendofthecyclewillbecomeconditional.ThetestwillnotbeperformedifspecifiedcoreperformancebenchmarkcriteriaaremetfortheoperatingcycleandtherevisedpredictedMTCislessnegativethantheMTCsurveillancelimitpresentedintheCoreOperationLimitsReport(COLR).WearealsoproposingtoaddT/S6.9.1.12,whichdefinesacyclespecific"MostNegativeModeratorTemperatureCoefficientLimitReport"containinginformationforcalculationoftherevisedpredictedMTC.ThereportwillbefiledandavailableforNRCaudit.ThesechangesarerequestedbecauseitisbelievedthatarelaxationoftheexistingcriteriaforperformingtheMTCmeasurementneartheend-of-cycle(EOC)isjustifiablewhilestillensuringtheEOCMTCiswithinitslimits.The300ppmMTCmeasurementistime-andresource-consuming.Itdisruptsnormaloperationanddecreasestheavailabilityofthepowerplant.IncorporatingthesechangeswouldeliminatethesurveillancewhenitiscertainfromotherindicatorsthattheEOCMTClimitwouldnotbeexceeded.WepreviouslymadeasimilarsubmittalviaAEP:NRC:1028,datedOctober20,1987.Uponreview,however,theNRCconcludedthat"ThistypeofamendmentshouldbehandledasagenericissuedueA,g<gi9408010220940726PDRADGCK05000315PPDR W.T.Russell-2-AEP:NRC:1028Atoitsindustrywideimplications."Asaresult,thiscurrentsubmittalisbasedonthegenericinvestigationperformedbyWestinghouseElectricCorporationanddocumentedinReference1ofAttachment1.ThisdocumentwassubmittedtotheNRCforreviewandapprovalinReference2ofAttachment1.Adescriptionoftheproposedchangesandanalysisconcerningsignificanthazardsconsiderationpursuantto10CFR50.92iscontainedinAttachmentl.Attachment2containstheexistingT/Spagesmarkedtoreflectproposedchanges.Attachment3containstheproposed,revisedT/Spages.WebelievethattheproposedT/Schangeswillnotresultin(1)asignificantchangeintheamountofeffluentthatmightbereleasedoffsite,or(2)asignificantincreaseinindividualorcumulativeoccupationalradiationexposure.TheseproposedT/SchangeshavebeenreviewedandapprovedbythePlantNuclearSafetyReviewCommitteeandbytheNuclearSafetyandDesignReviewCommittee.Incompliancewiththerequirementsof10CFR50.91(b)(1),copiesofthisletteranditsattachmentshavebeentransmittedtoMr.J.R.PadgettoftheMichiganPublicServiceCommissionandtheMichiganDepartmentofPublicHealth.Thisletterissubmittedpursuantto10CFR50.30(b)and,assuch,anoathstatementisattached.Sincerely,E.E.FitzatrickVicePresidentcadAttachmentscc:A.A.BlindG.CharnoffJ.B.Martin-RegionIIINFEMSectionChiefNRCResidentInspectorJ.R.Padgett
| | Thisletteranditsattachments constitute anapplication foramendment totheTechnical Specifications (T/Ss)forDonaldC.CookNuclearPlantUnits1and2.ChangesareproposedtotheModerator Temperature Coefficient sectionoftheT/Ss.Specifically,, |
| ~~@1 STATEOFOHIO)COUNTYOFFRANKLIN)E.E.Fitzpatrick,beingdulysworn,deposesandsaysthatheistheVicePresidentoflicenseeIndianaMichiganPowerCompany,thathehasreadtheforgoingPROPOSEDTECHNICALSPECIFICATIONCHANGESFORMODERATORTEMPERATURECOEFFICIENTMEASUREMENTandknowsthecontentsthereof;andthatsaidcontentsaretruetothebestofhisknowledgeandbelief.Subscribedandsworntobeforemethis~~~dayof19~VNOTARYPBLICRITAD.HILL ATTACHMENT1TOAEP:NRC:1028ADESCRIPTIONOFPROPOSEDTECHNICALSPECIFICATIONCHANGESAND10CFR50.92SIGNIFICANTHAZARDSCONSIDERATIONANALYSIS ATTACHMENT1toAEP:NRC:1028APage1DESCRIPTIONOFCHANGES(bothunits)Itisproposedthatsurveillancerequirement4.1.1.4.bbechangedtoallowsuspensionofthe300ppmmoderatortemperaturecoefficient(MTC)measurementprovidedthebenchmarkcriteriaandtherevisedprediction,asdocumentedintheCoreOperatingLimitsReport(COLR),aresatisfied.Thechangealsospecifiesthatthedatarequiredfor,calculationoftherevisedpredictionisprovidedinthe"MostNegativeModeratorTemperatureCoefficientLimitReport,"perT/S6.9.1.12.2.Itisproposedthatadministrativecontrolparagraph6.9.1.12beaddedtodefinethe"MostNegativeModeratorTemperatureCoefficientLimitReport."Thereport,whichwillbemaintainedonfile,includesdatarequiredforthedeterminationoftherevisedpredictionofthe300ppmallrodsout(ARO)atratedthermalpower(RTP)MTCperWCAP-13749,"SafetyEvaluationSupportingtheConditionalExemptionoftheMostNegativeEOLModeratorTemperatureCoefficientMeasurement,"May1993.3.ItisproposedthatWCAP-13749beaddedasreference"e"toadministrativecontrolsection6.9.1.11.2.JUSTIFICATIONFORTHECHANGEPursuantto10CFR50.92,eachapplicationforanamendmenttoanoperatingnuclearplantlicenseorconstructionpermitmustbereviewedtodetermineiftheproposedchangeinvolvesasignificanthazardsconsideration.Theproposedtechnicalspecificationamendmentfortheendoflife(EOL)MTCconditionalexemptionhasbeenreviewedanditisconcludedthatnosignificanthazardsresultfromthisT/Schange.BackgroundForFSARaccidentanalyses,thetransientresponseoftheplantisdependentonreactivityfeedbackeffects,inparticular,themoderatordensitycoefficient(MDC)andtheDopplerpowercoefficient.BecauseofthesensitivityofaccidentanalysisresultstotheMDCvalueassumed,itisimportantthattheactualcoreMDCremainwithintheboundsofthelimitingvaluesassumedintheFSARaccidentanalyses.WhilecoreneutronicsanalyseswillconfirmthattheMDCiswithintheseboundsduringanoperatingcycle,CookNuclearPlantT/SscurrentlyplacelimitsontheMTCduringnormaloperation.MTCmeasurementsareperformedatthebeginningofcycle(BOC)priortoinitialoperationabove5%RTPandatRTPconditionswithinseveneffectivefullpowerdays(EFPD)afterreachinganequilibriumboronconcentrationof300ppm. | | weproposetomodifyT/S4.1.1.4suchthattherequirement tomeasurethemoderator temperature coefficient (MTC)neartheendofthecyclewillbecomeconditional. |
| ATTACHMENT1toAEP:NRC:1028APage2Inordertoensureaboundingaccidentanalysis,theMDCisassumedtobeatitsmostlimitingvaluefortheanalysisconditionsappropriatetoeachaccident.ThemostpositiveMDClimitingvalueisbasedontheEOLcoreconditionscorrespondingtomaximumfuelburnupandminimumboronconcentrationassuming100%RTP.TwodifferentT/SbasesrelatingtheaccidentanalysisMDCtothemostnegativeMTChavebeenpreviouslylicensedforWestinghouseplantsasdescribedinChapter2ofReference1ofthisAttachment.MostaccidentanalysesuseaconstantMDCdesignedtoboundtheMDCattheworstsetofinitialconditionsaswellasatthemostlimitingsetoftransientconditions.ThisvalueofMDCformsthelicensingbasisfortheFSARaccidentanalysisaswellasthebasesforthecurrentEOLMTCT/Srequirements.ConvertingtheMDCusedintheaccidentanalysistoacorrespondingMTCrequiresacalculationwhichaccountsfortherateofchangeofmoderatordensitywithtemperatureattheconditionsofinterest.T/Ssplacebothlimitingconditionforoperation(LCO)[T/S3.1.1.4]andsurveillancerequirement[T/S4.1.1.4]constraintsontheMTC,basedontheaccidentanalysisassumptionsoftheMDC.ThemostnegativbMTCLCOlimitappliestoModes1,2,and3,andrequiresthattheMTCbelessnegativethanthespecifiedlimitvaluefortheARO/EOL/RTPcondition.TodemonstratecompliancewiththemostnegativeMTCLCO,theT/SsurveillancecallsforverificationoftheMTCafter300ppmequilibriumboronconcentrationisobtained.Becausethehotfullpower(HFP)MTCvaluewillgraduallybecomemorenegativewithfurthercoreburnupandboronconcentrationreduction,a300ppmsurveillancerequirementvalueoftheMTCshouldnecessarilybelessnegativethantheEOLLCOlimit.Toaccountforthiseffect,the300ppmsurveillancerequirementvalueissufficientlylessnegativethantheEOLLCOlimitvalue,whichisspecifiedintheCOLR,therebyprovidingassurancethattheLCOlimitwillbemetaslongasthe300ppmsurveillancecriterionismet.Currently,CookNuclearPlantUnits1and2T/SsrequiremeasurementsofMTCatbeginningoflife(BOL)toverifythemostpositiveMTClimitandnearEOLtoverifythemostnegative,MTClimit.AtBOL,themeasurementoftheisothermaltemperaturecoefficient,andsubsequentMTCcalculation,isrelativelysimpletoperform.Themeasurementisdoneathotzeropowerisothermalconditionsandisnotcomplicatedbychangesintheenthalpyriseorthepresenceofxenon.ThemeasurementmadenearEOLdiffersfromtheBOLmeasurementasitisperformedatornearHFPconditions.MTCmeasurementsatHFParemoredifficulttoperformduetosmallvariationsinsolubleboronconcentrationandchangesinxenonconcentrationanddistribution,fueltemperature,andenthalpyrisecreatedbysmallchangesinthecoreaveragepowerduringthemeasurement.Changesineachoftheseparametersmustbeaccuratelyaccountedforwhenreducingthemeasurementdata,oradditionalmeasurementuncertaintieswillbeintroduced.Eventhoughtheseadditionaluncertaintiesmaybesmall,thetotalreactivitychangeassociatedwiththeswinginmoderatortemperatureisalsorelativelysmall.TheresultingMTCmeasurementuncertaintycreatedbyevenasmallchangeinpowerlevelcanthenbecomesignificantand,ifimproperlyaccountedfor,canyieldmisleadingmeasurementresults'naddition,itshouldbementionedthatthe300ppmMTCtestisperformedatapproximately95%power,whichadverselyaffectsplantavailability.Withrespecttohumanresources,thetesttakesupto60man-hours.
| | Thetestwillnotbeperformed ifspecified coreperformance benchmark criteriaaremetfortheoperating cycleandtherevisedpredicted MTCislessnegativethantheMTCsurveillance limitpresented intheCoreOperation LimitsReport(COLR).Wearealsoproposing toaddT/S6.9.1.12, whichdefinesacyclespecific"MostNegativeModerator Temperature Coefficient LimitReport"containing information forcalculation oftherevisedpredicted MTC.Thereportwillbefiledandavailable forNRCaudit.Thesechangesarerequested becauseitisbelievedthatarelaxation oftheexistingcriteriaforperforming theMTCmeasurement neartheend-of-cycle (EOC)isjustifiable whilestillensuringtheEOCMTCiswithinitslimits.The300ppmMTCmeasurement istime-andresource-consuming. |
| ATTACHMENT1toAEP:NRC:1028APage3Themethodproposedhere,fordeterminingwhetherthesurveillanceissatisfied,istocalculatearevisedpredictionoftheMTCbasedontheactualcorereactivity,actualaxialpowerdistribution,andMTCpredictivecapabilityofthedesignmodel.IftherevisedpredictedMTCmeetsthesurveillancerequirementandtheperformancecriteriapresentedinTable3-2ofReference1issatisfied,thenthemeasurementisnotrequired.Insummary,theconditionalexemptionfromthemeasurementissoughttoimproveplantavailabilityandminimizedisruptionstonormaloperationoftheCookNuclearPlantunits.AsdocumentedinReferences1and2,ithasbeenconcludedthatplantsafetywillnotbecompromisedbytheconditionalexemptionofthismeasurement.Asaresult,theSignificantHazardsConsiderationEvaluationbelowprovidesjustificationthattheconditionalexemptionfromthemeasurementofthe300ppmMTCdoesnotinvolveanysignificanthazardsconsideration.10CFR50.92SIGNIFICANTHAZARDSCONSIDERATIONANALYSIS10CFR50.92specifiesthattheholderofanoperatinglicense'orconstructionpermitofanuclearpowerfacilityparticipateindeterminingwhetherachangetotheT/Ss/currentlicensingbasis(CLB)involvesasignificanthazardsconsideration.Priortoimplementationofachangetothecurrentlicensingbasis,theNuclearRegulatoryCommissionmustreviewandmakeafinaldetermination,pursuanttotheproceduresin10CFR50.91,thataproposedamendmenttotheoperatinglicenseinvolvesnosignificanthazardsconsiderations.Inordertosatisfactorilycompletethereview,theproposedamendmenttotheCLBmustnot:involveasignificantincreaseintheprobabilityorconsequencesofanaccidentpreviouslyevaluated,2.createthepossibilityofanewordifferentkindofaccidentfromanyaccidentpreviouslyevaluated,or3.involveasignificantreductioninamarginofsafety.TheimpactofthesuggestedT/SchangesontheMTCsurveillanceandCOLRsectionsisevaluatedbelowwithrespecttotheacceptancecriteriafortheaccidentsaddressedinChapter14ofCookNuclearPlantUnits1and2FSAR.NuclearDesignConsiderationsTheconditionalexemptionofthemostnegativeEOLMTCmeasurementmethodologyisdescribedindetailinReference1.TheT/SBasesofthemostnegativeMTCLCOandsurveillancerequirement,andthevaluesof"theselimits,arenotaltered.Instead,arevisedpredictioniscomparedtotheMTCsurveillancerequirementtodetermineifthesurveillancelimitismet.TherevisedpredictionissimplythesumofthepredictedHFP300ppmMTCsurveillancerequirementplusanaxialfluxdifference(AFD)correctionfactorplusapredictivecorrectionterm.Abriefdescriptionofeachofthesetermsisgivenbelow.
| | Itdisruptsnormaloperation anddecreases theavailability ofthepowerplant.Incorporating thesechangeswouldeliminate thesurveillance whenitiscertainfromotherindicators thattheEOCMTClimitwouldnotbeexceeded. |
| ATTACHMENT1toAEP:NRC:1028APage4PredictedHFP300ppmsurveillancerequirementMTCAnymispredictionofthecorereactivitybalancebythecoremodelwouldcausethecoretobeataboronconcentrationof300ppmatadifferentcycleburnupthanactual.ThisinturnwouldcauseadifferenceintheactualversuspredictedMTC.ThesensitivityofMTCat300ppmasafunctionofcoreburnupisdeterminedandprovidedaspartoftheMostNegativeMTCLimitReport.AFDCorrectionTheMTCisaffectedbytheAFDviatheimpacttheaxialfluxdistributionhasonthemoderatortemperatureprofile.Themorebottomskewedthepowerdistribution,thehigherthetemperaturesnearthebottomofthecore.Also,theburnupinthebottomhalfofthecoreexceedstheburnupinthetophalf.AhigherburnupwillresultinamorenegativeMTC.Amorebottomskewedaxialpowershapeallocatesagreaterfluxweightingtothelowerregionofthecorewheretheburnupisgreater,therebyaccentuatingtheburnupeffectonMTC.TheMTCsensitivitytoAFDisprovidedintheMTClimitreport.SincemeasuredAFDmustbedeterminedevery31days,thelatestmeasurementcanbecomparedwiththepredictionandthedifferenceobtained.ThisdifferenceisthenusedwiththeAFDsensitivitytoobtainthecorrection.PredictiveCorrectionTermToaccountfortheMTCpredictivecapabilityofthedesignmodelforagivencycle,anadditionalcorrectionwillbeappliedtothepredictedMTCtodeterminethefinalMTCtobecomparedtothesurveillancelimit.Thepredictivecorrectionwillbedefinedas0pcm/'ForthedifferencebetweenthemeasuredandpredictedBOChotzeropowerMTC,whicheverismorenegative.Theconditionalexemptionfromthemeasurementwillbedeterminedonacycle-specificbasis.Thecoremodelperformancemustbebenchmarkedtotheoperatingcorebeforeapplyingtheprocedurefordeterminingtherevisedprediction.ThespecificparameterschosenandtheassociatedcriteriaaregiveninReference1.Meetingthesecriteriademonstratesthecoremodel'scapabilitytoaccuratelypredictchangesinthecorecharacteristicswithdepletion,andthereforeprovideanaccuratepredictionoftheHFP300ppmMTC~SafetyAnalysisConsiderationsThesafetyanalysisassumptionofaconstantMDC,andtheactualvalueassumed,willnotchange.Therefore,aconditionalexemptionfromthe300ppmMTCmeasurementbasedonthemargintothesurveillancelimitwillnothaveanadverseimpactonthesafeoperationoftheplant.
| | Wepreviously madeasimilarsubmittal viaAEP:NRC:1028, datedOctober20,1987.Uponreview,however,theNRCconcluded that"Thistypeofamendment shouldbehandledasagenericissuedueA,g<gi9408010220 940726PDRADGCK05000315PPDR W.T.Russell-2-AEP:NRC:1028A toitsindustrywideimplications." |
| ATTACHMENT1toAEP:NRC:1028APage5TechnicalSpecificationImpactsTheproposedT/Ssurveillance4.1.1.4andconcomitantCOLRchangesrequiredtosupporttheconditionalexemptionaredescribedinReference1.TheseT/SchangeswillnotchangetheLCOorsurveillancerequirementMTClimits.ThespecificvaluesofthesurveillancerequirementandLCOMTCsremainunchangedbytheconditionalexemptionmethodologydocumentedinReference1.AnadditionalT/Swillbeadded(6.9.1.12)whichwilldefinethe"MostNegativeModeratorTemperatureCoefficientLimitReport."Thiscycle-specificreportwillprovidetheinformationrequiredforcalculatingthemargintothesurveillancelimit.Reference"e"willalsobeaddedtothelistofreferencesinT/S6.9.1.11.2.DETERMINATIONOFNOSIGNIFICANTHAZARDSDoestheEOLMTCmeasurementconditionalexemptioninvolveasignificantincreaseintheprobabilityorconsequencesofanaccidentpreviouslyevaluated'PNO.TheconditionalexemptionofthemostnegativeMTCmeasurementdoesnotchangethemostnegativeMTCsurveillanceandLCOlimitsintheT/Ss.SincetheseMTCvaluesareunchanged,andsincethebasisforthederivationofthesevaluesfromthesafetyanalysisMDCisunchanged,theconstantMDCassumedfortheFSARsafetyanalyseswillalsoremainunchanged.Therefore,nochangeinthemodeling(i.e.,probabilities)oftheaccidentanalysisconditionsorresponseisnecessaryinordertoimplementthechangetotheconditionalexemptionmethodology.Inaddition,sincetheconstantMDCassumedinthesafetyanalysesisnotchangedbytheconditionalexemptionofthemostnegativeMTCsurveillancemeasurement,theconsequencesofanaccidentpreviouslyevaluatedintheFSARarenotincreased.ThedosepredictionspresentedintheFSARforaSGTRremainvalidsuchthatmoresevereconsequenceswillnotoccur.Additionally,sincemassandenergyreleasesforLOCAandsteamlinebreakarenotincreasedasaresultoftheunchangedMDC,thedosepredictionsfortheseeventspresentedintheFSARalsoremainbounding.Criterion2DoestheEOLMTCmeasurementconditionalexemptioncreatethepossibilityofanewordifferentkindofaccidentfromanyaccidentpreviouslyevaluated'O.SincetheEOLMTCisnotchangedbytheconditionalexemptionmethodologyofReference1,thepossibilityofanaccidentwhichisdifferentthananyalreadyevaluatedintheFSARhasnotbeencreated.Nonewordifferentfailuremodeshavebeendefinedforanysystemorcomponentnorhasanynewlimitingsinglefailurebeen ATTACHMENT1toAEP:NRC:1028APage6identified.ConservativeassumptionsforMDChavealreadybeenmodeledintheFSARanalyses.TheseassumptionswillremainvalidsincetheconditionalexemptionmethodologydocumentedinReference1doesnotchangethesafetyanalysisMDCnortheT/SvaluesoftheMTC.Criterion3DoestheEOLMTCmeasurementconditionalexemptioninvolveasignificantreductioninamarginofsafety'O.TheevaluationoftheconditionalexemptionmethodologydocumentedinReference1hastakenintoaccounttheapplicableCookNuclearPlantUnits1and2T/Ssandhasboundedtheconditionsunderwhichthespecificationspermitoperation.TheapplicableT/Ssaresurveillance4.1.1.4,andreference"e"isaddedtothelistofreferencesinSpecification6.9.1.11.2.Anadditionalspecification6.9.1.12isaddedtodefinetherequirementsforthe"MostNegativeModeratorTemperatureCoefficientLimitReport,"whichisdescribedinAppendicesA,C,andDofReference1.TheCOLRhasalsobeenmodifiedasdescribedinAppendixBofReference1,TheanalyseswhichsupporttheseT/Sshavebeenevaluated.Theresults,aspresentedintheFSAR,remainboundingsincetheMDCassumedinthesafetyanalysesandtheLCOandsurveillancerequirementMTCsintheT/Ssremainunchanged.Therefore,themarginofsafety,asdefinedinthebasestotheseT/Ss,isnotreduced.ConclusionItisconcludedthatoperationofCookNuclearPlantUnits1and2withaconditionalexemptionfromthemostnegativeMTCmeasurement,asdescribedinReference1andthisevaluation,doesnotinvolveanysignificanthazardsasdefinedin10CFR50.92.References1.WCAP-13749-P,"SafetyEvaluationSupportingTheConditionalExemptionoftheMostNegativeEOLModeratorTemperatureCoefficientMeasurement,"May1993.2,LetterET-NRC-93-3894,fromNicholasJ.Liparulo,ManagerNuclearSafetyandRegulatoryActivitiesofWestinghouseElectricCorporationtoR.C.Jones,ReactorSystemsBranchChief,DivisionofEngineeringandSystemTechnologyofUSNRC,datedJune1,1993.
| | Asaresult,thiscurrentsubmittal isbasedonthegenericinvestigation performed byWestinghouse ElectricCorporation anddocumented inReference 1ofAttachment 1.Thisdocumentwassubmitted totheNRCforreviewandapprovalinReference 2ofAttachment 1.Adescription oftheproposedchangesandanalysisconcerning significant hazardsconsideration pursuantto10CFR50.92iscontained inAttachment l.Attachment 2containstheexistingT/Spagesmarkedtoreflectproposedchanges.Attachment 3containstheproposed, revisedT/Spages.WebelievethattheproposedT/Schangeswillnotresultin(1)asignificant changeintheamountofeffluentthatmightbereleasedoffsite,or(2)asignificant increaseinindividual orcumulative occupational radiation exposure. |
| ATTACHMENT2TOAEP:NRC:1028AEXISTINGTECHNICALSPECIFICATIONPAGESMARKEDTOREFLECTPROPOSEDCHANGES}}
| | TheseproposedT/SchangeshavebeenreviewedandapprovedbythePlantNuclearSafetyReviewCommittee andbytheNuclearSafetyandDesignReviewCommittee. |
| | Incompliance withtherequirements of10CFR50.91(b)(1), |
| | copiesofthisletteranditsattachments havebeentransmitted toMr.J.R.PadgettoftheMichiganPublicServiceCommission andtheMichiganDepartment ofPublicHealth.Thisletterissubmitted pursuantto10CFR50.30(b)and,assuch,anoathstatement isattached. |
| | Sincerely, E.E.FitzatrickVicePresident cadAttachments cc:A.A.BlindG.CharnoffJ.B.Martin-RegionIIINFEMSectionChiefNRCResidentInspector J.R.Padgett |
| | ~~@1 STATEOFOHIO)COUNTYOFFRANKLIN) |
| | E.E.Fitzpatrick, beingdulysworn,deposesandsaysthatheistheVicePresident oflicenseeIndianaMichiganPowerCompany,thathehasreadtheforgoingPROPOSEDTECHNICAL SPECIFICATION CHANGESFORMODERATOR TEMPERATURE COEFFICIENT MEASUREMENT andknowsthecontentsthereof;andthatsaidcontentsaretruetothebestofhisknowledge andbelief.Subscribed andsworntobeforemethis~~~dayof19~VNOTARYPBLICRITAD.HILL ATTACHMENT 1TOAEP:NRC:1028A DESCRIPTION OFPROPOSEDTECHNICAL SPECIFICATION CHANGESAND10CFR50.92SIGNIFICANT HAZARDSCONSIDERATION ANALYSIS ATTACHMENT 1toAEP:NRC:1028A Page1DESCRIPTION OFCHANGES(bothunits)Itisproposedthatsurveillance requirement 4.1.1.4.b bechangedtoallowsuspension ofthe300ppmmoderator temperature coefficient (MTC)measurement providedthebenchmark criteriaandtherevisedprediction, asdocumented intheCoreOperating LimitsReport(COLR),aresatisfied. |
| | Thechangealsospecifies thatthedatarequiredfor,calculation oftherevisedprediction isprovidedinthe"MostNegativeModerator Temperature Coefficient LimitReport,"perT/S6.9.1.12. |
| | 2.Itisproposedthatadministrative controlparagraph 6.9.1.12beaddedtodefinethe"MostNegativeModerator Temperature Coefficient LimitReport."Thereport,whichwillbemaintained onfile,includesdatarequiredforthedetermination oftherevisedprediction ofthe300ppmallrodsout(ARO)atratedthermalpower(RTP)MTCperWCAP-13749, "SafetyEvaluation Supporting theConditional Exemption oftheMostNegativeEOLModerator Temperature Coefficient Measurement," |
| | May1993.3.ItisproposedthatWCAP-13749 beaddedasreference "e"toadministrative controlsection6.9.1.11.2. |
| | JUSTIFICATION FORTHECHANGEPursuantto10CFR50.92,eachapplication foranamendment toanoperating nuclearplantlicenseorconstruction permitmustbereviewedtodetermine iftheproposedchangeinvolvesasignificant hazardsconsideration. |
| | Theproposedtechnical specification amendment fortheendoflife(EOL)MTCconditional exemption hasbeenreviewedanditisconcluded thatnosignificant hazardsresultfromthisT/Schange.Background ForFSARaccidentanalyses, thetransient responseoftheplantisdependent onreactivity feedbackeffects,inparticular, themoderator densitycoefficient (MDC)andtheDopplerpowercoefficient. |
| | Becauseofthesensitivity ofaccidentanalysisresultstotheMDCvalueassumed,itisimportant thattheactualcoreMDCremainwithintheboundsofthelimitingvaluesassumedintheFSARaccidentanalyses. |
| | Whilecoreneutronics analyseswillconfirmthattheMDCiswithintheseboundsduringanoperating cycle,CookNuclearPlantT/Sscurrently placelimitsontheMTCduringnormaloperation. |
| | MTCmeasurements areperformed atthebeginning ofcycle(BOC)priortoinitialoperation above5%RTPandatRTPconditions withinseveneffective fullpowerdays(EFPD)afterreachinganequilibrium boronconcentration of300ppm. |
| | ATTACHMENT 1toAEP:NRC:1028A Page2Inordertoensureaboundingaccidentanalysis, theMDCisassumedtobeatitsmostlimitingvaluefortheanalysisconditions appropriate toeachaccident. |
| | ThemostpositiveMDClimitingvalueisbasedontheEOLcoreconditions corresponding tomaximumfuelburnupandminimumboronconcentration assuming100%RTP.Twodifferent T/SbasesrelatingtheaccidentanalysisMDCtothemostnegativeMTChavebeenpreviously licensedforWestinghouse plantsasdescribed inChapter2ofReference 1ofthisAttachment. |
| | MostaccidentanalysesuseaconstantMDCdesignedtoboundtheMDCattheworstsetofinitialconditions aswellasatthemostlimitingsetoftransient conditions. |
| | ThisvalueofMDCformsthelicensing basisfortheFSARaccidentanalysisaswellasthebasesforthecurrentEOLMTCT/Srequirements. |
| | Converting theMDCusedintheaccidentanalysistoacorresponding MTCrequiresacalculation whichaccountsfortherateofchangeofmoderator densitywithtemperature attheconditions ofinterest. |
| | T/Ssplacebothlimitingcondition foroperation (LCO)[T/S3.1.1.4]andsurveillance requirement |
| | [T/S4.1.1.4]constraints ontheMTC,basedontheaccidentanalysisassumptions oftheMDC.ThemostnegativbMTCLCOlimitappliestoModes1,2,and3,andrequiresthattheMTCbelessnegativethanthespecified limitvaluefortheARO/EOL/RTP condition. |
| | Todemonstrate compliance withthemostnegativeMTCLCO,theT/Ssurveillance callsforverification oftheMTCafter300ppmequilibrium boronconcentration isobtained. |
| | Becausethehotfullpower(HFP)MTCvaluewillgradually becomemorenegativewithfurthercoreburnupandboronconcentration reduction, a300ppmsurveillance requirement valueoftheMTCshouldnecessarily belessnegativethantheEOLLCOlimit.Toaccountforthiseffect,the300ppmsurveillance requirement valueissufficiently lessnegativethantheEOLLCOlimitvalue,whichisspecified intheCOLR,therebyproviding assurance thattheLCOlimitwillbemetaslongasthe300ppmsurveillance criterion ismet.Currently, CookNuclearPlantUnits1and2T/Ssrequiremeasurements ofMTCatbeginning oflife(BOL)toverifythemostpositiveMTClimitandnearEOLtoverifythemostnegative,MTC limit.AtBOL,themeasurement oftheisothermal temperature coefficient, andsubsequent MTCcalculation, isrelatively simpletoperform.Themeasurement isdoneathotzeropowerisothermal conditions andisnotcomplicated bychangesintheenthalpyriseorthepresenceofxenon.Themeasurement madenearEOLdiffersfromtheBOLmeasurement asitisperformed atornearHFPconditions. |
| | MTCmeasurements atHFParemoredifficult toperformduetosmallvariations insolubleboronconcentration andchangesinxenonconcentration anddistribution, fueltemperature, andenthalpyrisecreatedbysmallchangesinthecoreaveragepowerduringthemeasurement. |
| | Changesineachoftheseparameters mustbeaccurately accounted forwhenreducingthemeasurement data,oradditional measurement uncertainties willbeintroduced. |
| | Eventhoughtheseadditional uncertainties maybesmall,thetotalreactivity changeassociated withtheswinginmoderator temperature isalsorelatively small.Theresulting MTCmeasurement uncertainty createdbyevenasmallchangeinpowerlevelcanthenbecomesignificant and,ifimproperly accounted for,canyieldmisleading measurement results'n |
| | : addition, itshouldbementioned thatthe300ppmMTCtestisperformed atapproximately 95%power,whichadversely affectsplantavailability. |
| | Withrespecttohumanresources, thetesttakesupto60man-hours. |
| | ATTACHMENT 1toAEP:NRC:1028A Page3Themethodproposedhere,fordetermining whetherthesurveillance issatisfied, istocalculate arevisedprediction oftheMTCbasedontheactualcorereactivity, actualaxialpowerdistribution, andMTCpredictive capability ofthedesignmodel.Iftherevisedpredicted MTCmeetsthesurveillance requirement andtheperformance criteriapresented inTable3-2ofReference 1issatisfied, thenthemeasurement isnotrequired. |
| | Insummary,theconditional exemption fromthemeasurement issoughttoimproveplantavailability andminimizedisruptions tonormaloperation oftheCookNuclearPlantunits.Asdocumented inReferences 1and2,ithasbeenconcluded thatplantsafetywillnotbecompromised bytheconditional exemption ofthismeasurement. |
| | Asaresult,theSignificant HazardsConsideration Evaluation belowprovidesjustification thattheconditional exemption fromthemeasurement ofthe300ppmMTCdoesnotinvolveanysignificant hazardsconsideration. |
| | 10CFR50.92SIGNIFICANT HAZARDSCONSIDERATION ANALYSIS10CFR50.92specifies thattheholderofanoperating license'or construction permitofanuclearpowerfacilityparticipate indetermining whetherachangetotheT/Ss/current licensing basis(CLB)involvesasignificant hazardsconsideration. |
| | Priortoimplementation ofachangetothecurrentlicensing basis,theNuclearRegulatory Commission mustreviewandmakeafinaldetermination, pursuanttotheprocedures in10CFR50.91,thataproposedamendment totheoperating licenseinvolvesnosignificant hazardsconsiderations. |
| | Inordertosatisfactorily completethereview,theproposedamendment totheCLBmustnot:involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated, 2.createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated, or3.involveasignificant reduction inamarginofsafety.Theimpactofthesuggested T/SchangesontheMTCsurveillance andCOLRsectionsisevaluated belowwithrespecttotheacceptance criteriafortheaccidents addressed inChapter14ofCookNuclearPlantUnits1and2FSAR.NuclearDesignConsiderations Theconditional exemption ofthemostnegativeEOLMTCmeasurement methodology isdescribed indetailinReference 1.TheT/SBasesofthemostnegativeMTCLCOandsurveillance requirement, andthevaluesof"theselimits,arenotaltered.Instead,arevisedprediction iscomparedtotheMTCsurveillance requirement todetermine ifthesurveillance limitismet.Therevisedprediction issimplythesumofthepredicted HFP300ppmMTCsurveillance requirement plusanaxialfluxdifference (AFD)correction factorplusapredictive correction term.Abriefdescription ofeachofthesetermsisgivenbelow. |
| | ATTACHMENT 1toAEP:NRC:1028A Page4Predicted HFP300ppmsurveillance requirement MTCAnymisprediction ofthecorereactivity balancebythecoremodelwouldcausethecoretobeataboronconcentration of300ppmatadifferent cycleburnupthanactual.Thisinturnwouldcauseadifference intheactualversuspredicted MTC.Thesensitivity ofMTCat300ppmasafunctionofcoreburnupisdetermined andprovidedaspartoftheMostNegativeMTCLimitReport.AFDCorrection TheMTCisaffectedbytheAFDviatheimpacttheaxialfluxdistribution hasonthemoderator temperature profile.Themorebottomskewedthepowerdistribution, thehigherthetemperatures nearthebottomofthecore.Also,theburnupinthebottomhalfofthecoreexceedstheburnupinthetophalf.AhigherburnupwillresultinamorenegativeMTC.Amorebottomskewedaxialpowershapeallocates agreaterfluxweighting tothelowerregionofthecorewheretheburnupisgreater,therebyaccentuating theburnupeffectonMTC.TheMTCsensitivity toAFDisprovidedintheMTClimitreport.SincemeasuredAFDmustbedetermined every31days,thelatestmeasurement canbecomparedwiththeprediction andthedifference obtained. |
| | Thisdifference isthenusedwiththeAFDsensitivity toobtainthecorrection. |
| | Predictive Correction TermToaccountfortheMTCpredictive capability ofthedesignmodelforagivencycle,anadditional correction willbeappliedtothepredicted MTCtodetermine thefinalMTCtobecomparedtothesurveillance limit.Thepredictive correction willbedefinedas0pcm/'Forthedifference betweenthemeasuredandpredicted BOChotzeropowerMTC,whichever ismorenegative. |
| | Theconditional exemption fromthemeasurement willbedetermined onacycle-specific basis.Thecoremodelperformance mustbebenchmarked totheoperating corebeforeapplyingtheprocedure fordetermining therevisedprediction. |
| | Thespecificparameters chosenandtheassociated criteriaaregiveninReference 1.Meetingthesecriteriademonstrates thecoremodel'scapability toaccurately predictchangesinthecorecharacteristics withdepletion, andtherefore provideanaccurateprediction oftheHFP300ppmMTC~SafetyAnalysisConsiderations Thesafetyanalysisassumption ofaconstantMDC,andtheactualvalueassumed,willnotchange.Therefore, aconditional exemption fromthe300ppmMTCmeasurement basedonthemargintothesurveillance limitwillnothaveanadverseimpactonthesafeoperation oftheplant. |
| | ATTACHMENT 1toAEP:NRC:1028A Page5Technical Specification ImpactsTheproposedT/Ssurveillance 4.1.1.4andconcomitant COLRchangesrequiredtosupporttheconditional exemption aredescribed inReference 1.TheseT/SchangeswillnotchangetheLCOorsurveillance requirement MTClimits.Thespecificvaluesofthesurveillance requirement andLCOMTCsremainunchanged bytheconditional exemption methodology documented inReference 1.Anadditional T/Swillbeadded(6.9.1.12) whichwilldefinethe"MostNegativeModerator Temperature Coefficient LimitReport."Thiscycle-specific reportwillprovidetheinformation requiredforcalculating themargintothesurveillance limit.Reference "e"willalsobeaddedtothelistofreferences inT/S6.9.1.11.2. |
| | DETERMINATION OFNOSIGNIFICANT HAZARDSDoestheEOLMTCmeasurement conditional exemption involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated'P NO.Theconditional exemption ofthemostnegativeMTCmeasurement doesnotchangethemostnegativeMTCsurveillance andLCOlimitsintheT/Ss.SincetheseMTCvaluesareunchanged, andsincethebasisforthederivation ofthesevaluesfromthesafetyanalysisMDCisunchanged, theconstantMDCassumedfortheFSARsafetyanalyseswillalsoremainunchanged. |
| | Therefore, nochangeinthemodeling(i.e.,probabilities) oftheaccidentanalysisconditions orresponseisnecessary inordertoimplement thechangetotheconditional exemption methodology. |
| | Inaddition, sincetheconstantMDCassumedinthesafetyanalysesisnotchangedbytheconditional exemption ofthemostnegativeMTCsurveillance measurement, theconsequences ofanaccidentpreviously evaluated intheFSARarenotincreased. |
| | Thedosepredictions presented intheFSARforaSGTRremainvalidsuchthatmoresevereconsequences willnotoccur.Additionally, sincemassandenergyreleasesforLOCAandsteamline breakarenotincreased asaresultoftheunchanged MDC,thedosepredictions fortheseeventspresented intheFSARalsoremainbounding. |
| | Criterion 2DoestheEOLMTCmeasurement conditional exemption createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated'O. |
| | SincetheEOLMTCisnotchangedbytheconditional exemption methodology ofReference 1,thepossibility ofanaccidentwhichisdifferent thananyalreadyevaluated intheFSARhasnotbeencreated.Nonewordifferent failuremodeshavebeendefinedforanysystemorcomponent norhasanynewlimitingsinglefailurebeen ATTACHMENT 1toAEP:NRC:1028A Page6identified.Conservative assumptions forMDChavealreadybeenmodeledintheFSARanalyses. |
| | Theseassumptions willremainvalidsincetheconditional exemption methodology documented inReference 1doesnotchangethesafetyanalysisMDCnortheT/SvaluesoftheMTC.Criterion 3DoestheEOLMTCmeasurement conditional exemption involveasignificant reduction inamarginofsafety'O. |
| | Theevaluation oftheconditional exemption methodology documented inReference 1hastakenintoaccounttheapplicable CookNuclearPlantUnits1and2T/Ssandhasboundedtheconditions underwhichthespecifications permitoperation. |
| | Theapplicable T/Ssaresurveillance 4.1.1.4,andreference "e"isaddedtothelistofreferences inSpecification 6.9.1.11.2. |
| | Anadditional specification 6.9.1.12isaddedtodefinetherequirements forthe"MostNegativeModerator Temperature Coefficient LimitReport,"whichisdescribed inAppendices A,C,andDofReference 1.TheCOLRhasalsobeenmodifiedasdescribed inAppendixBofReference 1,TheanalyseswhichsupporttheseT/Sshavebeenevaluated. |
| | Theresults,aspresented intheFSAR,remainboundingsincetheMDCassumedinthesafetyanalysesandtheLCOandsurveillance requirement MTCsintheT/Ssremainunchanged. |
| | Therefore, themarginofsafety,asdefinedinthebasestotheseT/Ss,isnotreduced.Conclusion Itisconcluded thatoperation ofCookNuclearPlantUnits1and2withaconditional exemption fromthemostnegativeMTCmeasurement, asdescribed inReference 1andthisevaluation, doesnotinvolveanysignificant hazardsasdefinedin10CFR50.92.References 1.WCAP-13749-P, "SafetyEvaluation Supporting TheConditional Exemption oftheMostNegativeEOLModerator Temperature Coefficient Measurement," |
| | May1993.2,LetterET-NRC-93-3894, fromNicholasJ.Liparulo, ManagerNuclearSafetyandRegulatory Activities ofWestinghouse ElectricCorporation toR.C.Jones,ReactorSystemsBranchChief,DivisionofEngineering andSystemTechnology ofUSNRC,datedJune1,1993. |
| | ATTACHMENT 2TOAEP:NRC:1028A EXISTINGTECHNICAL SPECIFICATION PAGESMARKEDTOREFLECTPROPOSEDCHANGES}} |
Similar Documents at Cook |
|---|
Category:OPERATING LICENSES-APPLIATION TO AMEND-RENEW EXISTING
MONTHYEARML17335A5551999-10-12012 October 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Surveillance Requirement 4.6.2.2.d for Spray Additive Sys to Relocate Details Associated with Acceptance Criteria & Test Parameters to Associated TS Bases
ML17335A5591999-10-11011 October 1999
Supplement to Application for Amends to Licenses DPR-58 & DPR-74,replacing Correct TS Pages Inadvertently Included in 990923 Submittal.Attached Pages Also Include Appropriate Administrative Changes
ML17335A5411999-10-0101 October 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising Containment Recirculation Sump Water Inventory.Calculation & non-proprietary WCAP-15302 Rept Also Encl
ML17326A1571999-09-23023 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,involving Movement of Loads in Excess of Design Basis Seismic Capability of Auxiliary Bldg Load Handling Equipment & Structures
ML17326A1421999-09-17017 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,to Allow Credit of Rod Cluster Control Assemblies for Cold Leg Large Break LOCA Subcriticality.Ts Pages & non-proprietary Versions of WCAP-15246 Encl.Proprietary Version Withheld
ML17326A1161999-09-10010 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Surveillance Requirement 4.4.7,TS Tables 4.4-3,3.4-1 & TS Surveillance Requirement 4.11.2.2 Re RCS & Gas Storage Tank Sampling
ML17326A0921999-08-17017 August 1999
Application for Amend to License DPR-58,to Change TS 3/4.4.5 & Bases for TS 3/4.4.5,3/4.4.6.2 & 3/4.4.8 to Remove voltage-based Repair Criteria,F* Repair Criteria & Sleeving Methodologies from Unit 1 TS & Clarify Bases Sections
ML17325B6041999-05-21021 May 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising Limitations of Positive Reactivity Additions in Several TS Action Statements
ML17325B5511999-04-19019 April 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 3/4.8.1.2, Electrical Power Systems & Associated Bases to Provide one-time Extension of 18-month Surveillance Interval for Specific SRs
ML17335A3661998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,adding TS for Distributed Ignition Sys
ML17335A3631998-12-0303 December 1998
Application for Amend to License DPR-58,revising TS 3/4.7.7, Sealed Source Contamination & Associated Bases to Address Testing Requirements for Fission Detectors
ML17335A3591998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,making Administrative Changes to Remove Obsolete Info,To Provide Consistency Between Units 1 & 2,to Provide Consistency with Std Tech Specs,To Provide Clarification & to Correct Typos
ML17335A3561998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 4.6.5.1, Ice Condenser,Ice Bed & Associated Bases to Reflect Max Ice Condenser Flow Channel Blockage Assumed in Accident Analyses
ML17335A2631998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Containment Sys Bases 3/4.6.1.4 Re Internal Pressure & 3/4.6.1.5 Re Air Temp
ML17335A2761998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,placing Tighter Restrictions on Amount of Time RWST Water Level Instrumentation Can Be Out of Svc Before Compensatory Actions Are Required
ML17335A2671998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 3.4.1.3, RCS - Shutdown & Associated Bases to Provide Separate Requirements for Modes 4 & 5 with Loops Filled & Mode 5 with Loops Not Filled
ML17335A2311998-09-14014 September 1998
Application for Amends to Licenses DPR-58 & DPR-74,changing Runout Limits for Safety Injection Pump to 675 Gpm Unless Pump Is Specifically Tested to Higher Flow Rate Not Exceeding 700 Gpm
ML17335A1901998-08-28028 August 1998
Application for Amend to License DPR-58,requesting Extension of SG Surveillance,Which TSs Require to Be Performed on or Before 990408,until End of Current Refuel Cycle Currently Scheduled for Mar 2000.W/assessment of SG Degradation & TSs
ML17334A7471998-06-10010 June 1998
Application for Amends to Licenses DPR-54 & DPR-78,changing Implementation Date to Reduce Boric Acid Concentration in Boric Acid Storage Sys.Attachment 1 to Ltr Contains Description of Proposed Change & Justification for Change
ML17334B7011998-03-0303 March 1998
Application for Amends to TS for Licenses DPR-58 & DPR-74, Removing Word Immediately from Unit 1 Hydrogen Recombiner Surveillance Requirement 4.6.4.2.b.4 & Revising Plants TS 3/4.6.4 Bases
ML17334B6561997-10-0808 October 1997
Application for Amends to Licenses DPR-58 & DPR-78,changing TSs 3/4.6.5 & 3/4.5.5 to Increase Both Minimum Required Ice Mass Per Ice Basket & Total Minimum Required Ice Mass. Proprietary Summary of Sump Inventory Calculations,Encl
ML17333B0431997-09-19019 September 1997
Application for Amends to Licenses DPR-58 & DPR-74,deleting Requirement for Automatic Valve Closure Feature on RHR Sys Suction from RCS
ML17333A9831997-08-11011 August 1997
Application for Amends to Licenses DPR-58 & DPR-74,allowing Filling of ECCS Accumulators W/O Declaring ECCS Equipment Inoperable
ML17335A2101997-08-0101 August 1997
Application for Amends to Licenses DPR-58 & DPR-74,deleting Wording When Secondary Steam Supply Pressure Is Greater than 310 Psig from TS
ML17333A8281997-03-26026 March 1997
Application for Amends to Licenses DPR-58 & DPR-74, Modifying TS 4.7.5.1.e.2 Which Describes Control Room Ventilation Sys Autostart Functions
ML17333A8311997-03-26026 March 1997
Application for Amends to Licenses DPR-58 & DPR-74,changing Grammatical Correction to Wording of Unit 2 TS 3.4.8,Action a for Modes 1,2 & 3 & Returning Frequency Requirement to TS 4.7.1.2.c & 4.7.1.2.d That Was Inadvertently Deleted
ML17333A7121996-12-20020 December 1996
Application for Amends to Licenses DPR-58 & DPR-74, Requesting Rev of Reactor Coolant Pump Flywheel Insp Frequency
ML17334B5941996-07-11011 July 1996
Application for Amends to Licenses DPR-58 & DPR-74,revising TS to Support Operation of Unit 2 at Increased Core Rated Thermal Power of 3,588 Mwt.Rev 1 to WCAP-14489, ...Unit 2 3,600 Mwt Uprating Program Licensing Rept Encl
ML17334B5901996-06-19019 June 1996
Application for Amend to License DPR-58,addressing Applicable Requirements of NRC GL 95-05, Voltage-Based Repair Criteria for Repair of Westinghouse SG Tubes Affected by Outside Diameter Stress Corrosion Cracking.
ML17334B5891996-06-11011 June 1996
Application for Amends to Licenses DPR-58 & DPR-74,removing TSs Certain Requirements for Administrative Controls,Related to QA Requirements,Per Administrative Ltr 96-05
ML17333A4201996-04-0808 April 1996
Application for Amends to Licenses DPR-58 & DPR-74,moving TS 4.0.4 Exemption Statement for MSSVs Into Section 4.7.1.1
ML17333A3551996-03-12012 March 1996
Application for Amend to License DPR-74,removing TSs Re Shutdown & Control Rod Position Indication While in Modes 3, 4 & 5
ML17334B5751996-02-29029 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,revising TS to Reduce Boric Acid Concentration in Boric Acid Storage Sys from Approx 12 Percent to Approx 4 Percent by Weight. Technical Rept Presenting Justificaion for Changes Encl
ML17334B5741996-02-26026 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 5.6.2 to Increase Current Limit on Nominal Fuel Assembly Enrichment for New,Westinghouse - Fabricated Fuel Stored in New Fuel Storage Racks
ML17333A3201996-02-22022 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,proposing to Remove Requirement That Operations Superintendent Must Hold or Have Held Sol at Plant or Similar Reactor
ML17333A3151996-02-22022 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying Table 4.8-1,DG Test Schedule by Ref Rg 1.9,Rev 3 Rather than Rg 1.108,Rev 1 Criteria for Determination of Valid DG Test
ML17333A2641996-01-12012 January 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS Section 4.4.11 to Eliminate SR Demonstrating Operability of Emergency Power Supply for Pressurizer PORVs & Block Valves
ML17333A2391995-12-19019 December 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 3/4.6.1.2,3/4.6.1.3,3/4.6.1.6 & 3/4.6.1.6 to Require Types A,B & C Tests (Overall Integrated & Local Containment Leakage Rate) to Be Performed Per 10CFR50,App J Option B
ML17332B0111995-11-10010 November 1995
Application for Amends to Licenses DPR-58 & DPR-74,revising Ts,By Modifying Surveillance Testing of EDG During Refueling & Normal Operations
ML17332A9971995-10-20020 October 1995
Application for Amends to Licenses DPR-58 & DPR-74,proposing to Add Exemption to TS 4.0.4 in Surveillance Requirements for MSIV
ML17332A9111995-08-0606 August 1995
Application for Amends to Licenses DPR-58 & DPR-74,informing That Licensee Has 45 Days from Date of Issuance to Implement Amend Unless Otherwise Specified
ML17334B5561995-08-0404 August 1995
Application for Exigent Amend to License DPR-58,modifying TS 4.4.5.4 & 4.4.5.5 for Repair of Hybrid Expansion Joint Sleeved SG Tubes.Proprietary W Rept WCAP-14446, Repair...Of Hybrid Expansion Joint...Tubes Encl.W Rept Withheld
ML17332A8271995-06-30030 June 1995
Application for Amends to Licenses DPR-58 & DPR-74,changing TS Section 5.3.1 to Allow Fuel Reconstitution,Per GL 90-02, Suppl 1
ML17334B5501995-06-20020 June 1995
License Amend Request to Licenses DPR-58 & DPR-74,to Remove Requirements for Fire Protection Systems from Licenses & Guidance in GL 86-10,GL 88-12 & GL 93-07
ML17332A7991995-06-15015 June 1995
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 4.8.1.1.2.e.7 to Reduce Duration of Surveillance Testing for EDGs During Refueling Operations from 24 H to 8 H
ML17334B5481995-05-26026 May 1995
Application for Amends to Licenses DPR-58 & DPR-74.Amends Would Support Operation of Unit 1 at SG Tube Plugging Levels Up to 30%,make One Unit 1 TS More Nearly Like Corresponding Unit 2 TS & Maintain Consistency of Unit 2 Criteria
ML17334B5461995-05-26026 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying Tech Specs 3/4.3.1 (Reactor Trip Sys Instrumentation) & 3/4.3.2 (ESFAS Instrumentation) & Bases to Relocate Tables of Response Time Limits to Ufsar,Per GL 93-08
ML17332A7661995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74.Amends Would Incorporate Cycle & Burnup Dependent Peaking Factor Penalty
ML17332A7741995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 5.3.1 to Allow Fuel Reconstitution,Per GL 90-02,Suppl 1
ML17332A7771995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS Table 4.3-2 to Change Main Steam Line Isolation Valve Manual Actuation Sys Surveillance Frequency from Monthly to Quarterly
1999-09-23
[Table view]
Category:TEXT-LICENSE APPLICATIONS & PERMITS
MONTHYEARML17335A5551999-10-12012 October 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Surveillance Requirement 4.6.2.2.d for Spray Additive Sys to Relocate Details Associated with Acceptance Criteria & Test Parameters to Associated TS Bases
ML17335A5591999-10-11011 October 1999
Supplement to Application for Amends to Licenses DPR-58 & DPR-74,replacing Correct TS Pages Inadvertently Included in 990923 Submittal.Attached Pages Also Include Appropriate Administrative Changes
ML17335A5411999-10-0101 October 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising Containment Recirculation Sump Water Inventory.Calculation & non-proprietary WCAP-15302 Rept Also Encl
ML17326A1571999-09-23023 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,involving Movement of Loads in Excess of Design Basis Seismic Capability of Auxiliary Bldg Load Handling Equipment & Structures
ML17326A1421999-09-17017 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,to Allow Credit of Rod Cluster Control Assemblies for Cold Leg Large Break LOCA Subcriticality.Ts Pages & non-proprietary Versions of WCAP-15246 Encl.Proprietary Version Withheld
ML17326A1161999-09-10010 September 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Surveillance Requirement 4.4.7,TS Tables 4.4-3,3.4-1 & TS Surveillance Requirement 4.11.2.2 Re RCS & Gas Storage Tank Sampling
ML17326A0921999-08-17017 August 1999
Application for Amend to License DPR-58,to Change TS 3/4.4.5 & Bases for TS 3/4.4.5,3/4.4.6.2 & 3/4.4.8 to Remove voltage-based Repair Criteria,F* Repair Criteria & Sleeving Methodologies from Unit 1 TS & Clarify Bases Sections
ML17325B6041999-05-21021 May 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising Limitations of Positive Reactivity Additions in Several TS Action Statements
ML17325B5511999-04-19019 April 1999
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 3/4.8.1.2, Electrical Power Systems & Associated Bases to Provide one-time Extension of 18-month Surveillance Interval for Specific SRs
ML17335A3661998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,adding TS for Distributed Ignition Sys
ML17335A3631998-12-0303 December 1998
Application for Amend to License DPR-58,revising TS 3/4.7.7, Sealed Source Contamination & Associated Bases to Address Testing Requirements for Fission Detectors
ML17335A3591998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,making Administrative Changes to Remove Obsolete Info,To Provide Consistency Between Units 1 & 2,to Provide Consistency with Std Tech Specs,To Provide Clarification & to Correct Typos
ML17335A3561998-12-0303 December 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 4.6.5.1, Ice Condenser,Ice Bed & Associated Bases to Reflect Max Ice Condenser Flow Channel Blockage Assumed in Accident Analyses
ML17335A2631998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS Containment Sys Bases 3/4.6.1.4 Re Internal Pressure & 3/4.6.1.5 Re Air Temp
ML17335A2761998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,placing Tighter Restrictions on Amount of Time RWST Water Level Instrumentation Can Be Out of Svc Before Compensatory Actions Are Required
ML17335A2671998-10-0808 October 1998
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 3.4.1.3, RCS - Shutdown & Associated Bases to Provide Separate Requirements for Modes 4 & 5 with Loops Filled & Mode 5 with Loops Not Filled
ML17335A2311998-09-14014 September 1998
Application for Amends to Licenses DPR-58 & DPR-74,changing Runout Limits for Safety Injection Pump to 675 Gpm Unless Pump Is Specifically Tested to Higher Flow Rate Not Exceeding 700 Gpm
ML17335A1901998-08-28028 August 1998
Application for Amend to License DPR-58,requesting Extension of SG Surveillance,Which TSs Require to Be Performed on or Before 990408,until End of Current Refuel Cycle Currently Scheduled for Mar 2000.W/assessment of SG Degradation & TSs
ML17334A7471998-06-10010 June 1998
Application for Amends to Licenses DPR-54 & DPR-78,changing Implementation Date to Reduce Boric Acid Concentration in Boric Acid Storage Sys.Attachment 1 to Ltr Contains Description of Proposed Change & Justification for Change
ML17334B7011998-03-0303 March 1998
Application for Amends to TS for Licenses DPR-58 & DPR-74, Removing Word Immediately from Unit 1 Hydrogen Recombiner Surveillance Requirement 4.6.4.2.b.4 & Revising Plants TS 3/4.6.4 Bases
ML17334B6561997-10-0808 October 1997
Application for Amends to Licenses DPR-58 & DPR-78,changing TSs 3/4.6.5 & 3/4.5.5 to Increase Both Minimum Required Ice Mass Per Ice Basket & Total Minimum Required Ice Mass. Proprietary Summary of Sump Inventory Calculations,Encl
ML17333B0431997-09-19019 September 1997
Application for Amends to Licenses DPR-58 & DPR-74,deleting Requirement for Automatic Valve Closure Feature on RHR Sys Suction from RCS
ML17333A9831997-08-11011 August 1997
Application for Amends to Licenses DPR-58 & DPR-74,allowing Filling of ECCS Accumulators W/O Declaring ECCS Equipment Inoperable
ML17335A2101997-08-0101 August 1997
Application for Amends to Licenses DPR-58 & DPR-74,deleting Wording When Secondary Steam Supply Pressure Is Greater than 310 Psig from TS
ML17333A8281997-03-26026 March 1997
Application for Amends to Licenses DPR-58 & DPR-74, Modifying TS 4.7.5.1.e.2 Which Describes Control Room Ventilation Sys Autostart Functions
ML17333A8311997-03-26026 March 1997
Application for Amends to Licenses DPR-58 & DPR-74,changing Grammatical Correction to Wording of Unit 2 TS 3.4.8,Action a for Modes 1,2 & 3 & Returning Frequency Requirement to TS 4.7.1.2.c & 4.7.1.2.d That Was Inadvertently Deleted
ML17333A7121996-12-20020 December 1996
Application for Amends to Licenses DPR-58 & DPR-74, Requesting Rev of Reactor Coolant Pump Flywheel Insp Frequency
ML17334B5941996-07-11011 July 1996
Application for Amends to Licenses DPR-58 & DPR-74,revising TS to Support Operation of Unit 2 at Increased Core Rated Thermal Power of 3,588 Mwt.Rev 1 to WCAP-14489, ...Unit 2 3,600 Mwt Uprating Program Licensing Rept Encl
ML17334B5901996-06-19019 June 1996
Application for Amend to License DPR-58,addressing Applicable Requirements of NRC GL 95-05, Voltage-Based Repair Criteria for Repair of Westinghouse SG Tubes Affected by Outside Diameter Stress Corrosion Cracking.
ML17334B5891996-06-11011 June 1996
Application for Amends to Licenses DPR-58 & DPR-74,removing TSs Certain Requirements for Administrative Controls,Related to QA Requirements,Per Administrative Ltr 96-05
ML17333A4201996-04-0808 April 1996
Application for Amends to Licenses DPR-58 & DPR-74,moving TS 4.0.4 Exemption Statement for MSSVs Into Section 4.7.1.1
ML17333A3551996-03-12012 March 1996
Application for Amend to License DPR-74,removing TSs Re Shutdown & Control Rod Position Indication While in Modes 3, 4 & 5
ML17334B5751996-02-29029 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,revising TS to Reduce Boric Acid Concentration in Boric Acid Storage Sys from Approx 12 Percent to Approx 4 Percent by Weight. Technical Rept Presenting Justificaion for Changes Encl
ML17334B5741996-02-26026 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 5.6.2 to Increase Current Limit on Nominal Fuel Assembly Enrichment for New,Westinghouse - Fabricated Fuel Stored in New Fuel Storage Racks
ML17333A3201996-02-22022 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,proposing to Remove Requirement That Operations Superintendent Must Hold or Have Held Sol at Plant or Similar Reactor
ML17333A3151996-02-22022 February 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying Table 4.8-1,DG Test Schedule by Ref Rg 1.9,Rev 3 Rather than Rg 1.108,Rev 1 Criteria for Determination of Valid DG Test
ML17333A2641996-01-12012 January 1996
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS Section 4.4.11 to Eliminate SR Demonstrating Operability of Emergency Power Supply for Pressurizer PORVs & Block Valves
ML17333A2391995-12-19019 December 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 3/4.6.1.2,3/4.6.1.3,3/4.6.1.6 & 3/4.6.1.6 to Require Types A,B & C Tests (Overall Integrated & Local Containment Leakage Rate) to Be Performed Per 10CFR50,App J Option B
ML17332B0111995-11-10010 November 1995
Application for Amends to Licenses DPR-58 & DPR-74,revising Ts,By Modifying Surveillance Testing of EDG During Refueling & Normal Operations
ML17332A9971995-10-20020 October 1995
Application for Amends to Licenses DPR-58 & DPR-74,proposing to Add Exemption to TS 4.0.4 in Surveillance Requirements for MSIV
ML17332A9111995-08-0606 August 1995
Application for Amends to Licenses DPR-58 & DPR-74,informing That Licensee Has 45 Days from Date of Issuance to Implement Amend Unless Otherwise Specified
ML17334B5561995-08-0404 August 1995
Application for Exigent Amend to License DPR-58,modifying TS 4.4.5.4 & 4.4.5.5 for Repair of Hybrid Expansion Joint Sleeved SG Tubes.Proprietary W Rept WCAP-14446, Repair...Of Hybrid Expansion Joint...Tubes Encl.W Rept Withheld
ML17332A8271995-06-30030 June 1995
Application for Amends to Licenses DPR-58 & DPR-74,changing TS Section 5.3.1 to Allow Fuel Reconstitution,Per GL 90-02, Suppl 1
ML17334B5501995-06-20020 June 1995
License Amend Request to Licenses DPR-58 & DPR-74,to Remove Requirements for Fire Protection Systems from Licenses & Guidance in GL 86-10,GL 88-12 & GL 93-07
ML17332A7991995-06-15015 June 1995
Application for Amends to Licenses DPR-58 & DPR-74,revising TS 4.8.1.1.2.e.7 to Reduce Duration of Surveillance Testing for EDGs During Refueling Operations from 24 H to 8 H
ML17334B5481995-05-26026 May 1995
Application for Amends to Licenses DPR-58 & DPR-74.Amends Would Support Operation of Unit 1 at SG Tube Plugging Levels Up to 30%,make One Unit 1 TS More Nearly Like Corresponding Unit 2 TS & Maintain Consistency of Unit 2 Criteria
ML17334B5461995-05-26026 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying Tech Specs 3/4.3.1 (Reactor Trip Sys Instrumentation) & 3/4.3.2 (ESFAS Instrumentation) & Bases to Relocate Tables of Response Time Limits to Ufsar,Per GL 93-08
ML17332A7661995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74.Amends Would Incorporate Cycle & Burnup Dependent Peaking Factor Penalty
ML17332A7741995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS 5.3.1 to Allow Fuel Reconstitution,Per GL 90-02,Suppl 1
ML17332A7771995-05-25025 May 1995
Application for Amends to Licenses DPR-58 & DPR-74,modifying TS Table 4.3-2 to Change Main Steam Line Isolation Valve Manual Actuation Sys Surveillance Frequency from Monthly to Quarterly
1999-09-23
[Table view] |
Text
REGULATlINFORMATION DISTRIBUTIO1YSTEM (RIDE)ACCESSIO'A ABR19408010220 DOC.DATE:
94/07/26NOTARIZED:
YESDOCKETFACIL:50-315 DonaldC.CookNuclearPowerPlant,Unit1,IndianaM0500031550-316DonaldC.CookNuclearPowerPlant,Unit2,IndianaM05000316AUTH.NAMEAUTHORAFFILIATION FITZPATRICK,E.
IndianaMichiganPowerCo.(formerly Indiana&MichiganEleRECIP.iNAME RECIPIENT AFFILIATION DocumentControlBranch(Document ControlDesk)
SUBJECT:
Application foramendstolicensesDPR-58sDPR-74,proposing TS,bymodifying TS4.1.1.4suchthatrequirement tomeasuremoderator temperature coefficient nearendofcyclewillbecomeconditional.
DISTRIBUTION CODE:AOOIDCOPIESRECEIVED:LTR
/ENCL/SIZE://+//TITLE:ORSubmittal:
GeneralDistribution NOTES:RECIPIENT IDCODE/NAME PD3-1LAHICKMAN,J INTERNAL:
NRR/DE/EELB NRR/DRCH/HICB NRR/DSSA/SPLB NUDOCS-ABSTRACT OGC/HDS2EXTERNAL:
NRCPDRCOPIESLTTRENCL1122111111111011RECIPIENT IDCODE/NAME PD3-1PDNRR/DORS/ONDD NRR/DRPWNRR/DSSA/SRXB OCCBEGILE01NSICCOPIESLTTRENCL111111111NOTETOALL"RIDS"RECIPIENTS:
PLEASEHELPUSTOREDUCEWASTE!CONTACTTHEDOCUMENTCONTROLDESK,ROOKIPl-37(EXT.504-2083)TOELIIiIINATE YOURNAMEFROMDISTRIBUTION LISTSI'ORDOCUMENTS YOUDON"I'EED!TOTALNUMBEROFCOPIESREQUIRED:
LTTR16ENCL14 lLll IndianaMichiganPowerCompanyP.O.Box16631Columbus, OH43216ÃAEP:NRC:1028A DonaldC.CookNuclearPlantUnits1and2DocketNos.50-315and50-316LicenseNos.DPR-58andDPR-74PROPOSEDTECHNICAL SPECIFICATION CHANGESFORMODERATOR TEMPERATURE COEFFICIENT MEASUREMENT U.S.NuclearRegulatory Commission DocumentControlDeskWashington, D.C.20555Attn:Mr.W.T.Russell'July26,1994
DearMr.Russell:
Thisletteranditsattachments constitute anapplication foramendment totheTechnical Specifications (T/Ss)forDonaldC.CookNuclearPlantUnits1and2.ChangesareproposedtotheModerator Temperature Coefficient sectionoftheT/Ss.Specifically,,
weproposetomodifyT/S4.1.1.4suchthattherequirement tomeasurethemoderator temperature coefficient (MTC)neartheendofthecyclewillbecomeconditional.
Thetestwillnotbeperformed ifspecified coreperformance benchmark criteriaaremetfortheoperating cycleandtherevisedpredicted MTCislessnegativethantheMTCsurveillance limitpresented intheCoreOperation LimitsReport(COLR).Wearealsoproposing toaddT/S6.9.1.12, whichdefinesacyclespecific"MostNegativeModerator Temperature Coefficient LimitReport"containing information forcalculation oftherevisedpredicted MTC.Thereportwillbefiledandavailable forNRCaudit.Thesechangesarerequested becauseitisbelievedthatarelaxation oftheexistingcriteriaforperforming theMTCmeasurement neartheend-of-cycle (EOC)isjustifiable whilestillensuringtheEOCMTCiswithinitslimits.The300ppmMTCmeasurement istime-andresource-consuming.
Itdisruptsnormaloperation anddecreases theavailability ofthepowerplant.Incorporating thesechangeswouldeliminate thesurveillance whenitiscertainfromotherindicators thattheEOCMTClimitwouldnotbeexceeded.
Wepreviously madeasimilarsubmittal viaAEP:NRC:1028, datedOctober20,1987.Uponreview,however,theNRCconcluded that"Thistypeofamendment shouldbehandledasagenericissuedueA,g<gi9408010220 940726PDRADGCK05000315PPDR W.T.Russell-2-AEP:NRC:1028A toitsindustrywideimplications."
Asaresult,thiscurrentsubmittal isbasedonthegenericinvestigation performed byWestinghouse ElectricCorporation anddocumented inReference 1ofAttachment 1.Thisdocumentwassubmitted totheNRCforreviewandapprovalinReference 2ofAttachment 1.Adescription oftheproposedchangesandanalysisconcerning significant hazardsconsideration pursuantto10CFR50.92iscontained inAttachment l.Attachment 2containstheexistingT/Spagesmarkedtoreflectproposedchanges.Attachment 3containstheproposed, revisedT/Spages.WebelievethattheproposedT/Schangeswillnotresultin(1)asignificant changeintheamountofeffluentthatmightbereleasedoffsite,or(2)asignificant increaseinindividual orcumulative occupational radiation exposure.
TheseproposedT/SchangeshavebeenreviewedandapprovedbythePlantNuclearSafetyReviewCommittee andbytheNuclearSafetyandDesignReviewCommittee.
Incompliance withtherequirements of10CFR50.91(b)(1),
copiesofthisletteranditsattachments havebeentransmitted toMr.J.R.PadgettoftheMichiganPublicServiceCommission andtheMichiganDepartment ofPublicHealth.Thisletterissubmitted pursuantto10CFR50.30(b)and,assuch,anoathstatement isattached.
Sincerely, E.E.FitzatrickVicePresident cadAttachments cc:A.A.BlindG.CharnoffJ.B.Martin-RegionIIINFEMSectionChiefNRCResidentInspector J.R.Padgett
~~@1 STATEOFOHIO)COUNTYOFFRANKLIN)
E.E.Fitzpatrick, beingdulysworn,deposesandsaysthatheistheVicePresident oflicenseeIndianaMichiganPowerCompany,thathehasreadtheforgoingPROPOSEDTECHNICAL SPECIFICATION CHANGESFORMODERATOR TEMPERATURE COEFFICIENT MEASUREMENT andknowsthecontentsthereof;andthatsaidcontentsaretruetothebestofhisknowledge andbelief.Subscribed andsworntobeforemethis~~~dayof19~VNOTARYPBLICRITAD.HILL ATTACHMENT 1TOAEP:NRC:1028A DESCRIPTION OFPROPOSEDTECHNICAL SPECIFICATION CHANGESAND10CFR50.92SIGNIFICANT HAZARDSCONSIDERATION ANALYSIS ATTACHMENT 1toAEP:NRC:1028A Page1DESCRIPTION OFCHANGES(bothunits)Itisproposedthatsurveillance requirement 4.1.1.4.b bechangedtoallowsuspension ofthe300ppmmoderator temperature coefficient (MTC)measurement providedthebenchmark criteriaandtherevisedprediction, asdocumented intheCoreOperating LimitsReport(COLR),aresatisfied.
Thechangealsospecifies thatthedatarequiredfor,calculation oftherevisedprediction isprovidedinthe"MostNegativeModerator Temperature Coefficient LimitReport,"perT/S6.9.1.12.
2.Itisproposedthatadministrative controlparagraph 6.9.1.12beaddedtodefinethe"MostNegativeModerator Temperature Coefficient LimitReport."Thereport,whichwillbemaintained onfile,includesdatarequiredforthedetermination oftherevisedprediction ofthe300ppmallrodsout(ARO)atratedthermalpower(RTP)MTCperWCAP-13749, "SafetyEvaluation Supporting theConditional Exemption oftheMostNegativeEOLModerator Temperature Coefficient Measurement,"
May1993.3.ItisproposedthatWCAP-13749 beaddedasreference "e"toadministrative controlsection6.9.1.11.2.
JUSTIFICATION FORTHECHANGEPursuantto10CFR50.92,eachapplication foranamendment toanoperating nuclearplantlicenseorconstruction permitmustbereviewedtodetermine iftheproposedchangeinvolvesasignificant hazardsconsideration.
Theproposedtechnical specification amendment fortheendoflife(EOL)MTCconditional exemption hasbeenreviewedanditisconcluded thatnosignificant hazardsresultfromthisT/Schange.Background ForFSARaccidentanalyses, thetransient responseoftheplantisdependent onreactivity feedbackeffects,inparticular, themoderator densitycoefficient (MDC)andtheDopplerpowercoefficient.
Becauseofthesensitivity ofaccidentanalysisresultstotheMDCvalueassumed,itisimportant thattheactualcoreMDCremainwithintheboundsofthelimitingvaluesassumedintheFSARaccidentanalyses.
Whilecoreneutronics analyseswillconfirmthattheMDCiswithintheseboundsduringanoperating cycle,CookNuclearPlantT/Sscurrently placelimitsontheMTCduringnormaloperation.
MTCmeasurements areperformed atthebeginning ofcycle(BOC)priortoinitialoperation above5%RTPandatRTPconditions withinseveneffective fullpowerdays(EFPD)afterreachinganequilibrium boronconcentration of300ppm.
ATTACHMENT 1toAEP:NRC:1028A Page2Inordertoensureaboundingaccidentanalysis, theMDCisassumedtobeatitsmostlimitingvaluefortheanalysisconditions appropriate toeachaccident.
ThemostpositiveMDClimitingvalueisbasedontheEOLcoreconditions corresponding tomaximumfuelburnupandminimumboronconcentration assuming100%RTP.Twodifferent T/SbasesrelatingtheaccidentanalysisMDCtothemostnegativeMTChavebeenpreviously licensedforWestinghouse plantsasdescribed inChapter2ofReference 1ofthisAttachment.
MostaccidentanalysesuseaconstantMDCdesignedtoboundtheMDCattheworstsetofinitialconditions aswellasatthemostlimitingsetoftransient conditions.
ThisvalueofMDCformsthelicensing basisfortheFSARaccidentanalysisaswellasthebasesforthecurrentEOLMTCT/Srequirements.
Converting theMDCusedintheaccidentanalysistoacorresponding MTCrequiresacalculation whichaccountsfortherateofchangeofmoderator densitywithtemperature attheconditions ofinterest.
T/Ssplacebothlimitingcondition foroperation (LCO)[T/S3.1.1.4]andsurveillance requirement
[T/S4.1.1.4]constraints ontheMTC,basedontheaccidentanalysisassumptions oftheMDC.ThemostnegativbMTCLCOlimitappliestoModes1,2,and3,andrequiresthattheMTCbelessnegativethanthespecified limitvaluefortheARO/EOL/RTP condition.
Todemonstrate compliance withthemostnegativeMTCLCO,theT/Ssurveillance callsforverification oftheMTCafter300ppmequilibrium boronconcentration isobtained.
Becausethehotfullpower(HFP)MTCvaluewillgradually becomemorenegativewithfurthercoreburnupandboronconcentration reduction, a300ppmsurveillance requirement valueoftheMTCshouldnecessarily belessnegativethantheEOLLCOlimit.Toaccountforthiseffect,the300ppmsurveillance requirement valueissufficiently lessnegativethantheEOLLCOlimitvalue,whichisspecified intheCOLR,therebyproviding assurance thattheLCOlimitwillbemetaslongasthe300ppmsurveillance criterion ismet.Currently, CookNuclearPlantUnits1and2T/Ssrequiremeasurements ofMTCatbeginning oflife(BOL)toverifythemostpositiveMTClimitandnearEOLtoverifythemostnegative,MTC limit.AtBOL,themeasurement oftheisothermal temperature coefficient, andsubsequent MTCcalculation, isrelatively simpletoperform.Themeasurement isdoneathotzeropowerisothermal conditions andisnotcomplicated bychangesintheenthalpyriseorthepresenceofxenon.Themeasurement madenearEOLdiffersfromtheBOLmeasurement asitisperformed atornearHFPconditions.
MTCmeasurements atHFParemoredifficult toperformduetosmallvariations insolubleboronconcentration andchangesinxenonconcentration anddistribution, fueltemperature, andenthalpyrisecreatedbysmallchangesinthecoreaveragepowerduringthemeasurement.
Changesineachoftheseparameters mustbeaccurately accounted forwhenreducingthemeasurement data,oradditional measurement uncertainties willbeintroduced.
Eventhoughtheseadditional uncertainties maybesmall,thetotalreactivity changeassociated withtheswinginmoderator temperature isalsorelatively small.Theresulting MTCmeasurement uncertainty createdbyevenasmallchangeinpowerlevelcanthenbecomesignificant and,ifimproperly accounted for,canyieldmisleading measurement results'n
- addition, itshouldbementioned thatthe300ppmMTCtestisperformed atapproximately 95%power,whichadversely affectsplantavailability.
Withrespecttohumanresources, thetesttakesupto60man-hours.
ATTACHMENT 1toAEP:NRC:1028A Page3Themethodproposedhere,fordetermining whetherthesurveillance issatisfied, istocalculate arevisedprediction oftheMTCbasedontheactualcorereactivity, actualaxialpowerdistribution, andMTCpredictive capability ofthedesignmodel.Iftherevisedpredicted MTCmeetsthesurveillance requirement andtheperformance criteriapresented inTable3-2ofReference 1issatisfied, thenthemeasurement isnotrequired.
Insummary,theconditional exemption fromthemeasurement issoughttoimproveplantavailability andminimizedisruptions tonormaloperation oftheCookNuclearPlantunits.Asdocumented inReferences 1and2,ithasbeenconcluded thatplantsafetywillnotbecompromised bytheconditional exemption ofthismeasurement.
Asaresult,theSignificant HazardsConsideration Evaluation belowprovidesjustification thattheconditional exemption fromthemeasurement ofthe300ppmMTCdoesnotinvolveanysignificant hazardsconsideration.
10CFR50.92SIGNIFICANT HAZARDSCONSIDERATION ANALYSIS10CFR50.92specifies thattheholderofanoperating license'or construction permitofanuclearpowerfacilityparticipate indetermining whetherachangetotheT/Ss/current licensing basis(CLB)involvesasignificant hazardsconsideration.
Priortoimplementation ofachangetothecurrentlicensing basis,theNuclearRegulatory Commission mustreviewandmakeafinaldetermination, pursuanttotheprocedures in10CFR50.91,thataproposedamendment totheoperating licenseinvolvesnosignificant hazardsconsiderations.
Inordertosatisfactorily completethereview,theproposedamendment totheCLBmustnot:involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated, 2.createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated, or3.involveasignificant reduction inamarginofsafety.Theimpactofthesuggested T/SchangesontheMTCsurveillance andCOLRsectionsisevaluated belowwithrespecttotheacceptance criteriafortheaccidents addressed inChapter14ofCookNuclearPlantUnits1and2FSAR.NuclearDesignConsiderations Theconditional exemption ofthemostnegativeEOLMTCmeasurement methodology isdescribed indetailinReference 1.TheT/SBasesofthemostnegativeMTCLCOandsurveillance requirement, andthevaluesof"theselimits,arenotaltered.Instead,arevisedprediction iscomparedtotheMTCsurveillance requirement todetermine ifthesurveillance limitismet.Therevisedprediction issimplythesumofthepredicted HFP300ppmMTCsurveillance requirement plusanaxialfluxdifference (AFD)correction factorplusapredictive correction term.Abriefdescription ofeachofthesetermsisgivenbelow.
ATTACHMENT 1toAEP:NRC:1028A Page4Predicted HFP300ppmsurveillance requirement MTCAnymisprediction ofthecorereactivity balancebythecoremodelwouldcausethecoretobeataboronconcentration of300ppmatadifferent cycleburnupthanactual.Thisinturnwouldcauseadifference intheactualversuspredicted MTC.Thesensitivity ofMTCat300ppmasafunctionofcoreburnupisdetermined andprovidedaspartoftheMostNegativeMTCLimitReport.AFDCorrection TheMTCisaffectedbytheAFDviatheimpacttheaxialfluxdistribution hasonthemoderator temperature profile.Themorebottomskewedthepowerdistribution, thehigherthetemperatures nearthebottomofthecore.Also,theburnupinthebottomhalfofthecoreexceedstheburnupinthetophalf.AhigherburnupwillresultinamorenegativeMTC.Amorebottomskewedaxialpowershapeallocates agreaterfluxweighting tothelowerregionofthecorewheretheburnupisgreater,therebyaccentuating theburnupeffectonMTC.TheMTCsensitivity toAFDisprovidedintheMTClimitreport.SincemeasuredAFDmustbedetermined every31days,thelatestmeasurement canbecomparedwiththeprediction andthedifference obtained.
Thisdifference isthenusedwiththeAFDsensitivity toobtainthecorrection.
Predictive Correction TermToaccountfortheMTCpredictive capability ofthedesignmodelforagivencycle,anadditional correction willbeappliedtothepredicted MTCtodetermine thefinalMTCtobecomparedtothesurveillance limit.Thepredictive correction willbedefinedas0pcm/'Forthedifference betweenthemeasuredandpredicted BOChotzeropowerMTC,whichever ismorenegative.
Theconditional exemption fromthemeasurement willbedetermined onacycle-specific basis.Thecoremodelperformance mustbebenchmarked totheoperating corebeforeapplyingtheprocedure fordetermining therevisedprediction.
Thespecificparameters chosenandtheassociated criteriaaregiveninReference 1.Meetingthesecriteriademonstrates thecoremodel'scapability toaccurately predictchangesinthecorecharacteristics withdepletion, andtherefore provideanaccurateprediction oftheHFP300ppmMTC~SafetyAnalysisConsiderations Thesafetyanalysisassumption ofaconstantMDC,andtheactualvalueassumed,willnotchange.Therefore, aconditional exemption fromthe300ppmMTCmeasurement basedonthemargintothesurveillance limitwillnothaveanadverseimpactonthesafeoperation oftheplant.
ATTACHMENT 1toAEP:NRC:1028A Page5Technical Specification ImpactsTheproposedT/Ssurveillance 4.1.1.4andconcomitant COLRchangesrequiredtosupporttheconditional exemption aredescribed inReference 1.TheseT/SchangeswillnotchangetheLCOorsurveillance requirement MTClimits.Thespecificvaluesofthesurveillance requirement andLCOMTCsremainunchanged bytheconditional exemption methodology documented inReference 1.Anadditional T/Swillbeadded(6.9.1.12) whichwilldefinethe"MostNegativeModerator Temperature Coefficient LimitReport."Thiscycle-specific reportwillprovidetheinformation requiredforcalculating themargintothesurveillance limit.Reference "e"willalsobeaddedtothelistofreferences inT/S6.9.1.11.2.
DETERMINATION OFNOSIGNIFICANT HAZARDSDoestheEOLMTCmeasurement conditional exemption involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated'P NO.Theconditional exemption ofthemostnegativeMTCmeasurement doesnotchangethemostnegativeMTCsurveillance andLCOlimitsintheT/Ss.SincetheseMTCvaluesareunchanged, andsincethebasisforthederivation ofthesevaluesfromthesafetyanalysisMDCisunchanged, theconstantMDCassumedfortheFSARsafetyanalyseswillalsoremainunchanged.
Therefore, nochangeinthemodeling(i.e.,probabilities) oftheaccidentanalysisconditions orresponseisnecessary inordertoimplement thechangetotheconditional exemption methodology.
Inaddition, sincetheconstantMDCassumedinthesafetyanalysesisnotchangedbytheconditional exemption ofthemostnegativeMTCsurveillance measurement, theconsequences ofanaccidentpreviously evaluated intheFSARarenotincreased.
Thedosepredictions presented intheFSARforaSGTRremainvalidsuchthatmoresevereconsequences willnotoccur.Additionally, sincemassandenergyreleasesforLOCAandsteamline breakarenotincreased asaresultoftheunchanged MDC,thedosepredictions fortheseeventspresented intheFSARalsoremainbounding.
Criterion 2DoestheEOLMTCmeasurement conditional exemption createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated'O.
SincetheEOLMTCisnotchangedbytheconditional exemption methodology ofReference 1,thepossibility ofanaccidentwhichisdifferent thananyalreadyevaluated intheFSARhasnotbeencreated.Nonewordifferent failuremodeshavebeendefinedforanysystemorcomponent norhasanynewlimitingsinglefailurebeen ATTACHMENT 1toAEP:NRC:1028A Page6identified.Conservative assumptions forMDChavealreadybeenmodeledintheFSARanalyses.
Theseassumptions willremainvalidsincetheconditional exemption methodology documented inReference 1doesnotchangethesafetyanalysisMDCnortheT/SvaluesoftheMTC.Criterion 3DoestheEOLMTCmeasurement conditional exemption involveasignificant reduction inamarginofsafety'O.
Theevaluation oftheconditional exemption methodology documented inReference 1hastakenintoaccounttheapplicable CookNuclearPlantUnits1and2T/Ssandhasboundedtheconditions underwhichthespecifications permitoperation.
Theapplicable T/Ssaresurveillance 4.1.1.4,andreference "e"isaddedtothelistofreferences inSpecification 6.9.1.11.2.
Anadditional specification 6.9.1.12isaddedtodefinetherequirements forthe"MostNegativeModerator Temperature Coefficient LimitReport,"whichisdescribed inAppendices A,C,andDofReference 1.TheCOLRhasalsobeenmodifiedasdescribed inAppendixBofReference 1,TheanalyseswhichsupporttheseT/Sshavebeenevaluated.
Theresults,aspresented intheFSAR,remainboundingsincetheMDCassumedinthesafetyanalysesandtheLCOandsurveillance requirement MTCsintheT/Ssremainunchanged.
Therefore, themarginofsafety,asdefinedinthebasestotheseT/Ss,isnotreduced.Conclusion Itisconcluded thatoperation ofCookNuclearPlantUnits1and2withaconditional exemption fromthemostnegativeMTCmeasurement, asdescribed inReference 1andthisevaluation, doesnotinvolveanysignificant hazardsasdefinedin10CFR50.92.References 1.WCAP-13749-P, "SafetyEvaluation Supporting TheConditional Exemption oftheMostNegativeEOLModerator Temperature Coefficient Measurement,"
May1993.2,LetterET-NRC-93-3894, fromNicholasJ.Liparulo, ManagerNuclearSafetyandRegulatory Activities ofWestinghouse ElectricCorporation toR.C.Jones,ReactorSystemsBranchChief,DivisionofEngineering andSystemTechnology ofUSNRC,datedJune1,1993.
ATTACHMENT 2TOAEP:NRC:1028A EXISTINGTECHNICAL SPECIFICATION PAGESMARKEDTOREFLECTPROPOSEDCHANGES
