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| {{#Wiki_filter:ACCELERATED DITRJBUTION DEMONSATIONSYSTEMREGULATORY INFORMATION DISTRIBUTION SYSTEM(RIDS)ACCESSION NBR:8910310003 DOC.DATE: | | {{#Wiki_filter:ACCELERATED DI TRJBUTION DEMONS ATION SYSTEM REGULATORY INFORMATION DISTRIBUTION SYSTEM (RIDS)ACCESSION NBR:8910310003 DOC.DATE: 89/10/17 NOTARIZED: |
| 89/10/17NOTARIZED: | | NO DOCKET FACIL:50-315 Donald C.Cook Nuclear Power Plant, Unit 1, Indiana&05000315 50-316 Donald C.Cook Nuclear Power Plant, Unit 2, Indiana&05000316 AUTH.NAME AUTHOR AFFILIATION ALEXICH,M.P. |
| NODOCKETFACIL:50-315 DonaldC.CookNuclearPowerPlant,Unit1,Indiana&0500031550-316DonaldC.CookNuclearPowerPlant,Unit2,Indiana&05000316AUTH.NAMEAUTHORAFFILIATION ALEXICH,M.P.
| | Indiana Michigan Power Co.(formerly Indiana&Michigan Ele RECIP.NAME RECIPIENT AFFILIATION Document Control Branch (Document Control Desk)SUBZECT: Application for amends to Licenses DPR-58&DPR-74,revising Tech Specs re controlled leakage.DISTRIBUTION CODE: A001D COPIES RECEIVED:LTR ENCL SIZE: TITLE: OR Submittal: |
| IndianaMichiganPowerCo.(formerly Indiana&MichiganEleRECIP.NAME RECIPIENT AFFILIATION DocumentControlBranch(Document ControlDesk)SUBZECT:Application foramendstoLicensesDPR-58&DPR-74,revising TechSpecsrecontrolled leakage.DISTRIBUTION CODE:A001DCOPIESRECEIVED:LTR ENCLSIZE:TITLE:ORSubmittal:
| | General Distribution NOTES R D RECIPIENT ID CODE/NAME PD3-1 LA GIITTER,Z'NTERNAL: |
| GeneralDistribution NOTESRDRECIPIENT IDCODE/NAME PD3-1LAGIITTER,Z'NTERNAL:
| | NRR/DEST/ADS 7E NRR/DEST/ICSB NRR/DEST/RSB 8E NUDOCS-ABSTRACT OGC/HDS1 RES/DSIR/EIB EXTERNAL: LPDR NSIC COPIES LTTR ENCL 1 1 5 5 1 1 1 1 1 1 1 1 1 0 1 1 1 1 1 1 RECIPIENT ID CODE/NAME PD3-1 PD NRR/DEST/ESB 8D NRR/DEST/MTB 9H NRR/DOEA/TS B 1 1 OC/~G FIL Ol NRC PDR COPIES LTTR ENCL 1 1 1 1 1 1 1 1 1'1 1 1 1 D D S D NOTE TO ALL"RIDS" RECIPIENTS: |
| NRR/DEST/ADS 7ENRR/DEST/ICSB NRR/DEST/RSB 8ENUDOCS-ABSTRACT OGC/HDS1RES/DSIR/EIB EXTERNAL: | | PLEASE HELP US TO REDUCE WASTE!CONTACT THE DOCUMENT CONTROL DESK, ROOM Pl-37 (EXT.20079)TO ELIMINATE YOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!TOTAL NUMBER OF COPIES REQUIRED: LTTR 21 ENCL 19 D p8, Indiana Michigan Power Company P.O.Box 16631 Columbus, OH 43216 R SNSIAMA MCNSIMN PQHfM AEP'NRC:1070 10 CFR 50.90 Donald C.Cook Nuclear Plant Units 1 and 2 License Nos.DPR-58 and DPR-74 Docket Nos.50-315 and 50-316 CONTROLLED LEAKAGE TECHNICAL SPECIFICATION CHANGE U.S.Nuclear Regulatory Commission Attn: Document Control Desk Washington, D.C.20555 Attn: T.E.Murley October 17, 1989 |
| LPDRNSICCOPIESLTTRENCL11551111111110111111RECIPIENT IDCODE/NAME PD3-1PDNRR/DEST/ESB 8DNRR/DEST/MTB 9HNRR/DOEA/TS B11OC/~GFILOlNRCPDRCOPIESLTTRENCL111111111'1111DDSDNOTETOALL"RIDS"RECIPIENTS:
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| PLEASEHELPUSTOREDUCEWASTE!CONTACTTHEDOCUMENTCONTROLDESK,ROOMPl-37(EXT.20079)TOELIMINATE YOURNAMEFROMDISTRIBUTION LISTSFORDOCUMENTS YOUDON'TNEED!TOTALNUMBEROFCOPIESREQUIRED:
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| LTTR21ENCL19Dp8, IndianaMichiganPowerCompanyP.O.Box16631Columbus, OH43216RSNSIAMAMCNSIMNPQHfMAEP'NRC:1070 10CFR50.90DonaldC.CookNuclearPlantUnits1and2LicenseNos.DPR-58andDPR-74DocketNos.50-315and50-316CONTROLLED LEAKAGETECHNICAL SPECIFICATION CHANGEU.S.NuclearRegulatory Commission Attn:DocumentControlDeskWashington, D.C.20555Attn:T.E.MurleyOctober17,1989
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| ==DearDr.Murley:== | | ==Dear Dr.Murley:== |
| Thisletteranditsattachments constitute anapplication foramendment totheTechnical Specifications (T/Ss)fortheDonaldC.CookNuclearPlantUnits1and2,Specifically, weareproposing tomodifyT/S3/4.4.6.2 (Operational Leakage)anditsassociated Basessuchthattherequirements forcontrolled leakagearemademorerestrictive.
| | This letter and its attachments constitute an application for amendment to the Technical Specifications (T/Ss)for the Donald C.Cook Nuclear Plant Units 1 and 2, Specifically, we are proposing to modify T/S 3/4.4.6.2 (Operational Leakage)and its associated Bases such that the requirements for controlled leakage are made more restrictive. |
| Thereasonforthechangeandour10CFR50.92significant hazardsanalysisarefoundinAttachment l.Attachment 2containstheproposedrevisedT/Spages,Webelievetheproposedchangeswillnotresultin(1)asignificant changeinthetypesofeffluents orasignificant increaseintheamountsofanyeffluentthatmaybereleasedoffsite,or(2)asignificant increaseinindividual orcumulative occupational radiation exposure.
| | The reason for the change and our 10 CFR 50.92 significant hazards analysis are found in Attachment l.Attachment 2 contains the proposed revised T/S pages, We believe the proposed changes will not result in (1)a significant change in the types of effluents or a significant increase in the amounts of any effluent that may be released offsite, or (2)a significant increase in individual or cumulative occupational radiation exposure.This T/S change is intended to correct a deficiency in our present T/Ss so that the assumptions of the applicable accident analysis are adequatel'y protected. |
| ThisT/Schangeisintendedtocorrectadeficiency inourpresentT/Sssothattheassumptions oftheapplicable accidentanalysisareadequatel'y protected.
| | As described in Attachment 1 to this letter, we have administratively implemented restrictions above the present T/S requirements that are protecting the accident analysis assumptions. |
| Asdescribed inAttachment 1tothisletter,wehaveadministratively implemented restrictions abovethepresentT/Srequirements thatareprotecting theaccidentanalysisassumptions.
| | These proposed changes have been reviewed by the Plant Nuclear Safety Review Committee and by the Nuclear Safety and Design Review Committee, In compliance with the requirements of 10 CFR 50.91(b)(1), copies of this letter and its attachments have been transmitted to Mr.R.C.Callen of the Michigan Public Service Commission and the Michigan Department of Public Health.85'i03i000S |
| TheseproposedchangeshavebeenreviewedbythePlantNuclearSafetyReviewCommittee andbytheNuclearSafetyandDesignReviewCommittee, Incompliance withtherequirements of10CFR50.91(b)(1),
| | '8'yl-017----~PDR ADGCK 05000315 P PQC IJ Dr.T.E.Murley-2-AEP:NRC:1070 Attachment 1 to this letter includes AEP drawings OP-2-5129 and OP-2-5128A. |
| copiesofthisletteranditsattachments havebeentransmitted toMr.R.C.CallenoftheMichiganPublicServiceCommission andtheMichiganDepartment ofPublicHealth.85'i03i000S
| | In accordance with the restrictions as to use set forth on the AEP drawings, AEP hereby releases these documents to the NRC for its information and use in connection with this submittal. |
| '8'yl-017 | | AEP also permits the NRC to reproduce the drawings as necessary to facilitate review and distribution of the drawings to meet NRC requirements. |
| ----~PDRADGCK05000315PPQCIJ Dr.T.E.Murley-2-AEP:NRC:1070 Attachment 1tothisletterincludesAEPdrawingsOP-2-5129 andOP-2-5128A. | | This document has been prepared following Corporate procedures that incorporate a reasonable set of controls to ensure its accuracy and completeness prior to signature by the undersigned. |
| Inaccordance withtherestrictions astousesetforthontheAEPdrawings, AEPherebyreleasesthesedocuments totheNRCforitsinformation anduseinconnection withthissubmittal.
| | Sincerely, M..Ale ch Vice President ldp Attachments cc: D.H.Vi.lliams, Jr.A.A.Blind-Bridgman R.C.Callen G.Charnoff A.B.Davis NRC Resident Inspector-Bridgman NFEM Section Chief ATTACHMENT 1 TO AEP;NRC:1070 REASONS AND 10 CFR 50.92 ANALYSIS FOR CHANGES TO THE DONALD C.COOK NUCLEAR PLANT TECHNICAL SPECIFICATIONS Attachment 1 to AEP:NRC:1070 Page 1 Introduction The Technical Specification (T/S)change proposed in this letter is intended to ensure the T/Ss accurately reflect the requirements of the safety analysis with regards to controlled leakage.To facilitate the review, we have included the following flow diagrams: 1)OP-2-5129 CVCS Reactor Letdown and Charging 2)OP-2-5128A Reactor Coolant Descri tion of Chan e As currently written, T/S 3,4.6.2.e (Operational Leakage)limits controlled leakage to 52 gpm.Surveillance requirement 4.4.6.2.1. |
| AEPalsopermitstheNRCtoreproduce thedrawingsasnecessary tofacilitate reviewanddistribution ofthedrawingstomeetNRCrequirements.
| | requires measurement of controlled leakage at least once per 31 days.Controlled leakage is defined in Section 1 of the T/Ss as"that seal water flow supplied to the reactor coolant pump seals." Ve are proposing to amend the subject T/S such that the controlled leakage limit is expressed as a line resistance, ill rather than a specific flow rate.The seal line resistance w be measured at least once per 31 days when the pressurizer p ressure is within 20 psi of its nominal full pressure~alue.The seal line resistance measured during2the surveillance must b be greater than or equal to 2.27 E-1 ft/gpm.The seal line SL'sistance R is determined from the following expression: |
| Thisdocumenthasbeenpreparedfollowing Corporate procedures thatincorporate areasonable setofcontrolstoensureitsaccuracyandcompleteness priortosignature bytheundersigned.
| | R~2.31 (P-P)SL Q 2 where: P charging pump header pressure, psig CHP P 2112 psig (Unit 1 low pressure operation) |
| Sincerely, M..AlechVicePresident ldpAttachments cc:D.H.Vi.lliams, Jr.A.A.Blind-BridgmanR.C.CallenG.CharnoffA.B.DavisNRCResidentInspector | | SX 2262 psig (Unit 1 high pressure operation) 2262 psig (Unit 2 operation) 2 3 2.31 conversion factor (12 in/ft)/(62.3 lb/ft)total seal injection flow, gpm Additionally, we have added an exemption from the requirements of T/S 4.0.4 for entry into Modes 3 and 4, deleted a footnote from T/S 3.4.6.2 Action (c)involving reporting requirements for reactor coolant pressure boundary leakage, and modified the Bases section to reflect'the controlled leakage requirement |
| -BridgmanNFEMSectionChief ATTACHMENT 1TOAEP;NRC:1070 REASONSAND10CFR50.92ANALYSISFORCHANGESTOTHEDONALDC.COOKNUCLEARPLANTTECHNICAL SPECIFICATIONS Attachment 1toAEP:NRC:1070 Page1Introduction TheTechnical Specification (T/S)changeproposedinthisletterisintendedtoensuretheT/Ssaccurately reflecttherequirements ofthesafetyanalysiswithregardstocontrolled leakage.Tofacilitate thereview,wehaveincludedthefollowing flowdiagrams: | | : change, Attachment 1 to AEP:NRC:1070 Page 2 Reason for Chan e The change to the controlled leakage requirements results from our conclusion that the present limit of 52 gpm cannot by itself ensure compliance with the assumptions of the safety analysis.For the LOCA analyses with minimum safeguards assumptions, the fuel vendors assume that all of the flow that is diverted from the boron injection tank (BIT)line by the seal injection line is unavailable for core cooling.(Although a portion of the seal water is injected into the reactor coolant system, there is no T/S limit on this flow and therefore all of the seal flow is assumed unavailable for core cooling,)The fuel vendor analyses assume a seal line hydraulic resistance of 0.227 ft/gpm.Surveillance requirement 4.4.6.2.l,c is intended to verify that the actual seal line resistance is greater than or equal to this value.It is complemented by T/S 4.5.2.h (ECCS Subsystems), which, as discussed in T/S Bases 3/4.5,2 and 3/4.5.3, assures that the BIT throttle valves are adjusted such that: a)total pump flow does not exceed runout conditions when the system is in its minimum resistance configuration, b)the proper flow split exists between injection points in accordance with the assumptions used in the ECCS-LOCA analyses, and c)the total ECCS flow to all injection points is equal to or above that assumed in the ECCS-LOCA analyses.The nominal developed head of the charging pump at runout (550 gpm)is approximately 1431 feet.Therefore, the flow diverted through the seal line under Emergency Core Cooling System (ECCS)operation at 0 psig is: (1431 ft/0'27 ft/gpm)2 1/2 79 gpm As a result, T/S 4.5.2.h specifies a nominal pump runout flow rate of 550 gpm with a simulated seal flow of 80 gpm and a maximum of 470 gpm through the BIT.During normal operation, the Unit 2 pressurizer pressure is maintained at a nominal pressure of 2235 psig.The resulting pressure at the seal injection point in the reactor coolant pump is approximately 2260 psig.Assuming normal letdown (75 gpm), the charging pump discharge pressure should be at least 2413 psig.The corresponding seal injection flow rate is: ((2413-2260)psi/(0.227 ft/gpm)2+(12 in/ft)/(62 lb/ft))40 gpm Attachment 1 to AEP:NRC:1070 Page 3 The current T/S only specifies a maximum flow rate.The T/S does not provide any limits on RCS or pump discharge pressure that correspond to the flow limit.As seen in the example above, the 52 gpm limit would be nonconservative with the charging pump head assumed in the example.The Westinghouse Standard T/Ss specify a controlled leakage limit in gpm.The Standard T/S surveillance requirement specifies that the modulating valve (corresponding to Cook Nuclear Plant valve QRV-251, shown at location J-5 on drawing OP-2-5129) must be fully open.Although this is an enhancement over the present Cook Nuclear Plant T/S, it presents operational difficulties since it requires valve QRV-251 to be fully opened in order to perform the test.Since QRV-251 is the main valve used to throttle charging flow during normal operations, it is not generally fully open.The operator must carefully adjust QRV-200 (shown at location H-3 on drawing OP-2-5129) to maintain the necessary charging flow and pressurizer level during the test.Since we have recognized that the present T/S is inadequate, we have implemented administrative controls to ensure that the controlled leakage surveillance accurately reflects the safety analysis assumptions. |
| 1)OP-2-5129 CVCSReactorLetdownandCharging2)OP-2-5128A ReactorCoolantDescritionofChaneAscurrently written,T/S3,4.6.2.e (Operational Leakage)limitscontrolled leakageto52gpm.Surveillance requirement 4.4.6.2.1. | | Controlled leakage, as measured during the surveillance, is administratively limited to 40 gpm, We are presently performing the surveillance outlined by the Standard T/S, except that we measure the charging pump header pressure to ensure it is consistent with the 40 gpm controlled leakage limit and the resistance assumed in the Westinghouse analysis.Our proposed T/S change ensures that the accident analysis assumptions are protected while eliminating the difficulty associated with the Standard T/S surveillance. |
| requiresmeasurement ofcontrolled leakageatleastonceper31days.Controlled leakageisdefinedinSection1oftheT/Ssas"thatsealwaterflowsuppliedtothereactorcoolantpumpseals."Veareproposing toamendthesubjectT/Ssuchthatthecontrolled leakagelimitisexpressed asalineresistance, illratherthanaspecificflowrate.Theseallineresistance wbemeasuredatleastonceper31dayswhenthepressurizer pressureiswithin20psiofitsnominalfullpressure~alue.Theseallineresistance measuredduring2the surveillance mustbbegreaterthanorequalto2.27E-1ft/gpm.TheseallineSL'sistance Risdetermined fromthefollowing expression:
| | The actual line resistance is determined rather than a simple flow rate.In performing the surveillance, we are currently planning to measure pump discharge pressure using pressure instrument QPI-250, since it reads out in the'control room.The instrument is in the pump discharge header downstream of QRV-251.This is conservative since it predicts a lower system resistance and therefore will make it more difficult to pass the test.Also, since pump discharge pressure is measured downstream of QRV-251, there is no need to fully open the valve, as the standard T/S requires, (The instrument is shown at location K-4 on drawing OP-2-5129). |
| R~2.31(P-P)SLQ2where:Pchargingpumpheaderpressure, psigCHPP2112psig(Unit1lowpressureoperation) | | Seal line flow will be determined by summing the flow indicated in the control room by instruments QFI 210, 220, 230, and 240, that indicate the seal flow to reactor coolant pumps 1 through 4, respectively.(The instruments are shown at location B-4 on drawing OP-2-5128A.) |
| SX2262psig(Unit1highpressureoperation) 2262psig(Unit2operation) 232.31conversion factor(12in/ft)/(62.3lb/ft)totalsealinjection flow,gpmAdditionally, wehaveaddedanexemption fromtherequirements ofT/S4.0.4forentryintoModes3and4,deletedafootnotefromT/S3.4.6.2Action(c)involving reporting requirements forreactorcoolantpressureboundaryleakage,andmodifiedtheBasessectiontoreflect'the controlled leakagerequirement
| | The conversion from pressurizer pressure to seal injection point pressure (P)was calculated using a methodology provided to us by Weshinghouse. |
| : change, Attachment 1toAEP:NRC:1070 Page2ReasonforChaneThechangetothecontrolled leakagerequirements resultsfromourconclusion thatthepresentlimitof52gpmcannotbyitselfensurecompliance withtheassumptions ofthesafetyanalysis. | | This methodology accounts for pressure effects such as the difference in elevation between pressurizer programmed level and the seal-injection Attachment 1 to AEP:NRC:1070 Page 4 points.The Westinghouse equations were applied to programmed RCS conditions (temperature and pressurizer level)for both units at various power levels.The values for P I specified in the proposed T/Ss correspond to 100%power operation since this conservatively results in the largest value of P.Two values for P>are specified for Unit 1, corresponding to the two discrete pressurizer pressure values (2235 psig and 2085 psig)SI which are supported by the Unit 1 reduced temperature and pressure program (Reference Unit 1 T/S Amendment 126).The seal line resistance, as determined by the proposed surveillance requirement, is applicable at full pressure'onditions. |
| FortheLOCAanalyseswithminimumsafeguards assumptions, thefuelvendorsassumethatalloftheflowthatisdivertedfromtheboroninjection tank(BIT)linebythesealinjection lineisunavailable forcorecooling.(Although aportionofthesealwaterisinjectedintothereactorcoolantsystem,thereisnoT/Slimitonthisflowandtherefore allofthesealflowisassumedunavailable forcorecooling,)
| | This is because the pressure at the seal in]ection point, which cannot be directly measured, has been calculated assuming full pressure operation, This is recognized by the Standard T/S, which specifies the LCO and the surveillance requirement at a pressurizer pressure of 2235+20 psig, (In practice, full pressure operation is the most limiting because it requires the lowest line resistance to provide adequate flow to the reactor coolant pump seals.)We have added a footnote to the LCO and worded the proposed surveillance requirement such that it is clear that the T/S is applicable with average pressurizer pressure at its full pressure value.(We have maintained the 20 psi tolerance from the Standard T/S, since pressurizer pressure may fluctuate slightly around its nominal value.)We have also added a T/S 4.0.4 exemption for T/S 4.4.6.2.1 for entry into Modes 3 and 4.The 4.0.4 exemption will allow entry into Modes 3 and 4 before the controlled leakage surveillance is completed, This change is consistent with the Standard T/S.As discussed above, the surveillance is to be performed with the RCS fully pressurized. |
| Thefuelvendoranalysesassumeaseallinehydraulic resistance of0.227ft/gpm.Surveillance requirement 4.4.6.2.l,c isintendedtoverifythattheactualseallineresistance isgreaterthanorequaltothisvalue.Itiscomplemented byT/S4.5.2.h(ECCSSubsystems),
| | This condition is typically established in Mode 3.While the RCS pressure is changing, it may be necessary to ad]ust seal flow to the reactor coolant pumps using needle valves CS-438-1,-2,-3, and-4, (These valves are shown on drawing 2-5128A at B-4.)A change in needle valve position alters the system resistance, rendering obsolete any resistance measurements taken beforehand. |
| which,asdiscussed inT/SBases3/4.5,2and3/4.5.3,assuresthattheBITthrottlevalvesareadjustedsuchthat:a)totalpumpflowdoesnotexceedrunoutconditions whenthesystemisinitsminimumresistance configuration, b)theproperflowsplitexistsbetweeninjection pointsinaccordance withtheassumptions usedintheECCS-LOCA | | We are also proposing to delete a footnote associated with T/S 3,4.6.2 Action (c)that involves reporting of reactor coolant pressure boundary leakage pursuant to T/S 6.9.1~The reportability requirements of T/S 6,9,1 have been modified because of changes to the LER rule (10 CFR 50.73), and T/S 6.9.1 no longer contains requirements related to reporting of pressure boundary leakage.This change is therefore purely administrative in nature, intended only to remove a superseded reference from the T/Ss. |
| : analyses, andc)thetotalECCSflowtoallinjection pointsisequaltoorabovethatassumedintheECCS-LOCA analyses.
| | Attachment 1 to AEP:NRC:1070 Page 5 10 CFR 50.92 Criteria Per 10 CFR 50.92, a proposed amendment will not involve a significant hazards consideration if the proposed amendment does not: 1)Involve a significant increase in the probability or consequences of an accident previously analyzed, 2)" Create the possibility of a new or different kind of accident from any accident previously analyzed or evaluate'd, or 3)Involve a significant reduction in a margin of safety.Criterion 1 We are proposing to modify the T/S surveillance requirement for controlled leakage such that it accurately reflects the assumptions of the LOCA analysis.The present T/S wording is vague, and does not by itself ensure consistency with the analysis, The revised surveillance requirement places additional restrictions on the plant, and would be expected to increase, rather than decrease, safety.The proposed addition of a T/S 4.0.4 exemption for Modes 3 and 4 and the clarifications that the specification is applicable with the RCS fully pressurized are a reduction to the current requirements, but are consistent with performing the surveillance with the RCS fully pressurized, and are similar to the Standard T/S requirements. |
| Thenominaldeveloped headofthechargingpumpatrunout(550gpm)isapproximately 1431feet.Therefore, theflowdivertedthroughtheseallineunderEmergency CoreCoolingSystem(ECCS)operation at0psigis:(1431ft/0'27ft/gpm)21/279gpmAsaresult,T/S4.5.2.hspecifies anominalpumprunoutflowrateof550gpmwithasimulated sealflowof80gpmandamaximumof470gpmthroughtheBIT.Duringnormaloperation, theUnit2pressurizer pressureismaintained atanominalpressureof2235psig.Theresulting pressureatthesealinjection pointinthereactorcoolantpumpisapproximately 2260psig.Assumingnormalletdown(75gpm),thechargingpumpdischarge pressureshouldbeatleast2413psig.Thecorresponding sealinjection flowrateis:((2413-2260)psi/(0.227 ft/gpm)2+(12in/ft)/(62lb/ft))40gpm Attachment 1toAEP:NRC:1070 Page3ThecurrentT/Sonlyspecifies amaximumflowrate.TheT/SdoesnotprovideanylimitsonRCSorpumpdischarge pressurethatcorrespond totheflowlimit.Asseenintheexampleabove,the52gpmlimitwouldbenonconservative withthechargingpumpheadassumedintheexample.TheWestinghouse StandardT/Ssspecifyacontrolled leakagelimitingpm.TheStandardT/Ssurveillance requirement specifies thatthemodulating valve(corresponding toCookNuclearPlantvalveQRV-251,shownatlocationJ-5ondrawingOP-2-5129) mustbefullyopen.Althoughthisisanenhancement overthepresentCookNuclearPlantT/S,itpresentsoperational difficulties sinceitrequiresvalveQRV-251tobefullyopenedinordertoperformthetest.SinceQRV-251isthemainvalveusedtothrottlechargingflowduringnormaloperations, itisnotgenerally fullyopen.Theoperatormustcarefully adjustQRV-200(shownatlocationH-3ondrawingOP-2-5129) tomaintainthenecessary chargingflowandpressurizer levelduringthetest.Sincewehaverecognized thatthepresentT/Sisinadequate, wehaveimplemented administrative controlstoensurethatthecontrolled leakagesurveillance accurately reflectsthesafetyanalysisassumptions.
| | Since there are no substantive differences between the Cook Nuclear Plant controlled leakage configuration and that reflected by the Standard T/S, the change would not be expected to decrease safety, For these reasons, we believe the change does not involve a significant increase in the probability or consequences of a previously analyzed accident, nor should it involve a significant reduction in a margin of safety.Criterion 2 The only change to plant operations is the method of measuring controlled leakage.The proposed method requires no changes in plant equipment lineups.Data is recorded from existing instrumentation, and then is mathematically manipulated to ensure the resistance is in compliance with the accident analysis assumptions. |
| Controlled leakage,asmeasuredduringthesurveillance, isadministratively limitedto40gpm,Wearepresently performing thesurveillance outlinedbytheStandardT/S,exceptthatwemeasurethechargingpumpheaderpressuretoensureitisconsistent withthe40gpmcontrolled leakagelimitandtheresistance assumedintheWestinghouse analysis. | | Since the change involves no new modes of plant operation, nor any physical changes to the plant, the change should not create the possibility of a new or different kind of accident from any accident previously analyzed or evaluated, Attachment 1 to AEP:NRC:1070 Page 6 Criterion 3 See Criterion 1 above.Lastly, we note that the Commission has piovided guidance concerning the determination of significant hazards by providing examples (48 FR 14870)of amendments considered not likely to involve significant hazards consideration. |
| OurproposedT/Schangeensuresthattheaccidentanalysisassumptions areprotected whileeliminating thedifficulty associated withtheStandardT/Ssurveillance.
| | The first example refers to changes that are purely administrative in nature.This example is applicable to the deletion of the footnote referring to the reporting requirements of T/S 6.9,1, The second example refer's to changes that, constitute an additional limi.tation, restriction, or control not presently included in the T/Ss: for example, more stringent surveillance requirements. |
| Theactuallineresistance isdetermined ratherthanasimpleflowrate.Inperforming thesurveillance, wearecurrently planningtomeasurepumpdischarge pressureusingpressureinstrument QPI-250,sinceitreadsoutinthe'controlroom.Theinstrument isinthepumpdischarge headerdownstream ofQRV-251.Thisisconservative sinceitpredictsalowersystemresistance andtherefore willmakeitmoredifficult topassthetest.Also,sincepumpdischarge pressureismeasureddownstream ofQRV-251,thereisnoneedtofullyopenthevalve,asthestandardT/Srequires, (Theinstrument isshownatlocationK-4ondrawingOP-2-5129).
| | The proposed surveillance requirement, as described above, is more restrictive than the present surveillance requirement. |
| Seallineflowwillbedetermined bysummingtheflowindicated inthecontrolroombyinstruments QFI210,220,230,and240,thatindicatethesealflowtoreactorcoolantpumps1through4,respectively.
| | The additional restrictions are intended to ensure compliance with the accident analysis assumptions. |
| (Theinstruments areshownatlocationB-4ondrawingOP-2-5128A.) | | The sixth Federal Register example refers to changes that may result in some increase to the probability or consequences of a previously analyzed accident, but the results of which are within clearly established acceptance limits.The T/S 4.0,4 exemption and limiting of applicability to a fully pressurized RCS we have p'roposed are similar to the Standard T/Ss, and therefore fit the stated example.}} |
| Theconversion frompressurizer pressuretosealinjection pointpressure(P)wascalculated usingamethodology providedtousbyWeshinghouse.
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| Thismethodology accountsforpressureeffectssuchasthedifference inelevation betweenpressurizer programmed levelandtheseal-injection Attachment 1toAEP:NRC:1070 Page4points.TheWestinghouse equations wereappliedtoprogrammed RCSconditions (temperature andpressurizer level)forbothunitsatvariouspowerlevels.ThevaluesforPIspecified intheproposedT/Sscorrespond to100%poweroperation sincethisconservatively resultsinthelargestvalueofP.TwovaluesforP>arespecified forUnit1,corresponding tothetwodiscretepressurizer pressurevalues(2235psigand2085psig)SIwhicharesupported bytheUnit1reducedtemperature andpressureprogram(Reference Unit1T/SAmendment 126).Theseallineresistance, asdetermined bytheproposedsurveillance requirement, isapplicable atfullpressure'onditions.
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| Thisisbecausethepressureatthesealin]ection point,whichcannotbedirectlymeasured, hasbeencalculated assumingfullpressureoperation, Thisisrecognized bytheStandardT/S,whichspecifies theLCOandthesurveillance requirement atapressurizer pressureof2235+20psig,(Inpractice, fullpressureoperation isthemostlimitingbecauseitrequiresthelowestlineresistance toprovideadequateflowtothereactorcoolantpumpseals.)WehaveaddedafootnotetotheLCOandwordedtheproposedsurveillance requirement suchthatitisclearthattheT/Sisapplicable withaveragepressurizer pressureatitsfullpressurevalue.(Wehavemaintained the20psitolerance fromtheStandardT/S,sincepressurizer pressuremayfluctuate slightlyarounditsnominalvalue.)WehavealsoaddedaT/S4.0.4exemption forT/S4.4.6.2.1 forentryintoModes3and4.The4.0.4exemption willallowentryintoModes3and4beforethecontrolled leakagesurveillance iscompleted, Thischangeisconsistent withtheStandardT/S.Asdiscussed above,thesurveillance istobeperformed withtheRCSfullypressurized.
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| Thiscondition istypically established inMode3.WhiletheRCSpressureischanging, itmaybenecessary toad]ustsealflowtothereactorcoolantpumpsusingneedlevalvesCS-438-1,-2,-3,and-4,(Thesevalvesareshownondrawing2-5128AatB-4.)Achangeinneedlevalvepositionaltersthesystemresistance, rendering obsoleteanyresistance measurements takenbeforehand.
| |
| Wearealsoproposing todeleteafootnoteassociated withT/S3,4.6.2Action(c)thatinvolvesreporting ofreactorcoolantpressureboundaryleakagepursuanttoT/S6.9.1~Thereportability requirements ofT/S6,9,1havebeenmodifiedbecauseofchangestotheLERrule(10CFR50.73),andT/S6.9.1nolongercontainsrequirements relatedtoreporting ofpressureboundaryleakage.Thischangeistherefore purelyadministrative innature,intendedonlytoremoveasuperseded reference fromtheT/Ss.
| |
| Attachment 1toAEP:NRC:1070 Page510CFR50.92CriteriaPer10CFR50.92,aproposedamendment willnotinvolveasignificant hazardsconsideration iftheproposedamendment doesnot:1)Involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously | |
| : analyzed, 2)"Createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously analyzedorevaluate'd, or3)Involveasignificant reduction inamarginofsafety.Criterion 1Weareproposing tomodifytheT/Ssurveillance requirement forcontrolled leakagesuchthatitaccurately reflectstheassumptions oftheLOCAanalysis.
| |
| ThepresentT/Swordingisvague,anddoesnotbyitselfensureconsistency withtheanalysis, Therevisedsurveillance requirement placesadditional restrictions ontheplant,andwouldbeexpectedtoincrease, ratherthandecrease, safety.TheproposedadditionofaT/S4.0.4exemption forModes3and4andtheclarifications thatthespecification isapplicable withtheRCSfullypressurized areareduction tothecurrentrequirements, butareconsistent withperforming thesurveillance withtheRCSfullypressurized, andaresimilartotheStandardT/Srequirements.
| |
| Sincetherearenosubstantive differences betweentheCookNuclearPlantcontrolled leakageconfiguration andthatreflected bytheStandardT/S,thechangewouldnotbeexpectedtodecreasesafety,Forthesereasons,webelievethechangedoesnotinvolveasignificant increaseintheprobability orconsequences ofapreviously analyzedaccident, norshoulditinvolveasignificant reduction inamarginofsafety.Criterion 2Theonlychangetoplantoperations isthemethodofmeasuring controlled leakage.Theproposedmethodrequiresnochangesinplantequipment lineups.Dataisrecordedfromexistinginstrumentation, andthenismathematically manipulated toensuretheresistance isincompliance withtheaccidentanalysisassumptions.
| |
| Sincethechangeinvolvesnonewmodesofplantoperation, noranyphysicalchangestotheplant,thechangeshouldnotcreatethepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously analyzedorevaluated, Attachment 1toAEP:NRC:1070 Page6Criterion 3SeeCriterion 1above.Lastly,wenotethattheCommission haspiovidedguidanceconcerning thedetermination ofsignificant hazardsbyproviding examples(48FR14870)ofamendments considered notlikelytoinvolvesignificant hazardsconsideration.
| |
| Thefirstexamplereferstochangesthatarepurelyadministrative innature.Thisexampleisapplicable tothedeletionofthefootnotereferring tothereporting requirements ofT/S6.9,1,Thesecondexamplerefer'stochangesthat,constitute anadditional limi.tation, restriction, orcontrolnotpresently includedintheT/Ss:forexample,morestringent surveillance requirements.
| |
| Theproposedsurveillance requirement, asdescribed above,ismorerestrictive thanthepresentsurveillance requirement.
| |
| Theadditional restrictions areintendedtoensurecompliance withtheaccidentanalysisassumptions.
| |
| ThesixthFederalRegisterexamplereferstochangesthatmayresultinsomeincreasetotheprobability orconsequences ofapreviously analyzedaccident, buttheresultsofwhicharewithinclearlyestablished acceptance limits.TheT/S4.0,4exemption andlimitingofapplicability toafullypressurized RCSwehavep'roposed aresimilartotheStandardT/Ss,andtherefore fitthestatedexample.}}
| |
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ML17334B5481995-05-26026 May 1995
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ML17332A7771995-05-25025 May 1995
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1999-09-23
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Category:TEXT-LICENSE APPLICATIONS & PERMITS
MONTHYEARML17335A5551999-10-12012 October 1999
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ML17326A1161999-09-10010 September 1999
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[Table view] |
Text
ACCELERATED DI TRJBUTION DEMONS ATION SYSTEM REGULATORY INFORMATION DISTRIBUTION SYSTEM (RIDS)ACCESSION NBR:8910310003 DOC.DATE: 89/10/17 NOTARIZED:
NO DOCKET FACIL:50-315 Donald C.Cook Nuclear Power Plant, Unit 1, Indiana&05000315 50-316 Donald C.Cook Nuclear Power Plant, Unit 2, Indiana&05000316 AUTH.NAME AUTHOR AFFILIATION ALEXICH,M.P.
Indiana Michigan Power Co.(formerly Indiana&Michigan Ele RECIP.NAME RECIPIENT AFFILIATION Document Control Branch (Document Control Desk)SUBZECT: Application for amends to Licenses DPR-58&DPR-74,revising Tech Specs re controlled leakage.DISTRIBUTION CODE: A001D COPIES RECEIVED:LTR ENCL SIZE: TITLE: OR Submittal:
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PLEASE HELP US TO REDUCE WASTE!CONTACT THE DOCUMENT CONTROL DESK, ROOM Pl-37 (EXT.20079)TO ELIMINATE YOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!TOTAL NUMBER OF COPIES REQUIRED: LTTR 21 ENCL 19 D p8, Indiana Michigan Power Company P.O.Box 16631 Columbus, OH 43216 R SNSIAMA MCNSIMN PQHfM AEP'NRC:1070 10 CFR 50.90 Donald C.Cook Nuclear Plant Units 1 and 2 License Nos.DPR-58 and DPR-74 Docket Nos.50-315 and 50-316 CONTROLLED LEAKAGE TECHNICAL SPECIFICATION CHANGE U.S.Nuclear Regulatory Commission Attn: Document Control Desk Washington, D.C.20555 Attn: T.E.Murley October 17, 1989
Dear Dr.Murley:
This letter and its attachments constitute an application for amendment to the Technical Specifications (T/Ss)for the Donald C.Cook Nuclear Plant Units 1 and 2, Specifically, we are proposing to modify T/S 3/4.4.6.2 (Operational Leakage)and its associated Bases such that the requirements for controlled leakage are made more restrictive.
The reason for the change and our 10 CFR 50.92 significant hazards analysis are found in Attachment l.Attachment 2 contains the proposed revised T/S pages, We believe the proposed changes will not result in (1)a significant change in the types of effluents or a significant increase in the amounts of any effluent that may be released offsite, or (2)a significant increase in individual or cumulative occupational radiation exposure.This T/S change is intended to correct a deficiency in our present T/Ss so that the assumptions of the applicable accident analysis are adequatel'y protected.
As described in Attachment 1 to this letter, we have administratively implemented restrictions above the present T/S requirements that are protecting the accident analysis assumptions.
These proposed changes have been reviewed by the Plant Nuclear Safety Review Committee and by the Nuclear Safety and Design Review Committee, In compliance with the requirements of 10 CFR 50.91(b)(1), copies of this letter and its attachments have been transmitted to Mr.R.C.Callen of the Michigan Public Service Commission and the Michigan Department of Public Health.85'i03i000S
'8'yl-017----~PDR ADGCK 05000315 P PQC IJ Dr.T.E.Murley-2-AEP:NRC:1070 Attachment 1 to this letter includes AEP drawings OP-2-5129 and OP-2-5128A.
In accordance with the restrictions as to use set forth on the AEP drawings, AEP hereby releases these documents to the NRC for its information and use in connection with this submittal.
AEP also permits the NRC to reproduce the drawings as necessary to facilitate review and distribution of the drawings to meet NRC requirements.
This document has been prepared following Corporate procedures that incorporate a reasonable set of controls to ensure its accuracy and completeness prior to signature by the undersigned.
Sincerely, M..Ale ch Vice President ldp Attachments cc: D.H.Vi.lliams, Jr.A.A.Blind-Bridgman R.C.Callen G.Charnoff A.B.Davis NRC Resident Inspector-Bridgman NFEM Section Chief ATTACHMENT 1 TO AEP;NRC:1070 REASONS AND 10 CFR 50.92 ANALYSIS FOR CHANGES TO THE DONALD C.COOK NUCLEAR PLANT TECHNICAL SPECIFICATIONS Attachment 1 to AEP:NRC:1070 Page 1 Introduction The Technical Specification (T/S)change proposed in this letter is intended to ensure the T/Ss accurately reflect the requirements of the safety analysis with regards to controlled leakage.To facilitate the review, we have included the following flow diagrams: 1)OP-2-5129 CVCS Reactor Letdown and Charging 2)OP-2-5128A Reactor Coolant Descri tion of Chan e As currently written, T/S 3,4.6.2.e (Operational Leakage)limits controlled leakage to 52 gpm.Surveillance requirement 4.4.6.2.1.
requires measurement of controlled leakage at least once per 31 days.Controlled leakage is defined in Section 1 of the T/Ss as"that seal water flow supplied to the reactor coolant pump seals." Ve are proposing to amend the subject T/S such that the controlled leakage limit is expressed as a line resistance, ill rather than a specific flow rate.The seal line resistance w be measured at least once per 31 days when the pressurizer p ressure is within 20 psi of its nominal full pressure~alue.The seal line resistance measured during2the surveillance must b be greater than or equal to 2.27 E-1 ft/gpm.The seal line SL'sistance R is determined from the following expression:
R~2.31 (P-P)SL Q 2 where: P charging pump header pressure, psig CHP P 2112 psig (Unit 1 low pressure operation)
SX 2262 psig (Unit 1 high pressure operation) 2262 psig (Unit 2 operation) 2 3 2.31 conversion factor (12 in/ft)/(62.3 lb/ft)total seal injection flow, gpm Additionally, we have added an exemption from the requirements of T/S 4.0.4 for entry into Modes 3 and 4, deleted a footnote from T/S 3.4.6.2 Action (c)involving reporting requirements for reactor coolant pressure boundary leakage, and modified the Bases section to reflect'the controlled leakage requirement
- change, Attachment 1 to AEP:NRC:1070 Page 2 Reason for Chan e The change to the controlled leakage requirements results from our conclusion that the present limit of 52 gpm cannot by itself ensure compliance with the assumptions of the safety analysis.For the LOCA analyses with minimum safeguards assumptions, the fuel vendors assume that all of the flow that is diverted from the boron injection tank (BIT)line by the seal injection line is unavailable for core cooling.(Although a portion of the seal water is injected into the reactor coolant system, there is no T/S limit on this flow and therefore all of the seal flow is assumed unavailable for core cooling,)The fuel vendor analyses assume a seal line hydraulic resistance of 0.227 ft/gpm.Surveillance requirement 4.4.6.2.l,c is intended to verify that the actual seal line resistance is greater than or equal to this value.It is complemented by T/S 4.5.2.h (ECCS Subsystems), which, as discussed in T/S Bases 3/4.5,2 and 3/4.5.3, assures that the BIT throttle valves are adjusted such that: a)total pump flow does not exceed runout conditions when the system is in its minimum resistance configuration, b)the proper flow split exists between injection points in accordance with the assumptions used in the ECCS-LOCA analyses, and c)the total ECCS flow to all injection points is equal to or above that assumed in the ECCS-LOCA analyses.The nominal developed head of the charging pump at runout (550 gpm)is approximately 1431 feet.Therefore, the flow diverted through the seal line under Emergency Core Cooling System (ECCS)operation at 0 psig is: (1431 ft/0'27 ft/gpm)2 1/2 79 gpm As a result, T/S 4.5.2.h specifies a nominal pump runout flow rate of 550 gpm with a simulated seal flow of 80 gpm and a maximum of 470 gpm through the BIT.During normal operation, the Unit 2 pressurizer pressure is maintained at a nominal pressure of 2235 psig.The resulting pressure at the seal injection point in the reactor coolant pump is approximately 2260 psig.Assuming normal letdown (75 gpm), the charging pump discharge pressure should be at least 2413 psig.The corresponding seal injection flow rate is: ((2413-2260)psi/(0.227 ft/gpm)2+(12 in/ft)/(62 lb/ft))40 gpm Attachment 1 to AEP:NRC:1070 Page 3 The current T/S only specifies a maximum flow rate.The T/S does not provide any limits on RCS or pump discharge pressure that correspond to the flow limit.As seen in the example above, the 52 gpm limit would be nonconservative with the charging pump head assumed in the example.The Westinghouse Standard T/Ss specify a controlled leakage limit in gpm.The Standard T/S surveillance requirement specifies that the modulating valve (corresponding to Cook Nuclear Plant valve QRV-251, shown at location J-5 on drawing OP-2-5129) must be fully open.Although this is an enhancement over the present Cook Nuclear Plant T/S, it presents operational difficulties since it requires valve QRV-251 to be fully opened in order to perform the test.Since QRV-251 is the main valve used to throttle charging flow during normal operations, it is not generally fully open.The operator must carefully adjust QRV-200 (shown at location H-3 on drawing OP-2-5129) to maintain the necessary charging flow and pressurizer level during the test.Since we have recognized that the present T/S is inadequate, we have implemented administrative controls to ensure that the controlled leakage surveillance accurately reflects the safety analysis assumptions.
Controlled leakage, as measured during the surveillance, is administratively limited to 40 gpm, We are presently performing the surveillance outlined by the Standard T/S, except that we measure the charging pump header pressure to ensure it is consistent with the 40 gpm controlled leakage limit and the resistance assumed in the Westinghouse analysis.Our proposed T/S change ensures that the accident analysis assumptions are protected while eliminating the difficulty associated with the Standard T/S surveillance.
The actual line resistance is determined rather than a simple flow rate.In performing the surveillance, we are currently planning to measure pump discharge pressure using pressure instrument QPI-250, since it reads out in the'control room.The instrument is in the pump discharge header downstream of QRV-251.This is conservative since it predicts a lower system resistance and therefore will make it more difficult to pass the test.Also, since pump discharge pressure is measured downstream of QRV-251, there is no need to fully open the valve, as the standard T/S requires, (The instrument is shown at location K-4 on drawing OP-2-5129).
Seal line flow will be determined by summing the flow indicated in the control room by instruments QFI 210, 220, 230, and 240, that indicate the seal flow to reactor coolant pumps 1 through 4, respectively.(The instruments are shown at location B-4 on drawing OP-2-5128A.)
The conversion from pressurizer pressure to seal injection point pressure (P)was calculated using a methodology provided to us by Weshinghouse.
This methodology accounts for pressure effects such as the difference in elevation between pressurizer programmed level and the seal-injection Attachment 1 to AEP:NRC:1070 Page 4 points.The Westinghouse equations were applied to programmed RCS conditions (temperature and pressurizer level)for both units at various power levels.The values for P I specified in the proposed T/Ss correspond to 100%power operation since this conservatively results in the largest value of P.Two values for P>are specified for Unit 1, corresponding to the two discrete pressurizer pressure values (2235 psig and 2085 psig)SI which are supported by the Unit 1 reduced temperature and pressure program (Reference Unit 1 T/S Amendment 126).The seal line resistance, as determined by the proposed surveillance requirement, is applicable at full pressure'onditions.
This is because the pressure at the seal in]ection point, which cannot be directly measured, has been calculated assuming full pressure operation, This is recognized by the Standard T/S, which specifies the LCO and the surveillance requirement at a pressurizer pressure of 2235+20 psig, (In practice, full pressure operation is the most limiting because it requires the lowest line resistance to provide adequate flow to the reactor coolant pump seals.)We have added a footnote to the LCO and worded the proposed surveillance requirement such that it is clear that the T/S is applicable with average pressurizer pressure at its full pressure value.(We have maintained the 20 psi tolerance from the Standard T/S, since pressurizer pressure may fluctuate slightly around its nominal value.)We have also added a T/S 4.0.4 exemption for T/S 4.4.6.2.1 for entry into Modes 3 and 4.The 4.0.4 exemption will allow entry into Modes 3 and 4 before the controlled leakage surveillance is completed, This change is consistent with the Standard T/S.As discussed above, the surveillance is to be performed with the RCS fully pressurized.
This condition is typically established in Mode 3.While the RCS pressure is changing, it may be necessary to ad]ust seal flow to the reactor coolant pumps using needle valves CS-438-1,-2,-3, and-4, (These valves are shown on drawing 2-5128A at B-4.)A change in needle valve position alters the system resistance, rendering obsolete any resistance measurements taken beforehand.
We are also proposing to delete a footnote associated with T/S 3,4.6.2 Action (c)that involves reporting of reactor coolant pressure boundary leakage pursuant to T/S 6.9.1~The reportability requirements of T/S 6,9,1 have been modified because of changes to the LER rule (10 CFR 50.73), and T/S 6.9.1 no longer contains requirements related to reporting of pressure boundary leakage.This change is therefore purely administrative in nature, intended only to remove a superseded reference from the T/Ss.
Attachment 1 to AEP:NRC:1070 Page 5 10 CFR 50.92 Criteria Per 10 CFR 50.92, a proposed amendment will not involve a significant hazards consideration if the proposed amendment does not: 1)Involve a significant increase in the probability or consequences of an accident previously analyzed, 2)" Create the possibility of a new or different kind of accident from any accident previously analyzed or evaluate'd, or 3)Involve a significant reduction in a margin of safety.Criterion 1 We are proposing to modify the T/S surveillance requirement for controlled leakage such that it accurately reflects the assumptions of the LOCA analysis.The present T/S wording is vague, and does not by itself ensure consistency with the analysis, The revised surveillance requirement places additional restrictions on the plant, and would be expected to increase, rather than decrease, safety.The proposed addition of a T/S 4.0.4 exemption for Modes 3 and 4 and the clarifications that the specification is applicable with the RCS fully pressurized are a reduction to the current requirements, but are consistent with performing the surveillance with the RCS fully pressurized, and are similar to the Standard T/S requirements.
Since there are no substantive differences between the Cook Nuclear Plant controlled leakage configuration and that reflected by the Standard T/S, the change would not be expected to decrease safety, For these reasons, we believe the change does not involve a significant increase in the probability or consequences of a previously analyzed accident, nor should it involve a significant reduction in a margin of safety.Criterion 2 The only change to plant operations is the method of measuring controlled leakage.The proposed method requires no changes in plant equipment lineups.Data is recorded from existing instrumentation, and then is mathematically manipulated to ensure the resistance is in compliance with the accident analysis assumptions.
Since the change involves no new modes of plant operation, nor any physical changes to the plant, the change should not create the possibility of a new or different kind of accident from any accident previously analyzed or evaluated, Attachment 1 to AEP:NRC:1070 Page 6 Criterion 3 See Criterion 1 above.Lastly, we note that the Commission has piovided guidance concerning the determination of significant hazards by providing examples (48 FR 14870)of amendments considered not likely to involve significant hazards consideration.
The first example refers to changes that are purely administrative in nature.This example is applicable to the deletion of the footnote referring to the reporting requirements of T/S 6.9,1, The second example refer's to changes that, constitute an additional limi.tation, restriction, or control not presently included in the T/Ss: for example, more stringent surveillance requirements.
The proposed surveillance requirement, as described above, is more restrictive than the present surveillance requirement.
The additional restrictions are intended to ensure compliance with the accident analysis assumptions.
The sixth Federal Register example refers to changes that may result in some increase to the probability or consequences of a previously analyzed accident, but the results of which are within clearly established acceptance limits.The T/S 4.0,4 exemption and limiting of applicability to a fully pressurized RCS we have p'roposed are similar to the Standard T/Ss, and therefore fit the stated example.
