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| | number = ML17037C516 | | | number = ML17037C516 |
| | issue date = 01/22/1974 | | | issue date = 01/22/1974 |
| | title = Nine Mile Point Nuclear Station, Unit 1 - Letter Submitting Analyses Which Determine Effects of Fuel Densification and Appropriate Changes to Technical Specifications for Fuel to Be Inserted During Spring 1974 Refueling | | | title = Letter Submitting Analyses Which Determine Effects of Fuel Densification and Appropriate Changes to Technical Specifications for Fuel to Be Inserted During Spring 1974 Refueling |
| | author name = Raymond P D | | | author name = Raymond P |
| | author affiliation = Niagara Mohawk Power Corp | | | author affiliation = Niagara Mohawk Power Corp |
| | addressee name = Ziemann D L | | | addressee name = Ziemann D |
| | addressee affiliation = US Atomic Energy Commission (AEC) | | | addressee affiliation = US Atomic Energy Commission (AEC) |
| | docket = 05000220 | | | docket = 05000220 |
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| {{#Wiki_filter:AECDXSUTIONFORPART50DOCKETMATER(TEMPORARYFORM)CONTROLNO:FILE:8FROAA1:NiagaraMohawkPowerCorpSyracuse,N;Y.13202P.D.RaymondDATEOFDOC1-22-74DATEREC'D1-23-74LTRMEMORPTOTHERTO:D.L.ZiemannORIG3signedqCCOTHERSENTAECPDRxSENTLOCALPDRXCLASSUNCLASSXXXXPROPINFOINPUTXXXXNOCSREC'D40DOCKETNO:50-220DESCRIPTION:Ltrnotarized1-22-74,transthefollowing:PLANTNAME:NineMilePointUnit$P1ENCLOSURES:ProosedChanetoTechnicalSecifications:DensificationAnalysesandRelatedTechnicalSpecificationsChangesforType5andTypeDONOTREMOVEACKNOWLEDGED(3Orig637cysrec'd)FORACTION/INFORMATION1-23-74GCBUTLER(L)W/CopiesCLARK(L)W/CopiesGOLLER(L)W/CopiesKNIEL(L)W/CopiesSCHWENCER(L)W/CopiesSTOLZ(L)W/CopiesVASSALLO(L)'W/CopiesSCHEMEL(L)W/Copis~ZIEMANN(L)W/9CopiesDICKER(E)W/CopiesKNIGHTOH(E)"'/CopiesYOUNGBLOOD(E)W/CopiesINTERNALDISTRIBUTIONREGAN(E)W/CopiesW/CopiesW/CopiesW/CopiesAECPDR+GCFRSMP-506A~NTZING/STAFFCASEGIAMBUSSOBOYDMOORE(L)(BWR)DEYOUNG(L)(FllR)O'SKOVHOLT(L)P,COLLINSFILE®ION(d))MORRISSTEELETECHREVIEWHENDRXESCHROEDERMACCARYKNIGHTPAWLXCKISHAOSTELLOHOUSTONNOVAKROSSXPPOLITOTEDESCOLONGLAINASBENAROYAVOLLMERDENTONGRIMESGAMMXLLKASTHERBALLARDSPANGLERENFIROMULLERDXCKERBRIGHTONYOUNGBLOODREGANPROJECTLDRHARLESSLICASSTHIGGS(L)GEARIN(L)GOULBOURNE(L)LEE(L)MAXGRET(L)SERVICE(L)SHEPPARD(E)SMITH(L)TEETS(L)WADE(E)WILLIAMS(E)WXLSON(L)A/TINDBRAITMANSALTZMANB,HURTPLANSMCDONALD~UBEw/XnputINFOC,MILESB.KINGv4.CABELL-LOCALPDROsweoN.Y.-DTXE(ABERNATHY)M-NSIC(BUCHANAN)1-ASLB(YORE/SAYRE/WOODARD/"H"ST.~6-CYSACRSMQDi}MKSENTTO1-23-74EXTERNALDISTRIBUTION(I)(2XIO).NATIONALLAB'SI-ASLBP(E/IlBldg,gm529)1-W.PENNINGTON>RmE"201GT1-CONSULTANT'SLXC~ASST'EWARK/BLUME/AGBABIANDXGGS,1-GERALDULRIKSON...ORNL1-PDR-SAN/LA/NY1-GERALDLELLOUCHEBROOKHAVENHAT.LAB1"AGMED(RuthGussman)RM-B-127,GT.1<<RD..MULLER.,F-309GT ljl~~0PhI'~ | | {{#Wiki_filter:AEC DXS UTION FOR PART 50 DOCKET MATER (TEMPORARY FORM) CONTROL NO: |
| t,h'egUlatoryDocketFileNIAGARAMOHAWKPOWERCORPORATIONNIAGARA~MOHAWK300ERIEBOULEVARD,WESTSYRACUSE.N.Y.13202January22,1974Mr.DennisL.Ziemann,ChiefOperatingReactorsBranch82DirectorateofLicensingUnitedStatesAtomicEnergyCommissionWashington,D.C.20545
| | FILE: 8 FROAA1: DATE OF DOC DATE REC'D LTR MEMO RPT OTHER Niagara Mohawk Power Corp Syracuse, N; Y. 13202 1-22-74 1-23-74 P. D. Raymond TO: ORIG CC OTHER SENT AEC PDR x D. L. Ziemann 3 signedq SENT LOCAL PDR X CLASS UNCLASS PROP INFO INPUT NO C S REC'D DOCKET NO: |
| | XXXX XXXX 40 50-220 DESCRIPTION: ENCLOSURES: |
| | Ltr notarized 1-22-74, trans the following: Pro osed Chan e to Technical S ecifications: |
| | Densification Analyses and Related Technical Specifications Changes for Type 5 and Type DO NOT REMOVE ACKNOWLEDGED PLANT NAME: Nine Mile Point Unit $P1 ( 3 Orig 6 37 cys rec'd ) |
| | FOR ACTION/INFORMATION 1-23-74 GC BUTLER (L) SCHWENCER(L) ~Z IEMANN(L) REGAN (E) |
| | W/ Copies W/ Copies W/ 9Copies W/ Copies CLARK(L) STOLZ(L) DICKER(E) |
| | W/ Copies W/ Copies ' W/ Copies W/ Copies GOLLER(L) VASSALLO(L) KNIGHTOH(E) " |
| | Copies |
| | '/ |
| | W/ Copies W/ Copies Copies W/ |
| | KNIEL(L) SCHEMEL(L) YOUNGBLOOD(E) |
| | W/ Copies W/ Copi s W/ Copies W/ Copies INTERNAL DISTRIBUTION TECH REVIEW DEN TON A/T IND HENDRXE GRIMES LIC ASST BRAITMAN AEC PDR |
| | +GCF RSM P-506A SCHROEDER GAMMXLL HIGGS (L) SALTZMAN |
| | ~NTZING/STAFF MACCARY KAS THER GEARIN (L) B, HURT CASE KNIGHT BALLARD GOULBOURNE (L) PLANS GIAMBUSSO PAWLXCKI SPANGLER LEE (L) MCDONALD BOYD SHAO MAXGRET (L) ~UBE w/Xnput MOORE (L) (BWR) S TELLO ENFIRO SERVICE (L) |
| | DEYOUNG (L) (FllR) HOUSTON MULLER SHEPPARD (E) INFO O'SKOVHOLT (L) NOVAK DXCKER SMITH (L) C, MILES P, COLLINS ROSS BRIGHTON TEETS (L) B. KING XPPOLITO YOUNGBLOOD WADE (E) v4. CABELL TEDESCO REGAN WILLIAMS (E) |
| | FILE & REGION(d)) LONG PROJECT LDR WXLSON (L) |
| | MORRIS LAINAS STEELE BENAROYA HARLESS VOLLMER EXTERNAL DISTRIBUTION |
| | - LOCAL PDR Oswe o N. Y. |
| | - DTXE(ABERNATHY) (I) (2XIO).NATIONALLAB'S 1-PDR-SAN/LA/NY M - NSIC(BUCHANAN) I-ASLBP(E/Il Bldg,gm 529) |
| | E" 201 GT 1-GERALD LELLOUCHE BROOKHAVEN HAT. LAB 1 - ASLB(YORE/SAYRE/ 1-W. PENNINGTON> Rm WOODARD/"H" ST. 1-CONSULTANT'S 1"AGMED(Ruth Gussman) |
| | ~6 - CYS ACRS MQDi}MK SENT TO LXC ~ ASST'EWARK/BLUME/AGBABIAN 1-GERALD ULRIKSON...ORNL RM-B-127, GT. |
| | 1<<RD..MULLER.,F-309 GT 1-23-74 DXGGS, |
|
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| ==DearMr.Ziemann:==
| | l lj |
| JAN23)974~'L'InA)EIIpn~It-iiVu~~Re:NineMilePointUnit1AECDocketNo.50-220NiagaraMohawkPowerCorporationhascommittedinitsletterofOctober15,1973tosupplyanalysestodeterminetheeffectsoffueldensi-ficationnandtheappropriatechangestoTechnicalSpecificationsforthefueltobeinsertedduringtheSpring1974refueling.Theanalyseshavebeenperformedusingthe,guidanceprovidedintheenclosuretoyourDecember5,1973letter,"ModifiedGEModelf'rFuelDensification".TheseanalysesandtheproposedTechni:calSpecificationchangesareattachedherewith.Itisanticipatedthatthesechangeswillnotlimitplantpowerlevelbelowitsfulldesignratingof1850megawattsforpowerdistributionsexpectedduringnormaloperation.TheSiteOperationsReviewCommjtteeandtheSafetyReviewand.AuditBoardconcurwiththeseproposedTelchnicalSpecificationchanges.Verytrulyyours,Viceesident-Engineering/sqAttachmentSubscribedandsworntobeforemethis~~ayofJanuary,1974.VALERIEhl.KELLYNoteryPobhcinthe'teteofNewYorkQoeliiledInOnon.Eo..No.3Cn50C729~MyCorernlrrlonfnplret"Merch30rl9rIrr'~,JANP3)ygIEENCE'UqplrQQ,~fyICII)CEERX rI
| | ~ ~ |
| ~.,,,,<<,,RegulatoryDocketFileSpecificationChangesForgoaeraa~e.nnaiadType5andType6FuelI.AnalsesofFuelDensificationEffectsThissectionpresentsresultsoftheeffectsofdensificationinthe8x8reloadfuelasdeterminedfromapplicationofthemodelsdescribedinJRefer'ence1.A.LocalPowerSpikinA'nanalysi'sofpotentiallocalpower.spikesduetoaxialgapsinafuelpelletcolumnforGeneralElectricBMR'semployinqanRx8fuellatticedesignhasbeenperformed.ThisanalysisemploysthesamemethodandbasicassumotionsthatwerereportedinReferencel.Importantasnects.'fthisanalysisarenotedasfo11ows:l.The,equationemployedtocalculatemaximumqapsizeisthatnotedinReference1:dL=~965-+0.0025)L2wheredL=maximumaxialqaolengthL=fuelcolumnlengthPi=meanvalueofmeasuredinitialplletdensity(immersion-.5X)0.0025=allowanceforirradiationinducedcladdinggrowthandaxialstraincausedbyfuel-cladmechanicalinteraction.2.Themagnitudeofthepowerspikeversusgapsizeforfuelrodsofthe8x8desiqnisshowninFigure1fornormaloperatingconditionsandFigure2forcoldzerovoidconditions.
| | 0 P h I' |
| ~4 3.Thecorepowerhistogramemployedv>>asfora13.4kl</ftCmaximumdesignlinearheatgenerationrate:.seeFigure3.TheresultsfromthisanalysisareshowninFiaure4withinitialfueldensityasaparameter.Thelineshownforaninitialfueldensityof95%T.D.isconsideredtobemostrepresentativeconsideringcurrntGeneralElectricdataonmanufacturedfuelpelletdensities.ThepowersnikepenaltyshowninFigure4forseveralmeanpelletdensitiesasafunctionofaxialposition,istherequiredmarginwhichmustbemaintaineddurinqnormalooerationbetweentheactualpeakoperatingconditionandtheoeakdesignLHGR;i.e.,13.4kM/ft,Maintainingthismarginwillassure,withbetterthan95%confidence,thatnomorethanonerodwillexceedthedesiqnneakLHGRduetotherandomoccurrenceofpowerspikes-resultingfromaxialfuelcolumngans.ConsistentwithGeneralElectric'spositionondensificationpreviouslydiscussedinReference2anditssupplements,theresultsofthisanalysisareconsideredtoheaveryconservativerepresentationofthepoweroeakinqpenaltyrequiredtoaccommodate4potentialaxialfuelcolumngapsduringnormaloperatingconditionsinGeneralElectricBHR's.SincetheresultsofthepowerspikinqanalysisfornormalonerationwillbeutilizedtolimitbundlepowertoassurethattherandomoccurrenceofpowerspikeswillnotresultinexceedingthedesignpeakLHGR,itisnotbelievednecessarytoseparatelyconsiderpowersnikesintheanalysisoftransientsoraccidentswhichhaveasaninitialconditionsomeformofnormaloneration.Thecontrolroddropaccidentisuniqueintherespectthatitbeginsatthecoldcondition,andisnotaffectedbynormaloperatingpowerlevel.Further,theexistenceoffuelcolumngapscanresultinoowerspikinginthecoldcondition duringacontrolroddropwhichshouldthusbeconsideredintheevaluationofthisaccident.Forthispurpose,aseparatepowerspikinqanalysishasbeenperformedusingthesameassumptionsasindicatedabove,butemployinaapowerspikeversusgapsizecalculatedtooccurinthecoldconditionwithzerovoWs(Figure2).Thisanalysiswasperformedforaconservativemaximumgapsizecalculatedemployingapelletaverageimmersiondensityof94.5ÃT.D.,andapositionnearthetopofthecoreinordertomaximizetheoowersnikingeffect.Thisanalysisyieldeda99Kprobabil'ityth'atanyqivenfuelrodwouldhaveapowerspikeof45K.B.CladdingCreepCollapseUsingthesameconservativebasespresentedinReferences1and2,thecriticalpressureratio;i.e.,ratioofcollapsepressuretoactualcoolantpressure,wascalculated.Figure5presentsthecladmid-walltemperatureversustimeforthe8x8reloadfuel..Nocreditistakenforinternalqaspressureduetoreleasedfissiongasorvolatiles.Theinternalpressureduetoheliumbackfillat1atmosphereduringfabricationisconsidered.Thefuelcharacteristicsforcreepcollapse'calculationsareasfollows:CladO.D.,in.CladThickness,in.0.4930.034+0:003PeakLHGR,kw/ft13.4FastFluxvlNev.n/cm2-sec4.37x1013Figure6givesthecalculatedcriticalpressureratio.Asevidencedbythecurve,thecalculatedcriticaloressureratioisalwayso1.0.C.IncreasedLinearHeatGenerationRateThefollowingexpressionwasemployedtocalculatethedecreaseinfuelcolumnlengthduetodensificationincalculationofapenaltyinlinearheatgenerationrate:~0.965-5L=2L 0~I WherehL=decreaseinfuelcolumn.lengthL=fuelcolumnlengthp;=meanvalueofmeasuredinitialpelletdensity(immersion-.5/}Thelengthreductionduetodensificationascalculatedbytheaboveequationrequiresknowledgeofthemeanimmersiondensity(p;}obtainedfromthegCdata.Acorrectionof0-.5AT.D.isappliedtoconverttheimmersiondensitytoageometricdensity.ThemeanpelletimmersiondensityforNineMilePoint18xSreloadfuelis95.29/.T.D.Thisresultsin:AL=0.965-0.9529-0.005=0.01709=0.009L22orAL=0.9XLDue=-tothermalexpansion,anSxSpelletnormallyexnandsingoinqfromthecoldtohotcondition,anamountequalto1.25forapelletat13.4kW/ft.Thisincreaseinlengthfromthecoldtohotconditionisnottakencreditforineitherdesigncalculationsorintheprocessofcorenerformanceanalysisduringreactoroperations.Thecoldpelletlengthisassumedfortheseconditions.Therefore,thedecreaseinpelletlengthduetodensificationismorethanoffsetbypelletaxialthermalexpansion.D.DecreasedPellet-CladThermalConductivitFigure7providesplotsofMaximumAveragePlanarLinearHeatGenerationRate(MAPLHGR)versusexposure,forNineMilePointSx8reloadfuel.Them(omega}curveissuitableforincorporationintotheplanttechnicalspecifications.TheLOCAanalyseswereperformedusingtheapprovedInterimAcceotanceCriteriaModelwithgapconductancevaluesascalculatedperthenewGEGAPIIImodelwithAECmodifications.(1} | | ~ |
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| REFERENCESl.Hinds,J.A.,(GeneralElectric)lettertoY.A.Hoore(USAEC),"PlantEvaluationswithGEGAPIII,"December12,1973.2."GenericDesignInformationforGeneralElectricReloadFuel",NEDO-20103;September1973.3.NEDtl-10735,Supplement6,"FuelDensificationEffectsonGeneralElectricBoilingMaterReactorFuel,"August1973.
| | t, h'egUlatory Docket File NIAGARA MOHAWK POWER CORPORATION NIAGARA |
| | ~ MOHAWK 300 ERIE BOULEVARD, WEST SYRACUSE. N. Y. 13202 January 22, 1974 JAN23)974~ |
| | A)EIIpn ~ 'L'In It-iiVu~~ |
| | Mr. Dennis L. Ziemann, Chief Operating Reactors Branch 82 Directorate of Li cens ing United States Atomic Energy Commission Washington, D. C. 20545 |
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| ,7.0~FIGURE18x8POWERSPIKEVERSUSGAPSIZE-NORMALOPERATION6.05.0hPp4.0(I)3.02.01.00RODRELATIONSHIP(gO2OeO2O3O5O~05gonadjacentPellet-npod59~opg~o~ongo<~9@9dyponRod8apinRogreccdg5onRod81EffectofagapinRoEffecofa9dg4onRodNEffectofa9ap01.02,03.0GAPSIZE(CM)4.05.06.0
| | ==Dear Mr. Ziemann:== |
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| FIGURE28x8POWERSPIKEVERSUSGAPSIZE-COLDZEROVOIDCONDITIONRODRELATIONSHIPSOlO2O4020305o~O4O~0~~0o~d>onRod1inRooggaP~"<~g.ectoRod4onRod1EffectofqapinREffectofgapvariRod5onRod]GAPSIZE(Cg)
| | Re: Nine Mile Point Unit 1 AEC Docket No. 50-220 ficationn Niagara Mohawk Power Corporation has committed in its letter of October 15, 1973 to supply analyses to determine the effects of fuel densi-and the appropriate changes to Technical Specifications for the fuel to be inserted during the Spring 1974 refueling. The analyses have been performed using the, guidance provided in the enclosure to your December 5, 1973 letter, "Modified GE Model f'r Fuel Densification". |
| | These analyses and the proposed Techni:cal Specification changes are attached herewith. It is anti cipated that these changes will not limit plant power level below its full design rating of 1850 megawatts for power distributions expected during normal operation. |
| | The Site Operations Review Commjttee and the Safety Review and. Audit Board concur with these proposed Telchnical Specification changes. |
| | Very truly yours, Vi ce esi dent-Engineering |
| | /sq Attachment r'~, |
| | Subscribed and sworn to before me this ~~ay of January, 1974. |
| | JANP3)ygI EENCE'Uqp lrQQ, ~fyICII VALERIE hl. KELLY )CEERX Notery Pobhc in the'tete of New York Qoeliiled In Onon. Eo.. No. 3C n50C729 My Corernlrrlon fnplret "Merch 30r l9 |
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| FIGURE34.01.21.0.8.6A'.0C).2012LHGR(KH/FT=X)13140
| | r I |
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| FIGURE48x8POMERSPIKEPENALTYYSAXIALPOSITION-NORMALOPERATION1.02.03.096,095.04.04.03.094.02.095.096.056-7DISTANCEFROMBOTTOMOFCORE(FEET)81012
| | ~.,,,,<<,, Regulatory Docket File Specification Changes Type 5 and Type 6 Fuel For goaeraa~e. n naiad I. Anal ses of Fuel Densification Effects This section presents results of the effects of densification in the 8x8 reload fuel as determined from application of the models described in J |
| | Re fer'ence 1. |
| | A. Local Power Spikin A'n analysi's of potential local power. spikes due to axial gaps in a fuel pellet column for General Electric BMR's employinq an Rx8 fuel lattice design has been performed. This analysis employs the same method and basic assumotions that were reported in Reference l. Important asnects |
| | .' f thi s analys is are noted as fo1 1 ows: |
| | : l. The, equation employed to calculate maximum qap size is that noted in Reference 1: |
| | dL = ~965 - + 0.0025) L 2 |
| | where dL = maximum axial qao length L = fuel column length Pi = mean value of measured initial |
| | - .5X) p llet density (immersion 0.0025 = allowance for irradiation induced cladding growth and axial strain caused by fuel-clad mechanical interacti on. |
| | : 2. The magnitude of the power spike versus gap size for fuel rods of the 8x8 desiqn is shown in Figure 1 for normal operating condi ti ons and Fi gure 2 for col d zero voi d condi ti ons. |
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| 690FIGURE5CLADDINGAVERAGETEMPERATUREATAFUELCOLUMNAXIALGAP6806706606500640UJ63062086'j0a-6005905805705605500IRRADIATIONTIME,YEARS
| | ~ 4 |
| | : 3. The core power histogram employed v>>as for a 13.4 kl</ft C |
| | maximum design linear heat generation rate:. see Figure 3. |
| | The results from this analysis are shown in Fiaure 4 with initial fuel density as a parameter. The line shown for an initial fuel density of 95% |
| | T.D. is considered to be most representative considering curr nt General Electric data on manufactured fuel pellet densities. The power snike penalty shown in Figure 4 for several mean pellet densities as a function of axial position, is the required margin which must be maintained durinq normal ooeration between the actual peak operating condition and the oeak design LHGR; i.e., 13.4 kM/ft, Maintaining this margin will assure, with better than 95% confidence, that no more than one rod will exceed the desi qn neak LHGR due to the random occurrence of power spikes- resulting from axial fuel column gans. Consistent with General Electric's position on densification previously discussed in Reference 2 and its supplements, the results of this analysis are considered to he a very conservative representation of the power oeakinq penalty requi red4 to accommodate potential axial fuel column gaps during normal operating conditions in General Electric BHR's. |
| | Since the results of the power spikinq analysis for normal oneration will be utilized to limit bundle power to assure that the random occurrence of power spikes will not result in exceeding the design peak LHGR, it is not believed necessary to separately consider power snikes in the analysis of transients or accidents which have as an initial condition some form of normal oneration. The control rod drop acci dent is unique in the respect that it begins at the cold condi tion, and is not affected by normal operating power level. Further, the existence of fuel column gaps can result in oower spiking in the cold condition |
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| 4.0FIGURE6CLADCRITICALCOLLAPSEPRESSURERATIOVERSUSTIME8x8RELOADFUEL3.01.023IRRADIATIONTIME,YEARS 0
| | during a control rod drop which should thus be considered in the evaluation of this accident. For this purpose, a separate power spikinq analysis has been performed using the same assumptions as indicated above, but employina a power spi ke versus gap si ze calculated to occur in the cold condi tion with zero voWs |
| I716FIGURE7MAPLHGRVERSUSEXPOS'MAXIMUMALLOWABLETOSTAYBELOWCURRENTTECHNICALSPECIFICATIONLIMITFORLHGR0MAXIMUMALLOWABLEWITHGEGAPIIIANDAEClODIFICATIONS15~1413~12OC1005,00010,00015,00020,000AVERAGEPLANAREXPOSURE(mWd/t)25,00030,000
| | ( Fi gure 2). This analysis was performed for a conservative maximum gap si ze calculated employing a pellet average immersion density of 94.5Ã T.D., and a position near the top of the core in order to maximize the oower sniking effect. |
| | This analysis yielded a 99K probabil'ity th'at any qiven fuel rod would have a power spike of 45K. |
| | B. Cladding Creep Collapse Using the same conservative bases presented in References 1 and 2, the critical pressure ratio; i.e., ratio of collapse pressure to actual coolant pressure, was calculated. Figure 5 presents the clad mid-wall temperature versus time for the 8x8 reload fuel.. No credit is taken for internal qas pressure due to released fissi on gas or volati les. The internal pressure due to helium backfill at 1 atmosphere during fabrication is considered. The fuel characteristics for creep collapse 'calculations are as follows: |
| | Clad O.D., in. 0.493 Clad Thickness, in. 0.034 + 0:003 Peak LHGR, kw/ft 13. 4 Fast Flux vl Nev. n/cm2-sec 4.37 x 1013 Figure 6 gives the calculated critical pressure ratio. As evidenced by the curve, the calculated critical oressure ratio is always o1.0. |
| | C. Increased Linear Heat Generation Rate The following expression was employed to calculate the decrease in fuel column length due to densification in calculation of a penalty in linear heat generation rate: |
| | ~0. 965 5L = 2 L |
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| II.ProposedChanestoTechnicalSpecificationsChangepages37a,37b,37c,etc.asfollows:~ChaneAAddtheattachedFigure3.1.7etotheTechnicalSpecification.UndertheLimitingConditionforOperation3.1.7,addFigure3.1.7etothelistoffiguresattheendofthelastsentenceinparagrapha.~ChaneBRep'lacethenotes;totheequationinLimitingConditionsforOoeration3.1.7bwiththefollowing:"LHGRd=DesignLHGR=17.5kw/ftfor7x7fuelor13.4kw/ftfor8x8fuelQp/p)~AX=Maximumpowerspikingpenalty'0.040for7x7fuelor0.027forBx8fuel.LT=TotalCorelenath=12ft.L=Axialpositionabovebottonofcore"~ChaneCAddFigure3.1.7etothelistoffiquresinthethirdoaraaranhoftheBases3.1.7a.ReasonsforChanesA,BRCTheresultsofanalysesperformedfor8x8reloadfuelhasindicatedthatlimitsonflAPLHGRandpowersoikingoenaltiesduetodensificationarerequired.TheselimitsastheyapplytoType5andType6fuelarepresentedforincorporationintoNineNilePointUnit1TechnicalSpecifications.Similarlimitsforpreviouslyloaded7x7fuelarealreadynartof-the'echnicalSpecifications. | | 0 ~ I Where hL = decrease in fuel column. length L = fuel column length p; = mean value of measured initial pellet density (immersion - .5/} |
| JIE 17NINEhflLEPOINT-PilIT116~4~14~13~12OC1005,00010,00015,00020,000AVERAGEPLANAREXPOSURE(ml<d/t)25,00030,000FIGURE'.1.7.eftAXIfGAUMALLOWABLEAVERAGEPLANARLHGRAPPLICABLETOFUELTYPE5and6 00A'l}}
| | The length reduction due to densification as calculated by the above equation requires knowledge of the mean immersion density (p;} obtained from the gC data. A correction of 0-.5A T.D. is applied to convert the immersion densi ty to a geometric density. The mean pellet immersion density for Nine Mile Point 1 8xS reload fuel is 95.29/. T.D. This results in: |
| | AL = 0.965 - 0.9529 - 0.005 = 0.01709 = 0.009 L 2 2 or AL = 0.9X L |
| | Due =-to thermal expansion, an SxS pellet normally exnands in goinq from the cold to hot condition, an amount equal to 1.25 for a pellet at 13.4 kW/ft. |
| | This increase in length from the cold to hot condition is not taken credit for in either design calculations or in the process of core nerformance analysis during reactor operations. The cold pellet length is assumed for these condi ti ons. |
| | Therefore, the decrease in pellet length due to densification is more than offset by pellet axial thermal expansion. |
| | D. Decreased Pellet-Cl ad Thermal Conducti vi t Figure 7 provides plots of Maximum Average Planar Linear Heat Generation Rate (MAPLHGR) versus exposure, for Nine Mile Point Sx8 reload fuel. Them (omega} |
| | curve is suitable for incorporation into the plant technical specifications. |
| | The LOCA analyses were performed using the approved Interim Acceotance Criteria Model with gap conductance values as calculated per the new GEGAP III model with AEC modifications.(1 } |
| | |
| | REFERENCES |
| | : l. Hinds, J.A., (General Electric) letter to Y.A. Hoore (USAEC), |
| | "Plant Evaluations with GEGAP III," December 12, 1973. |
| | : 2. "Generic Design Information for General Electric Reload Fuel", |
| | NEDO-20103; September 1973. |
| | : 3. NEDtl-10735, Supplement 6, "Fuel Densification Effects on General Electric Boiling Mater Reactor Fuel," August 1973. |
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| | FIGURE 1 8x8 POWER SPIKE VERSUS GAP SIZE - NORMAL OPERATION |
| | , 7.0 ~ |
| | 6.0 ROD RELATIONSHIP (g O2 Oe 5.0 O2 O3 O5 hP p 4.0 O~ 05 (I) adjacent P ellet 3.0 -n pod g on 59 ~op g |
| | ~o ~ on 2.0 go< |
| | on Rod 8 |
| | ~ |
| | 9@9 in Ro d yp of a 9 ap grecc Ef fec d g4 on Rod N |
| | 1.0 Effect of a 9ap in Ro d g5 on Rod 81 Effect of a gap 0 |
| | 0 1.0 2,0 3.0 4.0 5.0 6.0 GAP SIZE (CM) |
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| | FIGURE 2 8x8 POWER SPIKE VERSUS GAP SIZE - COLD ZERO VOID CONDITION ROD RELATIONSHIPS Ol O2 O4 02 03 05 o~ |
| | O4 O~ |
| | 0 1 |
| | on Rod Ro d > |
| | ~~0 o~ in |
| | ~" |
| | og gaP o |
| | <~g.ect in Rod R 4 on Rod 1 Effect of qap Effect of gap vari Rod 5 on Rod ] |
| | GAP SIZE (Cg) |
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| | FIGURE 3 4.0 A'.0 1.2 1.0 |
| | .8 C) |
| | .6 |
| | .2 0 0 12 13 14 LHGR (KH/FT = X) |
| | |
| | FIGURE 4 8x8 POMER SPIKE PENALTY YS AXIAL POSITION - NORMAL OPERATION 1.0 2.0 96,0 95.0 3.0 4.0 4.0 3.0 94.0 2.0 95.0 96.0 5 6 7 8 10 12 DISTANCE FROM BOTTOM OF CORE (FEET) |
| | |
| | FIGURE 5 CLADDING AVERAGE TEMPERATURE AT A FUEL COLUMN AXIAL GAP 690 680 670 660 650 0 |
| | 640 UJ 630 620 8 6'j0 a- 600 590 580 570 560 550 0 |
| | IRRADIATION TIME, YEARS |
| | |
| | FIGURE 6 CLAD CRITICAL COLLAPSE PRESSURE RATIO VERSUS TIME 8x8 RELOAD FUEL 4.0 3.0 1.0 2 3 IRRADIATION TIME, YEARS |
| | |
| | 0 FIGURE 7 MAPLHGR VERSUS EXPOS I7 MAXIMUM ALLOWABLE TO STAY BELOW CURRENT TECHNICAL SPECIFICATION LIMIT FOR LHGR 0 MAXIMUM ALLOWABLE WITH GEGAP III AND AEC lODI FICATIONS 16 15 |
| | ~ 14 13 |
| | ~ 12 OC 10 0 5,000 10,000 15,000 20,000 25,000 30,000 AVERAGE PLANAR EXPOSURE (mWd/t) |
| | |
| | II. Proposed Chan es to Techni cal Speci fi cations Change pages 37a, 37b, 37c, etc. as follows: |
| | ~Chan e A Add the attached Figure 3.1.7e to the Technical Specification. Under the Limiting Condition for Operation 3.1.7, add Figure 3.1.7e to the list of figures at the end of the last sentence in paragraph a. |
| | ~Chan e B Rep'lace the notes; to the equation in Limiting Conditions for Ooeration 3.1.7b wi th the following: |
| | " kw/ft for fuel or 13.4 kw/ft for LHGRd = Design LHGR = 17.5 7x7 8x8 fuel Qp/p)~AX = Maximum power spiking penalty' 0.040 for 7x7 fuel or 0.027 for Bx8 fuel. |
| | LT = Total Core lenath = 12 ft. |
| | L = Axial posi tion above botton of core " |
| | ~Chan e C Add Figure 3.1.7e to the list of fiqures in the third oaraaranh of the Bases 3.1.7a. |
| | Reasons for Chan es A, B R C The results of analyses performed for 8x8 reload fuel has indi cated that limits on flAPLHGR and power soiking oenalties due to densification are required. These limits as they apply to Type 5 and Type 6 fuel are presented for incorporation into Nine Nile Point Unit 1 Technical Specifications. |
| | Similar limits for previously loaded 7x7 fuel are already nart of -the |
| | 'echni cal Speci fi cati ons. |
| | |
| | J IE |
| | |
| | 17 NINE hflLE POINT-PilIT 1 |
| | ~4 16 |
| | ~ 14 |
| | ~ 13 |
| | ~ 12 OC 10 0 5,000 10,000 15,000 20,000 25,000 30,000 AVERAGE PLANAR EXPOSURE (ml<d/t) |
| | FIGURE '.1.7. e ftAXIfGAUM ALLOWABLE AVERAGE PLANAR LHGR APPLICABLE TO FUEL TYPE 5 and 6 |
| | |
| | 0 0 A 'l}} |
|
|---|
Category:Letter
MONTHYEARNMP1L3570, Supplemental Information Letter - Revision to the Technical Specifications Design Features Sections to Remove the Nine Mile 3 Nuclear Project, LLC, Designation2024-02-0101 February 2024
Supplemental Information Letter - Revision to the Technical Specifications Design Features Sections to Remove the Nine Mile 3 Nuclear Project, LLC, Designation
IR 05000220/20230042024-02-0101 February 2024
Integrated Inspection Report 05000220/2023004 and 05000410/2023004
NMP1L3569, CFR 50.46 Annual Report2024-01-26026 January 2024
CFR 50.46 Annual Report
ML24004A2122024-01-0808 January 2024
Senior Reactor and Reactor Operator Initial License Examinations
ML23354A0012024-01-0404 January 2024
Exemption from Select Requirements of 10 CFR Part 73 (EPID L-2023-LLE-0059 (Security Notifications, Reports, and Recordkeeping and Suspicious Activity Reporting))
ML23278A1292023-12-14014 December 2023
Units 1 & 2; Limerick, Units 1 & 2; Nine Mile Point, Units 1 & 2; and Peach Bottom, Units 2 & 3 -Revision to Approved Alternatives to Use Boiling Water Reactor Vessel and Internals Project Guidelines
NMP1L3566, Radiological Emergency Plan Document Revision. Includes EP-AA-1013, Revision 10, Radiological Emergency Plan Annex for Nine Mile Point Station2023-12-14014 December 2023
Radiological Emergency Plan Document Revision. Includes EP-AA-1013, Revision 10, Radiological Emergency Plan Annex for Nine Mile Point Station
IR 05000410/20243012023-12-14014 December 2023
Initial Operator Licensing Examination Report 05000410/2024301
ML23305A1402023-12-13013 December 2023
Units 1 & 2; Nine Mile Point, Unit 2; Peach Bottom, Units 2 & 3; and Quad Cities, Units 1 and 2 - Issuance of Amendments to Adopt Traveler TSTF-580
NMP1L3564, Supplemental Response to Part 73 Exemption Request - Withdrawal of Request for Exemption from 10 CFR 73, Subpart B, Preemption Authority Requirements2023-12-0707 December 2023
Supplemental Response to Part 73 Exemption Request - Withdrawal of Request for Exemption from 10 CFR 73, Subpart B, Preemption Authority Requirements
ML23291A4642023-12-0707 December 2023
Issuance of Amendment No. 251 Regarding the Adoption of Title 10 the Code of Federal Regulations Section 50.69, Risk-Informed Categorization and Treatment of SSC for Nuclear Power Plants
ML23289A0122023-12-0606 December 2023
Issuance of Amendment No. 250 Regarding the Revision to Technical Specifications to Adopt TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b
NMP1L3563, Submittal of Relief Request I5R-12, Revision 0, Concerning the Installation of a Full Structural Weld Overlay on Reactor Pressure Vessel Recirculation Inlet Nozzle N2E Safe End-to-Nozzle Dissimilar Metal Weld (32-WD-208)2023-12-0404 December 2023
Submittal of Relief Request I5R-12, Revision 0, Concerning the Installation of a Full Structural Weld Overlay on Reactor Pressure Vessel Recirculation Inlet Nozzle N2E Safe End-to-Nozzle Dissimilar Metal Weld (32-WD-208)
IR 05000220/20234022023-11-28028 November 2023
Security Baseline Inspection Report 05000220/2023402 and 05000410/2023402
NMP1L3557, Request for Exemption from Enhanced Weapons, Firearms Background Checks, and Security Event Notifications Implementation2023-11-22022 November 2023
Request for Exemption from Enhanced Weapons, Firearms Background Checks, and Security Event Notifications Implementation
ML23317A1192023-11-10010 November 2023
Constellation Energy Generation, LLC - 2023 Annual Report - Guarantees of Payment of Deferred Premiums
IR 05000220/20234202023-11-0101 November 2023
Security Baseline Inspection Report 05000220/2023420 and 05000410/2023420
ML23305A0052023-11-0101 November 2023
Operator Licensing Examination Approval
IR 05000220/20230032023-10-25025 October 2023
Integrated Inspection Report 05000220/2023003 and 05000410/2023003
IR 05000220/20235012023-10-17017 October 2023
Emergency Preparedness Biennial Exercise Inspection Report 05000220/2023501 and 05000410/2023501
IR 05000220/20230112023-10-16016 October 2023
Comprehensive Engineering Team Inspection Report 05000220/2023011 and 05000410/2023011
RS-23-097, Constellation Energy Generation, LLC, Advisement of Leadership Changes and Submittal of Updated Standard Practice Procedures Plans2023-10-12012 October 2023
Constellation Energy Generation, LLC, Advisement of Leadership Changes and Submittal of Updated Standard Practice Procedures Plans
NMP1L3554, Submittal of Revision 28 to the Final Safety Analysis Report (Updated), Fire Protection Design Criteria Document, 10CFR50.59 Evaluation Summary Report, 10CFR54.37(b) Aging Management Review, and Technical Specifications with Revised Bases2023-10-0606 October 2023
Submittal of Revision 28 to the Final Safety Analysis Report (Updated), Fire Protection Design Criteria Document, 10CFR50.59 Evaluation Summary Report, 10CFR54.37(b) Aging Management Review, and Technical Specifications with Revised Bases C
IR 05000220/20233032023-09-20020 September 2023
Retake Operator Licensing Examination Report 05000220/2023303
ML23250A0822023-09-19019 September 2023
Regulatory Audit Summary Regarding LARs to Adopt TSTF-505, Rev. 2, and 10 CFR 50.69
ML23257A1732023-09-14014 September 2023
Requalification Program Inspection
IR 05000220/20230052023-08-31031 August 2023
Updated Inspection Plan for Nine Mile Point Nuclear Station, Units 1 and 2 (Report 05000220/2023005 and 05000410/2023005)
RS-23-080, Constellation Energy Generation, LLC, Application to Revise Technical Specifications to Adopt TSTF-264-A, Revision 0, 3.3.9 and 3.3.10 - Delete Flux Monitors Specific Overlap Requirement SRs2023-08-30030 August 2023
Constellation Energy Generation, LLC, Application to Revise Technical Specifications to Adopt TSTF-264-A, Revision 0, 3.3.9 and 3.3.10 - Delete Flux Monitors Specific Overlap Requirement SRs
NMP2L2851, Relief Request Associated with Successive Inspections for Generic Letter 88-01 / BWRVIP-75-A Augmented Examinations2023-08-25025 August 2023
Relief Request Associated with Successive Inspections for Generic Letter 88-01 / BWRVIP-75-A Augmented Examinations
ML23151A3472023-08-21021 August 2023
Issuance of Amendments to Adopt TSTF-295-A, Modify Note 2 to Actions of PAM Table to Allow Separate Condition Entry for Each Penetration
NMP1L3534, License Amendment Request - Revision to the Technical Specifications Design Features Sections to Remove the Nine Mile 3 Nuclear Project, LLC, Designation2023-08-18018 August 2023
License Amendment Request - Revision to the Technical Specifications Design Features Sections to Remove the Nine Mile 3 Nuclear Project, LLC, Designation
ML23220A0262023-08-0808 August 2023
Licensed Operator Positive Fitness-for-Duty Test
IR 05000220/20234012023-08-0808 August 2023
Cyber Security Inspection Report 05000220/2023401 and 05000410/2023401 (Cover Letter Only)
NMP1L3545, Supplemental Information Letter to Adopt TSTF-505, Provide Risk- Informed Extended Completion Times - RITSTF Initiative 4b, Revision 2 and 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems .2023-08-0404 August 2023
Supplemental Information Letter to Adopt TSTF-505, Provide Risk- Informed Extended Completion Times - RITSTF Initiative 4b, Revision 2 and 10 CFR 50.69, Risk-informed Categorization and Treatment of Structures, Systems .
RS-23-087, Revision to Approved Alternatives Associated with the Use of the BWRVIP Guidelines in Lieu of Specific ASME Code Requirements on Reactor2023-08-0404 August 2023
Revision to Approved Alternatives Associated with the Use of the BWRVIP Guidelines in Lieu of Specific ASME Code Requirements on Reactor
IR 05000220/20230022023-08-0101 August 2023
Integrated Inspection Report 05000220/2023002 and 05000410/2023002
ML23207A0762023-07-14014 July 2023
EN 56557 - Update to Part 21 Report Re Potential Defect with Trane External Auto/Stop Emergency Stop Relay Card Pn: XI2650728-06
NMP1L3544, Fifth Inservice Inspection Interval, First Inservice Inspection Period 2023 Owner'S Activity Report for RFO-27 Inservice Examinations2023-07-14014 July 2023
Fifth Inservice Inspection Interval, First Inservice Inspection Period 2023 Owner'S Activity Report for RFO-27 Inservice Examinations
ML23186A1642023-07-0606 July 2023
Operator Licensing Retake Examination Approval
NMP2L2846, Nine Mire Point Nuclear Station, Units 1 and 2, General License 30-day Cask Registration Notifications2023-07-0505 July 2023
Nine Mire Point Nuclear Station, Units 1 and 2, General License 30-day Cask Registration Notifications
ML23192A0622023-06-30030 June 2023
Engine Systems, Inc., 10CFR21 Reporting of Defects and Non-Compliance, Report No. 10CFR21-0136, Rev. 0
IR 05000220/20230102023-06-29029 June 2023
Biennial Problem Identification and Resolution Inspection Report 05000220/2023010 and 05000410/2023010
ML23131A4242023-06-23023 June 2023
Issuance of Amendment No. 249 Regarding the Revision to Technical Specification 3.3.1 to Adopt Technical Specifications Task Force Traveler TSTF-568
RS-23-077, Response to NRC Regulatory Issue Summary 2023-01, Preparation and Scheduling of Operator Licensing Examinations2023-06-16016 June 2023
Response to NRC Regulatory Issue Summary 2023-01, Preparation and Scheduling of Operator Licensing Examinations
NMP1L3539, Day Commitment Response - Relief Request I5R-11 Concerning the Installation of a Weld Overlay on Reactor Pressure Vessel Recirculation Inlet Nozzle N2E Safe End-to-Nozzle Dissimilar Metal Weld (32-WD-208)2023-06-0909 June 2023
Day Commitment Response - Relief Request I5R-11 Concerning the Installation of a Weld Overlay on Reactor Pressure Vessel Recirculation Inlet Nozzle N2E Safe End-to-Nozzle Dissimilar Metal Weld (32-WD-208)
ML23159A0052023-06-0505 June 2023
56557-EN 56557 - Paragon - Redlined
RS-23-042, Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling2023-05-25025 May 2023
Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling
IR 05000410/20233022023-05-15015 May 2023
Initial Operator Licensing Examination Report 05000410/2023302
2024-02-01
[Table view]
Category:Technical Specification
MONTHYEARRS-23-042, Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling2023-05-25025 May 2023
Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling
NMP1L3482, License Amendment Request to Revise Technical Specifications to Adopt Risk Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b2022-12-15015 December 2022
License Amendment Request to Revise Technical Specifications to Adopt Risk Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b
ML22298A0112022-10-25025 October 2022
License Amendment Request to Adopt Technical Specification Task Force TSTF-295-A, Modify Note 2 to Actions of (Post-Accident Monitoring) PAM Table To.
ML22292A1312022-10-0505 October 2022
5 to Updated Final Safety Analysis Report, Technical Specification Bases, Rev. 69
RS-22-092, Nine and Quad Cities - Application to Revise Primary Containment Isolation Instrumentation Technical Specifications in Accordance with TSTF-306, Revision 2, Add Action to LCO 3.3.6.1 to Give Option to Isolate the Penetration2022-10-0303 October 2022
Nine and Quad Cities - Application to Revise Primary Containment Isolation Instrumentation Technical Specifications in Accordance with TSTF-306, Revision 2, Add Action to LCO 3.3.6.1 to Give Option to Isolate the Penetration
NMP1L3477, License Amendment Request - Application to Partially Adopt Technical Specification Task Force (TSTF) Traveler TSTF-568, Revision 2, Revise Applicability of BWR/4 TS 3.6.2.5 and TS 3.6.3.2, to Revise.2022-08-12012 August 2022
License Amendment Request - Application to Partially Adopt Technical Specification Task Force (TSTF) Traveler TSTF-568, Revision 2, Revise Applicability of BWR/4 TS 3.6.2.5 and TS 3.6.3.2, to Revise.
NMP2L2780, Application to Revise Technical Specifications to Adopt TSTF-582, Revision 0, Reactor Pressure Vessel Water Inventory Control (RPV WIC) Enhancements2021-09-30030 September 2021
Application to Revise Technical Specifications to Adopt TSTF-582, Revision 0, Reactor Pressure Vessel Water Inventory Control (RPV WIC) Enhancements
NMP2L2762, License Amendment Request Adoption of Technical Specification Task Force (TSTF) Traveler TSTF-501, Revision 1, Relocate Stored Fuel Oil and Lube Oil Volume Values to Licensee Control2021-05-26026 May 2021
License Amendment Request Adoption of Technical Specification Task Force (TSTF) Traveler TSTF-501, Revision 1, Relocate Stored Fuel Oil and Lube Oil Volume Values to Licensee Control
JAFP-20-0049, Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability2020-06-22022 June 2020
Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability
NMP2L2718, Supplemental Information No.1 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-505, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b, Revision 22019-12-12012 December 2019
Supplemental Information No.1 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-505, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b, Revision 2
JAFP-19-0067, Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability2019-06-27027 June 2019
Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability
RS-19-039, Fleet License Amendment Request - Common Language for Technical Specification High Radiation Area Administrative Controls2019-06-26026 June 2019
Fleet License Amendment Request - Common Language for Technical Specification High Radiation Area Administrative Controls
NMP2L2693, Technical Specification Bases, Rev. 572018-10-24024 October 2018
Technical Specification Bases, Rev. 57
NMP2L2664, Supplemental Information No. 2 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 22018-01-12012 January 2018
Supplemental Information No. 2 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 2
NMP2L2652, License Amendment Request - Revise Surveillance Requirement 3.5.1.2 to Remove Note2017-08-22022 August 2017
License Amendment Request - Revise Surveillance Requirement 3.5.1.2 to Remove Note
NMP2L2640, License Amendment Request - Revise Technical Specifications to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 22017-02-28028 February 2017
License Amendment Request - Revise Technical Specifications to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 2
ML16309A4002016-10-24024 October 2016
Revision 47 to Technical Specification Bases, List of Effective Pages
ML16309A4022016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Section B2.0, Safety Limits (Sls)
ML16309A4032016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Section B3.0, Limiting Condition for Operation (LCO) Applicability
ML16309A4012016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Table of Contents
ML16309A4082016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Section B3.5, Emergency Core Cooling Systems (ECCS) and Reactor Core Isolation Cooling (RCIC) System
ML16309A4132016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Section B3.9, Refueling Operations
ML16309A4052016-10-24024 October 2016
Revision 47 to Technical Specification Bases, Section B3.2, Power Distribution Limits
ML16209A2182016-07-26026 July 2016
Application to Revise Technical Specifications to Adopt TSTF-545, Revision 3, TS Lnservice Testing Program Removal & Clarify SR Usage Rule Application to Section 5.5 Testing.
NMP1L3070, License Amendment Request - Reactivity Anomalies Surveillance2016-03-18018 March 2016
License Amendment Request - Reactivity Anomalies Surveillance
NMP2L2592, Supplemental Information Regarding TSTF-425 License Amendment Request2015-09-24024 September 2015
Supplemental Information Regarding TSTF-425 License Amendment Request
NMP1L3027, Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)2015-05-12012 May 2015
Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)
ML15089A2312015-03-26026 March 2015
Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)
NMP1L3010, Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)2015-03-26026 March 2015
Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)
NMP2L2576, License Amendment Request - Relocation of Secondary Containment Bypass Leakage Paths Table from Technical Specifications to the Technical Requirements Manual2015-03-23023 March 2015
License Amendment Request - Relocation of Secondary Containment Bypass Leakage Paths Table from Technical Specifications to the Technical Requirements Manual
NMP2L2563, License Amendment Request - Primary Containment Isolation Instrumentation Technical Specification Allowable Value Change2014-11-17017 November 2014
License Amendment Request - Primary Containment Isolation Instrumentation Technical Specification Allowable Value Change
ML14191A2552014-07-10010 July 2014
Nine Mile Point and Ginna, Unit 1 - Application to Revise Technical Specifications to Adopt TSTF-523, Generic Letter 2008-01, Managing Gas Accumulation, Using the Consolidated Line Item Improvement Process
ML12156A3632012-06-0101 June 2012
Emergency License Amendment Request Pursuant to 10 CFR 50.90: Revision of the Main Steam Isolation Valve Allowable Leakage Rate Limit
ML11306A2982011-10-27027 October 2011
Submittal of Revision 22 to the Final Safety Analysis Report (Updated), 10 CFR 50.59 Evaluation Summary Report, Technical Specifications Bases Changes, and Report Consistent with 10 CFR 54.37(b)
ML11214A2142011-07-25025 July 2011
License Amendment Request, Extension of the Completion Time for Inoperable Diesel Generator - Response to NRC Request for Additional Information
ML1109602832011-03-30030 March 2011
License Amendment Request Pursuant to 10 CFR 50.90: Request for Adoption of Technical Specification Task Force Traveler TSTF-514, Revision 3, Revise BWR Operability Requirements and Actions for RCS Leakage ...
ML0935000902009-12-0909 December 2009
License Amendment Request to Remove Operating Mode Restrictions for Performing Surveillance Testing of the Division 3 Battery - Technical Specification 3.8.4, DC Sources - Operating
ML0931602572009-10-26026 October 2009
Submittal of Revision 21 to the Final Safety Analysis Report (Updated), 10 CFR 50.59 Evaluation Summary Report, Technical Specifications Bases Changes, and Report Consistent with 10 CFR 54.37(b)
ML0907802502009-03-0909 March 2009
Submittal of Amendment Request for Technical Specification Improvement to Revise Control Rod Scram Time Testing Frequency
ML0906403012009-03-0303 March 2009
License Amendment Request Pursuant to 10 CFR 50.90: Relocation of Pressure and Temperature Limit Curves to the Pressure and Temperature Limits Report
ML0827502992008-09-29029 September 2008
Technical Specifications
ML0802501622008-01-24024 January 2008
Response to NRC Request for Additional Information Regarding Nine Mile Point Nuclear Station, Unit No. 1, Revision of Rod Worth Minimizer Limiting Condition for Operation During Startup
ML0726401032007-09-19019 September 2007
License Amendment Request for Adoption of TSTF-484, Revision 0, Use of TS 3.10.1 for Scram Time Testing Activities.
ML0721906052007-07-30030 July 2007
Application for Technical Specification Change TSTF-477, Rev. 3, Add Action for Two Inoperable Control Room AC Subsystems to the Technical Specifications Using Consolidated Line Item Improvement Process
ML0721205922007-07-23023 July 2007
Application for Technical Specification Improvement to Adopt TSTF-476, Revison 1, Improved BPWS Control Rod Insertion Process (NEDO-33091), Using the Consolidated Line Item Improvement
ML0721205872007-07-23023 July 2007
License Amendment Request Pursuant to 10 CFR 50.90: Revision of Rod Worth Minimizer Limiting Condition for Operation During Startup - Technical Specification Section 3.1.1.b
ML0720504232007-07-12012 July 2007
Application to Revise Technical Specifications Regarding Control Room Envelope Habitability in Accordance with TSTF-448, Revision 3, Using the Consolidated Line Item Improvement Process
ML0720504742007-07-12012 July 2007
Application to Revise Technical Specifications Regarding Control Room Envelope Habitability in Accordance with TSTF-448, Revision 3, Using the Consolidated Line Item Improvement Process
ML0707800592007-03-15015 March 2007
Technical Specification 4.1.1 Regarding Control Rod System Surveillance Requirements
ML0630406022006-10-19019 October 2006
License Amendment Request Pursuant to 10 CFR 50.90: Revision to Control Rod System Surveillance Requirements - Technical Specification 4.1.1
2023-05-25
[Table view]
Category:Amendment
MONTHYEARRS-23-042, Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling2023-05-25025 May 2023
Application to Revise Technical Specifications to Adopt TSTF-580, Provide Exception from Entering Mode 4 with No Operable RHR Shutdown Cooling
NMP1L3482, License Amendment Request to Revise Technical Specifications to Adopt Risk Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b2022-12-15015 December 2022
License Amendment Request to Revise Technical Specifications to Adopt Risk Informed Completion Times TSTF-505, Revision 2, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b
ML22298A0112022-10-25025 October 2022
License Amendment Request to Adopt Technical Specification Task Force TSTF-295-A, Modify Note 2 to Actions of (Post-Accident Monitoring) PAM Table To.
RS-22-092, Nine and Quad Cities - Application to Revise Primary Containment Isolation Instrumentation Technical Specifications in Accordance with TSTF-306, Revision 2, Add Action to LCO 3.3.6.1 to Give Option to Isolate the Penetration2022-10-0303 October 2022
Nine and Quad Cities - Application to Revise Primary Containment Isolation Instrumentation Technical Specifications in Accordance with TSTF-306, Revision 2, Add Action to LCO 3.3.6.1 to Give Option to Isolate the Penetration
NMP2L2780, Application to Revise Technical Specifications to Adopt TSTF-582, Revision 0, Reactor Pressure Vessel Water Inventory Control (RPV WIC) Enhancements2021-09-30030 September 2021
Application to Revise Technical Specifications to Adopt TSTF-582, Revision 0, Reactor Pressure Vessel Water Inventory Control (RPV WIC) Enhancements
JAFP-20-0049, Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability2020-06-22022 June 2020
Application to Adopt TSTF-427, Revision 2, Allowance for Non Technical Specification Barrier Degradation on Supported System Operability
NMP2L2718, Supplemental Information No.1 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-505, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b, Revision 22019-12-12012 December 2019
Supplemental Information No.1 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-505, Provide Risk-Informed Extended Completion Times - RITSTF Initiative 4b, Revision 2
RS-19-039, Fleet License Amendment Request - Common Language for Technical Specification High Radiation Area Administrative Controls2019-06-26026 June 2019
Fleet License Amendment Request - Common Language for Technical Specification High Radiation Area Administrative Controls
NMP2L2664, Supplemental Information No. 2 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 22018-01-12012 January 2018
Supplemental Information No. 2 for Nine Mile Point Nuclear Station, Unit 2, to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 2
NMP2L2652, License Amendment Request - Revise Surveillance Requirement 3.5.1.2 to Remove Note2017-08-22022 August 2017
License Amendment Request - Revise Surveillance Requirement 3.5.1.2 to Remove Note
NMP2L2640, License Amendment Request - Revise Technical Specifications to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 22017-02-28028 February 2017
License Amendment Request - Revise Technical Specifications to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Revision 2
NMP1L3027, Application for Technical Specifications Change Regarding Risk-Informed Justification for the Relocation of Specific Surveillance Frequency Requirements to a Licensee Controlled Program (Adoption of TSTF-425, Revision 3)2015-05-12012 May 2015
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ML14191A2552014-07-10010 July 2014
Nine Mile Point and Ginna, Unit 1 - Application to Revise Technical Specifications to Adopt TSTF-523, Generic Letter 2008-01, Managing Gas Accumulation, Using the Consolidated Line Item Improvement Process
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Application to Revise Technical Specifications Regarding Control Room Envelope Habitability in Accordance with TSTF-448, Revision 3, Using the Consolidated Line Item Improvement Process
ML0707800592007-03-15015 March 2007
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ML0424003162004-08-17017 August 2004
Unit I, License Amendment Request Pursuant to 10 CFR 50.90: Addition of 24 Hours for Restoration of Primary Containment Oxygen Concentration
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ML18018B0461978-03-22022 March 1978
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ML17037C4331977-08-0808 August 1977
Letter Regarding Surveillance Requirements and Limiting Conditions for Operations and Requesting an Application for Amendment to the Operating License That Will Change the Technical Specifications
ML17037C4131977-07-22022 July 1977
Letter Enclosing Application for Amendment to Operating License and Proposed Changes to Technical Specifications Concerning Changes in Management and Organization
ML17037C4141977-07-18018 July 1977
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ML17037C4161977-07-14014 July 1977
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ML17037C4181977-05-19019 May 1977
Letter Enclosing an Application to Amend Operating License and a Requested Change in the Technical Specifications Relating to Instrumentation Used to Monitor Drywell Suppression Chamber Differential Pressure and Suppression ..
ML17037C4341977-03-0404 March 1977
Letter Regarding a Preliminary Review of the December 7, 1976 Request for Technical Specification Changes to Reactor Operating Limits After Reload for Cycle 5 Operation and Requesting Additional Information to Complete Review
ML17037C4391976-09-30030 September 1976
Letter Requesting Submittal of an Application for License Amendment to Incorporate the Requirements of the Model Technical Specifications
ML17037C4531976-01-19019 January 1976
Letter Transmitting an Application for Amendment to Operating License and a Proposed Change to Technical Specifications (Appendix a) to Clarify Cloride and Oxygen Levels
ML17037C1771975-12-19019 December 1975
Letter Enclosing a Corrected Attachment to License Amendment No. 11 Change No. 27 to the Technical Specifications Provisional Operating License No. DPR-16
ML17037C1831975-11-0303 November 1975
Letter Regarding Application for Amendment to Technical Specifications and an Inadvertent Error Not Made on the Persons Listed in the Certificate of Service
ML17037C4681975-09-23023 September 1975
Letter Regarding a Stress Assisted Corrosion Problem and an Enclosed Safety Evaluation by the Office of NRR - Supporting Amendment to License No. DPR-63 and Changes to the Technical Specifications Inoperable Control Rod ..
ML17037C4541975-09-0808 September 1975
Letter Transmitting an Application for Amendment to Operating License and a Proposed Change to Technical Specifications Correcting Errors in a Submittal Made August 15, 1975 in Connection with Reload Cycle 5
2023-05-25
[Table view] |
Text
AEC DXS UTION FOR PART 50 DOCKET MATER (TEMPORARY FORM) CONTROL NO:
FILE: 8 FROAA1: DATE OF DOC DATE REC'D LTR MEMO RPT OTHER Niagara Mohawk Power Corp Syracuse, N; Y. 13202 1-22-74 1-23-74 P. D. Raymond TO: ORIG CC OTHER SENT AEC PDR x D. L. Ziemann 3 signedq SENT LOCAL PDR X CLASS UNCLASS PROP INFO INPUT NO C S REC'D DOCKET NO:
XXXX XXXX 40 50-220 DESCRIPTION: ENCLOSURES:
Ltr notarized 1-22-74, trans the following: Pro osed Chan e to Technical S ecifications:
Densification Analyses and Related Technical Specifications Changes for Type 5 and Type DO NOT REMOVE ACKNOWLEDGED PLANT NAME: Nine Mile Point Unit $P1 ( 3 Orig 6 37 cys rec'd )
FOR ACTION/INFORMATION 1-23-74 GC BUTLER (L) SCHWENCER(L) ~Z IEMANN(L) REGAN (E)
W/ Copies W/ Copies W/ 9Copies W/ Copies CLARK(L) STOLZ(L) DICKER(E)
W/ Copies W/ Copies ' W/ Copies W/ Copies GOLLER(L) VASSALLO(L) KNIGHTOH(E) "
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W/ Copies W/ Copies Copies W/
KNIEL(L) SCHEMEL(L) YOUNGBLOOD(E)
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DEYOUNG (L) (FllR) HOUSTON MULLER SHEPPARD (E) INFO O'SKOVHOLT (L) NOVAK DXCKER SMITH (L) C, MILES P, COLLINS ROSS BRIGHTON TEETS (L) B. KING XPPOLITO YOUNGBLOOD WADE (E) v4. CABELL TEDESCO REGAN WILLIAMS (E)
FILE & REGION(d)) LONG PROJECT LDR WXLSON (L)
MORRIS LAINAS STEELE BENAROYA HARLESS VOLLMER EXTERNAL DISTRIBUTION
- LOCAL PDR Oswe o N. Y.
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t, h'egUlatory Docket File NIAGARA MOHAWK POWER CORPORATION NIAGARA
~ MOHAWK 300 ERIE BOULEVARD, WEST SYRACUSE. N. Y. 13202 January 22, 1974 JAN23)974~
A)EIIpn ~ 'L'In It-iiVu~~
Mr. Dennis L. Ziemann, Chief Operating Reactors Branch 82 Directorate of Li cens ing United States Atomic Energy Commission Washington, D. C. 20545
Dear Mr. Ziemann:
Re: Nine Mile Point Unit 1 AEC Docket No. 50-220 ficationn Niagara Mohawk Power Corporation has committed in its letter of October 15, 1973 to supply analyses to determine the effects of fuel densi-and the appropriate changes to Technical Specifications for the fuel to be inserted during the Spring 1974 refueling. The analyses have been performed using the, guidance provided in the enclosure to your December 5, 1973 letter, "Modified GE Model f'r Fuel Densification".
These analyses and the proposed Techni:cal Specification changes are attached herewith. It is anti cipated that these changes will not limit plant power level below its full design rating of 1850 megawatts for power distributions expected during normal operation.
The Site Operations Review Commjttee and the Safety Review and. Audit Board concur with these proposed Telchnical Specification changes.
Very truly yours, Vi ce esi dent-Engineering
/sq Attachment r'~,
Subscribed and sworn to before me this ~~ay of January, 1974.
JANP3)ygI EENCE'Uqp lrQQ, ~fyICII VALERIE hl. KELLY )CEERX Notery Pobhc in the'tete of New York Qoeliiled In Onon. Eo.. No. 3C n50C729 My Corernlrrlon fnplret "Merch 30r l9
~ r Ir
r I
~.,,,,<<,, Regulatory Docket File Specification Changes Type 5 and Type 6 Fuel For goaeraa~e. n naiad I. Anal ses of Fuel Densification Effects This section presents results of the effects of densification in the 8x8 reload fuel as determined from application of the models described in J
Re fer'ence 1.
A. Local Power Spikin A'n analysi's of potential local power. spikes due to axial gaps in a fuel pellet column for General Electric BMR's employinq an Rx8 fuel lattice design has been performed. This analysis employs the same method and basic assumotions that were reported in Reference l. Important asnects
.' f thi s analys is are noted as fo1 1 ows:
- l. The, equation employed to calculate maximum qap size is that noted in Reference 1:
dL = ~965 - + 0.0025) L 2
where dL = maximum axial qao length L = fuel column length Pi = mean value of measured initial
- .5X) p llet density (immersion 0.0025 = allowance for irradiation induced cladding growth and axial strain caused by fuel-clad mechanical interacti on.
- 2. The magnitude of the power spike versus gap size for fuel rods of the 8x8 desiqn is shown in Figure 1 for normal operating condi ti ons and Fi gure 2 for col d zero voi d condi ti ons.
~ 4
- 3. The core power histogram employed v>>as for a 13.4 kl</ft C
maximum design linear heat generation rate:. see Figure 3.
The results from this analysis are shown in Fiaure 4 with initial fuel density as a parameter. The line shown for an initial fuel density of 95%
T.D. is considered to be most representative considering curr nt General Electric data on manufactured fuel pellet densities. The power snike penalty shown in Figure 4 for several mean pellet densities as a function of axial position, is the required margin which must be maintained durinq normal ooeration between the actual peak operating condition and the oeak design LHGR; i.e., 13.4 kM/ft, Maintaining this margin will assure, with better than 95% confidence, that no more than one rod will exceed the desi qn neak LHGR due to the random occurrence of power spikes- resulting from axial fuel column gans. Consistent with General Electric's position on densification previously discussed in Reference 2 and its supplements, the results of this analysis are considered to he a very conservative representation of the power oeakinq penalty requi red4 to accommodate potential axial fuel column gaps during normal operating conditions in General Electric BHR's.
Since the results of the power spikinq analysis for normal oneration will be utilized to limit bundle power to assure that the random occurrence of power spikes will not result in exceeding the design peak LHGR, it is not believed necessary to separately consider power snikes in the analysis of transients or accidents which have as an initial condition some form of normal oneration. The control rod drop acci dent is unique in the respect that it begins at the cold condi tion, and is not affected by normal operating power level. Further, the existence of fuel column gaps can result in oower spiking in the cold condition
during a control rod drop which should thus be considered in the evaluation of this accident. For this purpose, a separate power spikinq analysis has been performed using the same assumptions as indicated above, but employina a power spi ke versus gap si ze calculated to occur in the cold condi tion with zero voWs
( Fi gure 2). This analysis was performed for a conservative maximum gap si ze calculated employing a pellet average immersion density of 94.5Ã T.D., and a position near the top of the core in order to maximize the oower sniking effect.
This analysis yielded a 99K probabil'ity th'at any qiven fuel rod would have a power spike of 45K.
B. Cladding Creep Collapse Using the same conservative bases presented in References 1 and 2, the critical pressure ratio; i.e., ratio of collapse pressure to actual coolant pressure, was calculated. Figure 5 presents the clad mid-wall temperature versus time for the 8x8 reload fuel.. No credit is taken for internal qas pressure due to released fissi on gas or volati les. The internal pressure due to helium backfill at 1 atmosphere during fabrication is considered. The fuel characteristics for creep collapse 'calculations are as follows:
Clad O.D., in. 0.493 Clad Thickness, in. 0.034 + 0:003 Peak LHGR, kw/ft 13. 4 Fast Flux vl Nev. n/cm2-sec 4.37 x 1013 Figure 6 gives the calculated critical pressure ratio. As evidenced by the curve, the calculated critical oressure ratio is always o1.0.
C. Increased Linear Heat Generation Rate The following expression was employed to calculate the decrease in fuel column length due to densification in calculation of a penalty in linear heat generation rate:
~0. 965 5L = 2 L
0 ~ I Where hL = decrease in fuel column. length L = fuel column length p; = mean value of measured initial pellet density (immersion - .5/}
The length reduction due to densification as calculated by the above equation requires knowledge of the mean immersion density (p;} obtained from the gC data. A correction of 0-.5A T.D. is applied to convert the immersion densi ty to a geometric density. The mean pellet immersion density for Nine Mile Point 1 8xS reload fuel is 95.29/. T.D. This results in:
AL = 0.965 - 0.9529 - 0.005 = 0.01709 = 0.009 L 2 2 or AL = 0.9X L
Due =-to thermal expansion, an SxS pellet normally exnands in goinq from the cold to hot condition, an amount equal to 1.25 for a pellet at 13.4 kW/ft.
This increase in length from the cold to hot condition is not taken credit for in either design calculations or in the process of core nerformance analysis during reactor operations. The cold pellet length is assumed for these condi ti ons.
Therefore, the decrease in pellet length due to densification is more than offset by pellet axial thermal expansion.
D. Decreased Pellet-Cl ad Thermal Conducti vi t Figure 7 provides plots of Maximum Average Planar Linear Heat Generation Rate (MAPLHGR) versus exposure, for Nine Mile Point Sx8 reload fuel. Them (omega}
curve is suitable for incorporation into the plant technical specifications.
The LOCA analyses were performed using the approved Interim Acceotance Criteria Model with gap conductance values as calculated per the new GEGAP III model with AEC modifications.(1 }
REFERENCES
- l. Hinds, J.A., (General Electric) letter to Y.A. Hoore (USAEC),
"Plant Evaluations with GEGAP III," December 12, 1973.
- 2. "Generic Design Information for General Electric Reload Fuel",
NEDO-20103; September 1973.
- 3. NEDtl-10735, Supplement 6, "Fuel Densification Effects on General Electric Boiling Mater Reactor Fuel," August 1973.
FIGURE 1 8x8 POWER SPIKE VERSUS GAP SIZE - NORMAL OPERATION
, 7.0 ~
6.0 ROD RELATIONSHIP (g O2 Oe 5.0 O2 O3 O5 hP p 4.0 O~ 05 (I) adjacent P ellet 3.0 -n pod g on 59 ~op g
~o ~ on 2.0 go<
on Rod 8
~
9@9 in Ro d yp of a 9 ap grecc Ef fec d g4 on Rod N
1.0 Effect of a 9ap in Ro d g5 on Rod 81 Effect of a gap 0
0 1.0 2,0 3.0 4.0 5.0 6.0 GAP SIZE (CM)
FIGURE 2 8x8 POWER SPIKE VERSUS GAP SIZE - COLD ZERO VOID CONDITION ROD RELATIONSHIPS Ol O2 O4 02 03 05 o~
O4 O~
0 1
on Rod Ro d >
~~0 o~ in
~"
og gaP o
<~g.ect in Rod R 4 on Rod 1 Effect of qap Effect of gap vari Rod 5 on Rod ]
GAP SIZE (Cg)
FIGURE 3 4.0 A'.0 1.2 1.0
.8 C)
.6
.2 0 0 12 13 14 LHGR (KH/FT = X)
FIGURE 4 8x8 POMER SPIKE PENALTY YS AXIAL POSITION - NORMAL OPERATION 1.0 2.0 96,0 95.0 3.0 4.0 4.0 3.0 94.0 2.0 95.0 96.0 5 6 7 8 10 12 DISTANCE FROM BOTTOM OF CORE (FEET)
FIGURE 5 CLADDING AVERAGE TEMPERATURE AT A FUEL COLUMN AXIAL GAP 690 680 670 660 650 0
640 UJ 630 620 8 6'j0 a- 600 590 580 570 560 550 0
IRRADIATION TIME, YEARS
FIGURE 6 CLAD CRITICAL COLLAPSE PRESSURE RATIO VERSUS TIME 8x8 RELOAD FUEL 4.0 3.0 1.0 2 3 IRRADIATION TIME, YEARS
0 FIGURE 7 MAPLHGR VERSUS EXPOS I7 MAXIMUM ALLOWABLE TO STAY BELOW CURRENT TECHNICAL SPECIFICATION LIMIT FOR LHGR 0 MAXIMUM ALLOWABLE WITH GEGAP III AND AEC lODI FICATIONS 16 15
~ 14 13
~ 12 OC 10 0 5,000 10,000 15,000 20,000 25,000 30,000 AVERAGE PLANAR EXPOSURE (mWd/t)
II. Proposed Chan es to Techni cal Speci fi cations Change pages 37a, 37b, 37c, etc. as follows:
~Chan e A Add the attached Figure 3.1.7e to the Technical Specification. Under the Limiting Condition for Operation 3.1.7, add Figure 3.1.7e to the list of figures at the end of the last sentence in paragraph a.
~Chan e B Rep'lace the notes; to the equation in Limiting Conditions for Ooeration 3.1.7b wi th the following:
" kw/ft for fuel or 13.4 kw/ft for LHGRd = Design LHGR = 17.5 7x7 8x8 fuel Qp/p)~AX = Maximum power spiking penalty' 0.040 for 7x7 fuel or 0.027 for Bx8 fuel.
LT = Total Core lenath = 12 ft.
L = Axial posi tion above botton of core "
~Chan e C Add Figure 3.1.7e to the list of fiqures in the third oaraaranh of the Bases 3.1.7a.
Reasons for Chan es A, B R C The results of analyses performed for 8x8 reload fuel has indi cated that limits on flAPLHGR and power soiking oenalties due to densification are required. These limits as they apply to Type 5 and Type 6 fuel are presented for incorporation into Nine Nile Point Unit 1 Technical Specifications.
Similar limits for previously loaded 7x7 fuel are already nart of -the
'echni cal Speci fi cati ons.
J IE
17 NINE hflLE POINT-PilIT 1
~4 16
~ 14
~ 13
~ 12 OC 10 0 5,000 10,000 15,000 20,000 25,000 30,000 AVERAGE PLANAR EXPOSURE (ml<d/t)
FIGURE '.1.7. e ftAXIfGAUM ALLOWABLE AVERAGE PLANAR LHGR APPLICABLE TO FUEL TYPE 5 and 6
0 0 A 'l
