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{{#Wiki_filter:ATTAQiMENT 2TOAEP'NRC:1166/
{{#Wiki_filter:ATTAQiMENT 2 TO AEP'NRC:1166/
EXISTINGTECHNICAL SPECIFICATION PAGESMARKEDTOREFLECTPROPOSEDCHANGES9502130202 950203PDRADQCK050003i5PPDR CI
EXISTING TECHNICAL SPECIFICATION PAGES MARKED TO REFLECT PROPOSED CHANGES 9502130202 950203 PDR ADQCK 050003i5 P PDR C I
~iEACTORCOOLANTSYSTEMSURVEILLANCE REQUIRE."KNTS 2.Tubesinthoseareaswhereexperience hasindicated potential problems'.
~i EACTOR COOLANT SYSTEM SURVEILLANCE REQUIRE."KNTS 2.Tubes in those areas where experience has indicated potential problems'.
Atubeinspection (pursuant toSpecification 4.4.5.4.a.8) shallbeperformed oneachselectedtube.Ifanyselectedtubedoesnotpermitthepassageoftheeddycurrentprobeforatubeinspection, thisshallberecordedandanadjacenttubeshallbeselectedandsubjected toatubeinspection.
A tube inspection (pursuant to Specification 4.4.5.4.a.8) shall be performed on each selected tube.If any selected tube does not permit the passage of the eddy current probe for a tube inspection, this shall be recorded and an adjacent tube shall be selected and subjected to a tube inspection.
c~Inadditiontothesamplerequiredin4.4.5.2.b.l through3,alltubeswhichhavehadtheWcriteriaappliedwillbeinspected intherollexpandedregion.Therollexpandedregionofthesetubesmaybeexcludedfromtherequirements of4.4.5.2.b.l.
c~In addition to the sample required in 4.4.5.2.b.l through 3, all tubes which have had the W criteria applied will be inspected in the roll expanded region.The roll expanded region of these tubes may be excluded from the requirements of 4.4.5.2.b.l.
d."Thetubesselectedasthesecondandthirdsamples(ifrequiredbyTable4.4-2)duringeachinse'rvice inspection maybesubjected toapartialtubeinspection provided:
d." The tubes selected as the second and third samples (if required by Table 4.4-2)during each inse'rvice inspection may be subjected to a partial tube inspection provided: The tubes selected for the samples include the tubes from those areas of the tube sheet array where tubes with imperfections were previously found..2.The inspections include those portions of the tubes where imperfections were previously found./5 e.Implementation of the steam generator tube/tube s pport plate interim plugging criteria for one fuel cycle (Cycle 4 requires a 100X bobbin coil inspection for hot leg tube support plate intersections and cold leg intersections down to the lowest cold leg tube support plate with known outer diameter stress corrosion cracking (ODSCC)indications.
Thetubesselectedforthesamplesincludethetubesfromthoseareasofthetubesheetarraywheretubeswithimperfections werepreviously found..2.Theinspections includethoseportionsofthetubeswhereimperfections werepreviously found./5e.Implementation ofthesteamgenerator tube/tube spportplateinterimpluggingcriteriaforonefuelcycle(Cycle4requiresa100Xbobbincoilinspection forhotlegtubesupportplateintersections andcoldlegintersections downtothelowestcoldlegtubesupportplatewithknownouterdiameterstresscorrosion cracking(ODSCC)indications.
The results of each sample inspection shall be classified into one of the following three categories:
Theresultsofeachsampleinspection shallbeclassified intooneofthefollowing threecategories:
Ins ection Results C-1 Less than 5X of the total tubes inspected are degraded tubes and none of the inspected tubes are defective.
InsectionResultsC-1Lessthan5Xofthetotaltubesinspected aredegradedtubesandnoneoftheinspected tubesaredefective.
C-2 One or more tubes, but not more than 1X of the total tubes inspected are defective, or between 5X and lOX of the total tubes inspected are degraded tubes.C-3 More than 10X of the total tubes inspected are degraded tubes or more than 1X of the inspected tubes are defective.
C-2Oneormoretubes,butnotmorethan1Xofthetotaltubesinspected aredefective, orbetween5XandlOXofthetotaltubesinspected aredegradedtubes.C-3Morethan10Xofthetotaltubesinspected aredegradedtubesormorethan1Xoftheinspected tubesaredefective.
COOK NUCLEAR PLANT-UNIT 1 3/4 4-8 AMENDMENT NO.~,~,~, 178 REACTOR COOPT SYS E'HS SURVE'ZLLANC RE UTR:-.M:-NTS Cont'ued b The steam generator shall be determined OPERABLE after completing the corresponding actions (plugging or sleeving all tubes exceeding the repair limit and all tubes containing through-wall cracks)required by Table 4.4-2.Ce Steam gene ator tube repairs may be made in accordance with the methods described in either WCAP-12623 or CEN-313-P.
COOKNUCLEARPLANT-UNIT13/44-8AMENDMENT NO.~,~,~,178 REACTORCOOPTSYSE'HSSURVE'ZLLANC REUTR:-.M:-NTS Cont'uedbThesteamgenerator shallbedetermined OPERABLEaftercompleting thecorresponding actions(plugging orsleevingalltubesexceeding therepairlimitandalltubescontaining through-wall cracks)requiredbyTable4.4-2.CeSteamgeneatortuberepairsmaybemadeinaccordance withthemethodsdescribed ineitherWCAP-12623 orCEN-313-P.
4.4.5.5 e orts ac b.Following each inservice inspection of steam generator tubes, if there are any tubes requiring plugging or sleeving, the number of tubes plugged or sleeved in each steam generator shall be reported to the Commission within 15 days.The complete results of the steam gene ator tube inservice inspection shall be included in the Annual Operating Report for the period in which this inspection was completed.
4.4.5.5eortsacb.Following eachinservice inspection ofsteamgenerator tubes,ifthereareanytubesrequiring pluggingorsleeving, thenumberoftubespluggedorsleevedineachsteamgenerator shallbereportedtotheCommission within15days.Thecompleteresultsofthesteamgeneatortubeinservice inspection shallbeincludedintheAnnualOperating Reportfortheperiodinwhichthisinspection wascompleted.
This report shall include: 1.Number and extent of tubes inspected.
Thisreportshallinclude:1.Numberandextentoftubesinspected.
2~Location and percent of wall-thickness penetration for each.indication of an imperfection.
2~Locationandpercentofwall-thickness penetration foreach.indication ofanimperfection.
C~de 3.Identification of tubes plugged or sleeved.Results of steam generator tube inspections which fall into Category C-3 and equire prompt notification of the Commission shall be reported pursuant to Specification 6.9.1 prior to resumption of plant ope ation.The written followup of this report shall provide a descript'on of investigations conducted to determine cause of the tube degradation and corrective measures taken to prevent recurrence.
C~de3.Identification oftubespluggedorsleeved.Resultsofsteamgenerator tubeinspections whichfallintoCategoryC-3andequirepromptnotification oftheCommission shallbereportedpursuanttoSpecification 6.9.1priortoresumption ofplantopeation.Thewrittenfollowupofthisreportshallprovideadescript'on ofinvestigations conducted todetermine causeofthetubedegradation andcorrective measurestakentopreventrecurrence.
The results of inspections performed under 4.4.5.2 for all tubes in which the tube support plate interim plugging criteria has been applied or that have defects below the F+distance and were not plugged shall be reported to the Commission within 15 days following the inspection.
Theresultsofinspections performed under4.4.5.2foralltubesinwhichthetubesupportplateinterimpluggingcriteriahasbeenappliedorthathavedefectsbelowtheF+distanceandwerenotpluggedshallbereportedtotheCommission within15daysfollowing theinspection.
The report shall include: Listing of applicable tubes.2~Location (applicable intersections per tube)and extent of degradation (voltage).
Thereportshallinclude:Listingofapplicable tubes.2~Location(applicable intersections pertube)andextentofdegradation (voltage).
e.The results of steam line break leakage analysis performed under T/S 4.4.5.4.a.lO will be reported to the Commission prior to restart for Cycle~.l~COOK NUCLEAR PLANT-UNIT 1 3/4 4-12 KKNDHENT NO.+S&g 466p+ii p 178
e.Theresultsofsteamlinebreakleakageanalysisperformed underT/S4.4.5.4.a.lO willbereportedtotheCommission priortorestartforCycle~.l~COOKNUCLEARPLANT-UNIT13/44-12KKNDHENTNO.+S&g466p+iip178
~~~~~REACTOR COOLANT SYSTEM O>ERATIONAL LEAKAGE IMITING CONDITION FOR OPERATION 3.4 6.2 Reactor Coolant System leakage shall be limited to: a.'o PRESSURE BOUNDARY LEAKAGEt b.1 GPM UNZDENTZFZED LEAKAGEt Co e.600 gallons per day total primary-to-secondary..leakage,.through all steam generators and 150 allons per day through any one steam generator for Fuel Cycle 4 I 10 GPM IDENTIFIED LEAKAGE from the Reactor Coolant System, Seal line resistance greater than or equal to 2.27E-1 ft/gpm~and, 1 GPM leakage from any reactor coolant system pressure isolation valve specified in Table 3.4-0.APPLICABILITY MODES lg 2, 3 and 4.<<<<~CTION: a.b.Co With any PRESSURE BOUNDARY LEAKAGE, be in at least HOT STANDBY within 6 hours and in'COLD SHUTDOWN within the following 30 hours.With any Reactor Coolant System leakage greater than any one of the above limits, excluding PRESSURE BOUNDARY LEAKAGE, reduce the leakage rate to within limits within 4 hours or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.With any reactor coolant system pressure isolation valve(s)leakage greater than the above limit, except when: The leakage is less than or equal to 5.0 gpm, and 2~The most recent measured leakage does not exceed the previous measured leakage<<by an amount that reduces the To satisfy ALARA requirements, measured leakage may be measured indirectly (as from the performance of pressure indicators) if accomplished in accordance with approved procedures and supported by computations showing that the method is capable o f demonstrating valve compliance with the leakage criteria.Specification 3.4.6.2.e is applicable with average pressure within 20 psi of the nominal full pressure value.COOK NUCLEAR PLANT UNIT 1 3/4 4-16 AMENDYZNT NO.46&,+66,].78 Order dated April 20, 1981  
~~~~~REACTORCOOLANTSYSTEMO>ERATIONAL LEAKAGEIMITINGCONDITION FOROPERATION 3.46.2ReactorCoolantSystemleakageshallbelimitedto:a.'oPRESSUREBOUNDARYLEAKAGEtb.1GPMUNZDENTZFZED LEAKAGEtCoe.600gallonsperdaytotalprimary-to-secondary..leakage,.through allsteamgenerators and150allonsperdaythroughanyonesteamgenerator forFuelCycle4I10GPMIDENTIFIED LEAKAGEfromtheReactorCoolantSystem,Seallineresistance greaterthanorequalto2.27E-1ft/gpm~and,1GPMleakagefromanyreactorcoolantsystempressureisolation valvespecified inTable3.4-0.APPLICABILITY MODESlg2,3and4.<<<<~CTION:a.b.CoWithanyPRESSUREBOUNDARYLEAKAGE,beinatleastHOTSTANDBYwithin6hoursandin'COLDSHUTDOWNwithinthefollowing 30hours.WithanyReactorCoolantSystemleakagegreaterthananyoneoftheabovelimits,excluding PRESSUREBOUNDARYLEAKAGE,reducetheleakageratetowithinlimitswithin4hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.Withanyreactorcoolantsystempressureisolation valve(s)leakagegreaterthantheabovelimit,exceptwhen:Theleakageislessthanorequalto5.0gpm,and2~Themostrecentmeasuredleakagedoesnotexceedthepreviousmeasuredleakage<<byanamountthatreducestheTosatisfyALARArequirements, measuredleakagemaybemeasuredindirectly (asfromtheperformance ofpressureindicators) ifaccomplished inaccordance withapprovedprocedures andsupported bycomputations showingthatthemethodiscapableofdemonstrating valvecompliance withtheleakagecriteria.
~~~J V REACTOR COO~T SYS BASES 3 4.4.5 S EAM GENERATORS TUBE INTEGRITY The Surveillance Requirements for inspection of the steam generator tubes ensure that the structural integrity of this portion of the RCS will'be maintained.
Specification 3.4.6.2.e isapplicable withaveragepressurewithin20psiofthenominalfullpressurevalue.COOKNUCLEARPLANTUNIT13/44-16AMENDYZNT NO.46&,+66,].78OrderdatedApril20,1981  
The program for inservice inspection af steam generator tubes i.s based on a modification of Regulatory Guide 1-83, Revision 1.Znservice inspection of steam generator tubing is essential in order to maintain surveillance of the conditions cif the tubes in the event that there is evidence of mechanical damage or progressive degradation due to design, manufacturing errors, or inservice conditions that lead to corrosion.
~~~JVREACTORCOO~TSYSBASES34.4.5SEAMGENERATORS TUBEINTEGRITY TheSurveillance Requirements forinspection ofthesteamgenerator tubesensurethatthestructural integrity ofthisportionoftheRCSwill'bemaintained.
Znservice inspection of steam generator tubing also provides a means of characterizing the nature and cause of any tube degradation so that corrective measures can be taken.The plant is expected to be operated i.n a manner such that the second-ary coolant will be maintained within those chemistry limits found to r negligible corrosion of the steam genezator tubes.Zf the s ry coolant chemistry i.s not maintained within these parameter limit calized corrosion may likely result in stress corrosion cracking.The ent of cracking duri.ng plant operation would be limited by the limi.on of steam generator tube leakage between the primary coolant system e secondary coolant system.The allowabe primary-to-secondary leak t s 150 gallons per day per steam generator for one fuel cycle (Cycle.Axial or circumferent'ally oriented c acks having a primary-.to-secondary leakage less than this limit during operation will have an adequate margin of safety to.'withstand the loads imposed during normal operation and by postulated accidents.
Theprogramforinservice inspection afsteamgenerator tubesi.sbasedonamodification ofRegulatory Guide1-83,Revision1.Znservice inspection ofsteamgenerator tubingisessential inordertomaintainsurveillance oftheconditions cifthetubesintheeventthatthereisevidenceofmechanical damageorprogressive degradation duetodesign,manufacturing errors,orinservice conditions thatleadtocorrosion.
Leakage in excess of this limit will require plant shutdown and an inspection, during which the leaking tubes will be located and plugged or repaired.A steam gene ator while undergoing crevice flushing in Made 4 is available for decay heat removal and is operable/operating upon reinstatement of auxiliary or main feed flow control and s earn control.Wastage-type defects are unlikely with the all volatile treatment (AVT)of seconda y coolant.However, even if a defect of similar type should develop in service, it will be found during scheduled inservice steam generator tube examinations.
Znservice inspection ofsteamgenerator tubingalsoprovidesameansofcharacterizing thenatureandcauseofanytubedegradation sothatcorrective measurescanbetaken.Theplantisexpectedtobeoperatedi.namannersuchthatthesecond-arycoolantwillbemaintained withinthosechemistry limitsfoundtornegligible corrosion ofthesteamgenezator tubes.Zfthesrycoolantchemistry i.snotmaintained withintheseparameter limitcalizedcorrosion maylikelyresultinstresscorrosion cracking.
Plugging or sleeving will be required for all tubes with imperfec ions exceeding.the repair limit which is defined in Specification 4.4.5.4.a.
Theentofcrackingduri.ngplantoperation wouldbelimitedbythelimi.onofsteamgenerator tubeleakagebetweentheprimarycoolantsystemesecondary coolantsystem.Theallowabeprimary-to-secondary leakts150gallonsperdaypersteamgenerator foronefuelcycle(Cycle.Axialorcircumferent'ally orientedcackshavingaprimary-.to-secondary leakagelessthanthislimitduringoperation willhaveanadequatemarginofsafetyto.'withstand theloadsimposedduringnormaloperation andbypostulated accidents.
Steam generator tube inspections of operating plants have demonstrated the capability to reliably detect degradation that has penetrated 20%of the original tube wall thi.ckness.
Leakageinexcessofthislimitwillrequireplantshutdownandaninspection, duringwhichtheleakingtubeswillbelocatedandpluggedorrepaired.
Tubes experiencing outer diameter stress corrosion cracking withi.n the thickness of the tube support plates are plugged or repaired by the criteria of 4.4.5.4.a.10.COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-2a AYENDMENT NO.403,@Sees k66 s 178
Asteamgeneatorwhileundergoing creviceflushinginMade4isavailable fordecayheatremovalandisoperable/operating uponreinstatement ofauxiliary ormainfeedflowcontrolandsearncontrol.Wastage-type defectsareunlikelywiththeallvolatiletreatment (AVT)ofsecondaycoolant.However,evenifadefectofsimilartypeshoulddevelopinservice,itwillbefoundduringscheduled inservice steamgenerator tubeexaminations.
~~~~~,~I e REACTOR COOLANT SYSTEM BASES Maintaining an operati leakage limit, of 150 gpd per steam generator (600 gpd total)for Fuel cycle 4 will minimize the potential for a large leakage event, during steam line zeak under LocA conditions.
Pluggingorsleevingwillberequiredforalltubeswithimperfecionsexceeding
Based on the NDE uncertainties, bobbin coil voltage distribution and crack growth rate from the previous i.nspection, the expected leak rate following a steam line rupture is limited to below 12.6 gpm which wi.ll limit the calculated offsite doses to within 10 percent of 10 CFR 100 guidelines.
.therepairlimitwhichisdefinedinSpecification 4.4.5.4.a.
Leakage in the intact loops is limited to 150 gpd.Zf the projected end of cycle distribution of crack indications esults in primary-to-secondary leakage greater than 12.6 gpm in the faulted loop during a postulated steam line break event, additional tubes must be removed from service in order to reduce the postulated primary-to-secondazy steam line break leakage to below 12.6 gpm.PRESSURE BOUNDARY LEAKAGE of any magnitude i.s unacceptable since it may be indicative of an impending gross failure of the pressure boundary.Should PRESSURE BOUNDARY LEAKAGE occur through a component which can be isolated from the balance of the Reactor Coolant System, plant operation may continue provided the leaking component is promptly isolated from the Reactor Coolant System since isolation removes the source of potential failure.The Surveillance Requirements for RCS pzessure Isolation Valves provide added assurance of valve integrity thereby reducing the probability of gross valve failure and consequent intersystem LOCA.Leakage from the RCS Pressure Isolation Valves is IDENTIFZED LEAKAGE and will be considered as a portion of the allowed lim'it.3 4.4.7 CH=MZSTRY The limitations on Reactor Coolant System chemi.stry ensure that corzosion of the Reactor Coolant System is minimized and reduces the potent'al for Reactor Coolant System leakage or failure due to stress corrosion.
Steamgenerator tubeinspections ofoperating plantshavedemonstrated thecapability toreliablydetectdegradation thathaspenetrated 20%oftheoriginaltubewallthi.ckness.
Maintaining the chemistry within the Steady State Limits provides adequate corrosion protection to ensure the structural integrity of the Reactor coolant System over the li.fe of the plant.The associated effects of exceedi.ng the oxygen, chlor:de, and fluoride limits are time and temperature dependent.
Tubesexperiencing outerdiameterstresscorrosion crackingwithi.nthethickness ofthetubesupportplatesarepluggedorrepairedbythecriteriaof4.4.5.4.a.10.COOKNUCLEARPLANT-UNIT1B3/44-2aAYENDMENT NO.403,@Seesk66s178
Corrosion studies show that operation may be continued with contaminant concentration levels in excess of the Steady State Limits, up to the Transient Limits, for the specified limited time in"ervals without having a si.gnificant, effect.on the stzuctural integrity of the Reactor Coolant System.The time interval permitting continued operation within the restrictions of the Transient Limits provides time for taking corrective actions to restore the contaminant concentrations to within the Steady State Limits.COOK NUCLEAR PLANT UNIT 1 B 3/4 4-4 AHENDHENT NO 88g%44q 178
~~~~~,~Ie REACTORCOOLANTSYSTEMBASESMaintaining anoperatileakagelimit,of150gpdpersteamgenerator (600gpdtotal)forFuelcycle4willminimizethepotential foralargeleakageevent,duringsteamlinezeakunderLocAconditions.
~i'~~J~ATTACHMENT 3 TO AEP:NRC:1166$
BasedontheNDEuncertainties, bobbincoilvoltagedistribution andcrackgrowthratefromthepreviousi.nspection, theexpectedleakratefollowing asteamlineruptureislimitedtobelow12.6gpmwhichwi.lllimitthecalculated offsitedosestowithin10percentof10CFR100guidelines.
PROPOSED REVISED TECHNICAL SPECIFICATION PAGES r~~r EACTOR COOLANT SYST SURVEILLANCE RE UIREMENTS Cont nued 2.3.Tubes in those areas where experience has indicated poCential problems.A tube inspection (pursuant Co Specif ication 4.4.5.4.a.
Leakageintheintactloopsislimitedto150gpd.Zftheprojected endofcycledistribution ofcrackindications esultsinprimary-to-secondary leakagegreaterthan12.6gpminthefaultedloopduringapostulated steamlinebreakevent,additional tubesmustberemovedfromserviceinordertoreducethepostulated primary-to-secondazy steamlinebreakleakagetobelow12.6gpm.PRESSUREBOUNDARYLEAKAGEofanymagnitude i.sunacceptable sinceitmaybeindicative ofanimpending grossfailureofthepressureboundary.
8)shall be performed on each selected tube.If any selected tube does not permit the passage of the eddy current probe for a tube inspection, this shall be recorded and an adjacent tube shall be selected and subjected to a tube inspection.
ShouldPRESSUREBOUNDARYLEAKAGEoccurthroughacomponent whichcanbeisolatedfromthebalanceoftheReactorCoolantSystem,plantoperation maycontinueprovidedtheleakingcomponent ispromptlyisolatedfromtheReactorCoolantSystemsinceisolation removesthesourceofpotential failure.TheSurveillance Requirements forRCSpzessureIsolation Valvesprovideaddedassurance ofvalveintegrity therebyreducingtheprobability ofgrossvalvefailureandconsequent intersystem LOCA.LeakagefromtheRCSPressureIsolation ValvesisIDENTIFZED LEAKAGEandwillbeconsidered asaportionoftheallowedlim'it.34.4.7CH=MZSTRY Thelimitations onReactorCoolantSystemchemi.stry ensurethatcorzosion oftheReactorCoolantSystemisminimized andreducesthepotent'al forReactorCoolantSystemleakageorfailureduetostresscorrosion.
c~In addition to the sample required in 4.4.5.2.b.l through 3, all tubes which have had the W criteria applied will be inspected in the roll expanded region.The roll expanded region of these tubes may be excluded from the requirements of 4.4.5.2.b.l.
Maintaining thechemistry withintheSteadyStateLimitsprovidesadequatecorrosion protection toensurethestructural integrity oftheReactorcoolantSystemovertheli.feoftheplant.Theassociated effectsofexceedi.ng theoxygen,chlor:de, andfluoridelimitsaretimeandtemperature dependent.
d.The tubes selected as the second and third samples (if required by Table 4.4-2)during each inservice inspection may be subjected to a partial tube inspection provided: The tubes selected for the samples include the tubes from those areas of the tube sheet array where tubes with imperfections were previously found.2.The inspections include those portions of the tubes where imperfections were previously found.e.Implementation of the steam generator tube/tube support plate interim plugging criteria for one fue1 cycle (Cycle 15)requires a 100%bobbin coil inspection for hot leg Cube support plate intersections and cold leg intersections down to the lowest cold leg tube support plate with known outer diameter stress corrosion cracking (ODSCC)indications.
Corrosion studiesshowthatoperation maybecontinued withcontaminant concentration levelsinexcessoftheSteadyStateLimits,uptotheTransient Limits,forthespecified limitedtimein"ervals withouthavingasi.gnificant, effect.onthestzuctural integrity oftheReactorCoolantSystem.Thetimeintervalpermitting continued operation withintherestrictions oftheTransient Limitsprovidestimefortakingcorrective actionstorestorethecontaminant concentrations towithintheSteadyStateLimits.COOKNUCLEARPLANTUNIT1B3/44-4AHENDHENT NO88g%44q178
~The results of each sample inspection shall be classified into one of the following three categories:
~i'~~J~ATTACHMENT 3TOAEP:NRC:1166$
Cate~ox~C-l C-2 C-3 Ins ect on Results Less than 5%of the total tubes inspected are degraded tubes and none of the inspected tubes are defective.
PROPOSEDREVISEDTECHNICAL SPECIFICATION PAGES r~~r EACTORCOOLANTSYSTSURVEILLANCE REUIREMENTS Contnued2.3.Tubesinthoseareaswhereexperience hasindicated poCential problems.
One or more tubes, but not more than 1%of the total tubes inspected are defective, or between 5S and 10$of the total tubes inspected are degraded tubes.More than 10%of the total tubes inspected are degraded tubes or more than 1$of the inspected tubes are defective.
Atubeinspection (pursuant CoSpecification4.4.5.4.a.
COOK NUCLEAR PLANT-UNIT 1 3/4 4-8 AMENDMENT NO.'OS, 454, 446, 477-,
8)shallbeperformed oneachselectedtube.Ifanyselectedtubedoesnotpermitthepassageoftheeddycurrentprobeforatubeinspection, thisshallberecordedandanadjacenttubeshallbeselectedandsubjected toatubeinspection.
EACTOR COOLANT SYSTEMS SURVEILLANCE RE UIREMENTS Continued b.c~The steam generator shall be determined OPERABLE after completing the corresponding actions (plugging or sleeving all tubes exceeding the repair limit and all tubes containing through-wall cracks)required by Table 4.4-2.Steam generator tube repairs may be made in accordance with the methods described in either WCAP-12623 or CEN-313-P.
c~Inadditiontothesamplerequiredin4.4.5.2.b.l through3,alltubeswhichhavehadtheWcriteriaappliedwillbeinspected intherollexpandedregion.Therollexpandedregionofthesetubesmaybeexcludedfromtherequirements of4.4.5.2.b.l.
4.4.5.5 R~e orts a.b.Following each inservice inspection of steam generator tubes, if there are any tubes requiring plugging or sleeving, the number of tubes plugged or sleeved in each steam generator shall be reported to the Commission within 15 days.The complete results of the steam generator tube inservice inspection shall be included in the Annual Operating Report for the period in which this inspection was completed.
d.Thetubesselectedasthesecondandthirdsamples(ifrequiredbyTable4.4-2)duringeachinservice inspection maybesubjected toapartialtubeinspection provided:
This report shall include: l.Number and extent of tubes inspected.
Thetubesselectedforthesamplesincludethetubesfromthoseareasofthetubesheetarraywheretubeswithimperfections werepreviously found.2.Theinspections includethoseportionsofthetubeswhereimperfections werepreviously found.e.Implementation ofthesteamgenerator tube/tube supportplateinterimpluggingcriteriaforonefue1cycle(Cycle15)requiresa100%bobbincoilinspection forhotlegCubesupportplateintersections andcoldlegintersections downtothelowestcoldlegtubesupportplatewithknownouterdiameterstresscorrosion cracking(ODSCC)indications.
2.Location and percent of wall-thickness penetration for each indication of an imperfection.
~Theresultsofeachsampleinspection shallbeclassified intooneofthefollowing threecategories:
C.d.e.3.Identification of tubes plugged or sleeved.Results of steam generator tube inspections which fall into Category C-3 and require prompt notification of the Commission shall be reported pursuant to Specification 6.9.1 prior to resumption of plant operation.
Cate~ox~C-lC-2C-3InsectonResultsLessthan5%ofthetotaltubesinspected aredegradedtubesandnoneoftheinspected tubesaredefective.
The written followup of this report shall provide a description of investigations conducted to determine cause of the tube degradation and corrective measures taken to prevent recurrence.
Oneormoretubes,butnotmorethan1%ofthetotaltubesinspected aredefective, orbetween5Sand10$ofthetotaltubesinspected aredegradedtubes.Morethan10%ofthetotaltubesinspected aredegradedtubesormorethan1$oftheinspected tubesaredefective.
The results of inspections performed under 4.4.5.2 for all tubes in which the tube support plate interim plugging criteria has been applied shall be reported to the Commission within 15 days following the inspection.
COOKNUCLEARPLANT-UNIT13/44-8AMENDMENT NO.'OS,454,446,477-,
The report shall include'.1.Listing of applicable tubes.2.Location (applicable intersections per tube)and extent of degradation (voltage).
EACTORCOOLANTSYSTEMSSURVEILLANCE REUIREMENTS Continued b.c~Thesteamgenerator shallbedetermined OPERABLEaftercompleting thecorresponding actions(plugging orsleevingalltubesexceeding therepairlimitandalltubescontaining through-wall cracks)requiredbyTable4.4-2.Steamgenerator tuberepairsmaybemadeinaccordance withthemethodsdescribed ineitherWCAP-12623 orCEN-313-P.
The results of steam line break leakage analysis performed under T/S 4.4.5.4.a.l0 will be reported to the Commission prior to restart for Cycle 15.COOK NUCLEAR PLANT-UNIT 1 3/4 4-12 AMENDMENT NO.403, 446, 477, r~p 0 4~&4.
4.4.5.5R~eortsa.b.Following eachinservice inspection ofsteamgenerator tubes,ifthereareanytubesrequiring pluggingorsleeving, thenumberoftubespluggedorsleevedineachsteamgenerator shallbereportedtotheCommission within15days.Thecompleteresultsofthesteamgenerator tubeinservice inspection shallbeincludedintheAnnualOperating Reportfortheperiodinwhichthisinspection wascompleted.
CTOR C 0 SYS OPERATIONAL LEAKAGE IM TING CONDITION OR OPERATION 3.4.6.2 Reactor Coolant System leakage shall be limited to: a.b.c~d.e.No PRESSURE BOUNDARY LEAKAGE, 1 GPM UNIDENTIFIED LEDGE, 600 gallons per day total primary-to-secondary leakage through all steam generators and 150 gallons per day through any one steam.generator for Fuel Cycle 15, 10 GPM IDENTIFIED LEAKAGE from the Reactor Coolant System, Seal line resistance greater than or equal to 2.27E-1 ft/gpm~and, 1 GPM leakage from any reactor coolant system pressure isolation valve specified in Table 3.4-0.~ACTI 0 a.b.C.With any PRESSURE BOUNDARY LEAKAGE, be in at least HOT STANDBY within 6 hours and in COLD SHUTDOWN within the following 30 hours.With any Reactor Coolant System leakage greater than any one of the above limits, excluding PRESSURE BOUNDARY LEAKAGE, reduce the leakage rate to within, limits within 4 hours or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.With any reactor coolant syst: em pressure isolation valve(s)leakage greater than the above limit, except when: 1.,The leakage is less than or equal to 5.0 gpm, and 2.The most recent measured leakage does not exceed the previous measured leakage*by an amount that reduces the To satisfy ALARA requirements, measured leakage may be measured indirectly (as from the performance of pressure indicators) if accomplished in accordance with approved procedures and supported by computations showing that the method is capable of demonstrating valve compliance wi.th the leakage criteria.Specification 3.4.6.2.e is applicable with average pressure wi.thin 20 psi of the nominal full pressure value.COOK NUCLEAR PLANT-UNIT 1 3/4 4-16 AMENDMENT NO.462, 466,~Order dated Apri.l 20, 1981 I~~r (t V" tt~I'P,l EAC OR COO SYST BASES 3 4 4 5 STEAM GENERATORS TUBE INTEGRITY The Surveillance Requirements for inspection of the steam generator.
Thisreportshallinclude:l.Numberandextentoftubesinspected.
tubes ensure that the structural integrity of this portion of the RCS will be maintained.
2.Locationandpercentofwall-thickness penetration foreachindication ofanimperfection.
The program for inservice inspection of steam generator tubes is based on a modification of Regulatory Guide 1.83, Revision 1.Inservice inspection of steam generator tubing is essential in order to maintain surveillance of the conditions of the tubes in the event that there is evidence of mechanical damage or progressive degradation due to design, manufacturing errors, or inservice conditions that lead to corrosion.
C.d.e.3.Identification oftubespluggedorsleeved.Resultsofsteamgenerator tubeinspections whichfallintoCategoryC-3andrequirepromptnotification oftheCommission shallbereportedpursuanttoSpecification 6.9.1priortoresumption ofplantoperation.
Inservice inspection oR steam generator tubing also provides a means of characterizing the nature and cause of any tube degradation so that corrective measures can be taken.The plant is expected to be operated in a manner such that the second-ary coolant will be maintained within those chemistry limits found to result in negligible corrosion of the steam generator tubes.If the secondary coolant chemistry is not maintained within these parameter limits, localized corrosion may likely result in stress corrosion cracking.The extent of cracking during plant operation would be limited by the limitation of steam generator tube leakage between the primary coolant system and the secondary coolant system.The allowabe primary-to-secondary leak rate is 150 gallons per day per steam generator for one fuel cycle (Cycle 15).Axial or circumferentia'ily oriented cracks having a primary>>to-secondary leakage less than this limit during operation will have an adequate margin of safety to withstand the loads imposed during normal operation and by postulated accidents.
Thewrittenfollowupofthisreportshallprovideadescription ofinvestigations conducted todetermine causeofthetubedegradation andcorrective measurestakentopreventrecurrence.
'eakage in excess of this limit will require plant shutdown and an inspection, during which the leaking tubes will be located and plugged or repaired.A steam generator while undergoing crevice flushing in Mode 4 is available for decay heat removal and is operable/operating upon reinstatement of auxiliary or main feed flow control and steam control.Wastage-type defects are unlikely with the all volatile treatment (AVT)of secondary coolant.However, even if a defect of similar type should develop in service, it will be found during scheduled inservice steam generator tube examinations.
Theresultsofinspections performed under4.4.5.2foralltubesinwhichthetubesupportplateinterimpluggingcriteriahasbeenappliedshallbereportedtotheCommission within15daysfollowing theinspection.
Plugging or sleeving will be required for a'll tubes with imperfections exceeding the repair limit which is defined in Specification 4.0.5.4.a.
Thereportshallinclude'.
Steam generator tube inspections of operating plants have demonstrated the capability to reliably detect degradation that has penetrated 20%of the original tube wall thickness.
1.Listingofapplicable tubes.2.Location(applicable intersections pertube)andextentofdegradation (voltage).
Tubes experiencing outer diameter stress corrosion cracking within the thickness of the tube support plates are plugged or repaired by the criteria of 4.4.5.4.a.lO.
Theresultsofsteamlinebreakleakageanalysisperformed underT/S4.4.5.4.a.l0 willbereportedtotheCommission priortorestartforCycle15.COOKNUCLEARPLANT-UNIT13/44-12AMENDMENT NO.403,446,477, r~p04~&4.
COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-2a AMENDMENT NO.403, 454, 446,~
CTORC0SYSOPERATIONAL LEAKAGEIMTINGCONDITION OROPERATION 3.4.6.2ReactorCoolantSystemleakageshallbelimitedto:a.b.c~d.e.NoPRESSUREBOUNDARYLEAKAGE,1GPMUNIDENTIFIED LEDGE,600gallonsperdaytotalprimary-to-secondary leakagethroughallsteamgenerators and150gallonsperdaythroughanyonesteam.generator forFuelCycle15,10GPMIDENTIFIED LEAKAGEfromtheReactorCoolantSystem,Seallineresistance greaterthanorequalto2.27E-1ft/gpm~and,1GPMleakagefromanyreactorcoolantsystempressureisolation valvespecified inTable3.4-0.~ACTI0a.b.C.WithanyPRESSUREBOUNDARYLEAKAGE,beinatleastHOTSTANDBYwithin6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.WithanyReactorCoolantSystemleakagegreaterthananyoneoftheabovelimits,excluding PRESSUREBOUNDARYLEAKAGE,reducetheleakageratetowithin,limitswithin4hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.Withanyreactorcoolantsyst:empressureisolation valve(s)leakagegreaterthantheabovelimit,exceptwhen:1.,Theleakageislessthanorequalto5.0gpm,and2.Themostrecentmeasuredleakagedoesnotexceedthepreviousmeasuredleakage*byanamountthatreducestheTosatisfyALARArequirements, measuredleakagemaybemeasuredindirectly (asfromtheperformance ofpressureindicators) ifaccomplished inaccordance withapprovedprocedures andsupported bycomputations showingthatthemethodiscapableofdemonstrating valvecompliance wi.ththeleakagecriteria.
p(lg o i,I 4~~sy m REACTOR COOLANT SYSTEM BASES Maintaining an operating leakage limit of 150 gpd per steam generator (600 gpd total)for Fuel Cycle 15 will minimize the potential for a large leakage event during steam line break under LOCA conditions.
Specification 3.4.6.2.e isapplicable withaveragepressurewi.thin20psiofthenominalfullpressurevalue.COOKNUCLEARPLANT-UNIT13/44-16AMENDMENT NO.462,466,~OrderdatedApri.l20,1981 I~~r(tV"tt~I'P,l EACORCOOSYSTBASES3445STEAMGENERATORS TUBEINTEGRITY TheSurveillance Requirements forinspection ofthesteamgenerator.
Based on the NDE uncertainties, bobbin coil voltage distribution and crack growth rate from the previous inspection, the expected leak rate following a steam line rupture is limited to below 12.6 gpm which will limit the calculated offsite doses to within 10 percent of 10 CFR 100 guidelines.
tubesensurethatthestructural integrity ofthisportionoftheRCSwillbemaintained.
Leakage in the intact loops is limited to 150 gpd.If the projected end of cycle distribution of crack indications results in primary-to-secondary leakage greater than 12.6 gpm in the fault'ed loop during a postulated steam line break event, additional tubes must be removed from service in order to reduce the postulated primary-to-secondary steam line break leakage to below 12.6 gpm.PRESSURE BOUNDARY LEAKAGE of any magnitude is unacceptable since it may be indicative of an impending gross failure of the pressure boundary.Should PRESSURE BOUNDARY LEDGE occur through a component which can be isolated from the balance of the Reactor Coolant System, plant operation may continue provided the leaking component is promptly isolated from the Reactor Coolant System since isolation removes the source of potential failure.The Surveillance Requirements for RCS Pressure Isolation Valves provide added assurance of valve integrity thereby reducing the probability of gross valve'failure and consequent intersystem LOCA.Lealcage from the RCS Pressure Isolation Valves is IDENTIFIED LEAKAGE and will be considered as a portion of the allowed limit.3 4 4 7 CHEMISTRY The limitations on Reactor Coolant System chemistry ensure that corrosion of the Reactor Coolant System is minimized and reduces the potential for Reactor Coolant System leakage or failure due to stress corrosion.
Theprogramforinservice inspection ofsteamgenerator tubesisbasedonamodification ofRegulatory Guide1.83,Revision1.Inservice inspection ofsteamgenerator tubingisessential inordertomaintainsurveillance oftheconditions ofthetubesintheeventthatthereisevidenceofmechanical damageorprogressive degradation duetodesign,manufacturing errors,orinservice conditions thatleadtocorrosion.
Maintaining the chemistry within the Steady State Limits provides adequate corrosion protection to ensure the structural integrity of the Reactor Coolant System over the life of the plant.The associated effects of exceeding the oxygen, chloride, and fluoride limits are time and temperature dependent.
Inservice inspection oRsteamgenerator tubingalsoprovidesameansofcharacterizing thenatureandcauseofanytubedegradation sothatcorrective measurescanbetaken.Theplantisexpectedtobeoperatedinamannersuchthatthesecond-arycoolantwillbemaintained withinthosechemistry limitsfoundtoresultinnegligible corrosion ofthesteamgenerator tubes.Ifthesecondary coolantchemistry isnotmaintained withintheseparameter limits,localized corrosion maylikelyresultinstresscorrosion cracking.
Corrosion studies show that operation may be continued with contaminant concentration levels in excess of the Steady State Limits, up to the Transient Limits,'for the specified limited time intervals without having a significant effect on the structural integrity of the Reactor Coolant System.The time interval permitting continued operation within the restrictions of the Transient Limits provides time for taking corrective actions to restore the contaminant concentrations to within the Steady State Limits.COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-4 AMENDMENT NO.53, 444,~  
Theextentofcrackingduringplantoperation wouldbelimitedbythelimitation ofsteamgenerator tubeleakagebetweentheprimarycoolantsystemandthesecondary coolantsystem.Theallowabeprimary-to-secondary leakrateis150gallonsperdaypersteamgenerator foronefuelcycle(Cycle15).Axialorcircumferentia'ily orientedcrackshavingaprimary>>to-secondary leakagelessthanthislimitduringoperation willhaveanadequatemarginofsafetytowithstand theloadsimposedduringnormaloperation andbypostulated accidents.
~, r~~l l}}
'eakageinexcessofthislimitwillrequireplantshutdownandaninspection, duringwhichtheleakingtubeswillbelocatedandpluggedorrepaired.
Asteamgenerator whileundergoing creviceflushinginMode4isavailable fordecayheatremovalandisoperable/operating uponreinstatement ofauxiliary ormainfeedflowcontrolandsteamcontrol.Wastage-type defectsareunlikelywiththeallvolatiletreatment (AVT)ofsecondary coolant.However,evenifadefectofsimilartypeshoulddevelopinservice,itwillbefoundduringscheduled inservice steamgenerator tubeexaminations.
Pluggingorsleevingwillberequiredfora'lltubeswithimperfections exceeding therepairlimitwhichisdefinedinSpecification 4.0.5.4.a.
Steamgenerator tubeinspections ofoperating plantshavedemonstrated thecapability toreliablydetectdegradation thathaspenetrated 20%oftheoriginaltubewallthickness.
Tubesexperiencing outerdiameterstresscorrosion crackingwithinthethickness ofthetubesupportplatesarepluggedorrepairedbythecriteriaof4.4.5.4.a.lO.
COOKNUCLEARPLANT-UNIT1B3/44-2aAMENDMENT NO.403,454,446,~
p(lgoi,I4~~sym REACTORCOOLANTSYSTEMBASESMaintaining anoperating leakagelimitof150gpdpersteamgenerator (600gpdtotal)forFuelCycle15willminimizethepotential foralargeleakageeventduringsteamlinebreakunderLOCAconditions.
BasedontheNDEuncertainties, bobbincoilvoltagedistribution andcrackgrowthratefromthepreviousinspection, theexpectedleakratefollowing asteamlineruptureislimitedtobelow12.6gpmwhichwilllimitthecalculated offsitedosestowithin10percentof10CFR100guidelines.
Leakageintheintactloopsislimitedto150gpd.Iftheprojected endofcycledistribution ofcrackindications resultsinprimary-to-secondary leakagegreaterthan12.6gpminthefault'edloopduringapostulated steamlinebreakevent,additional tubesmustberemovedfromserviceinordertoreducethepostulated primary-to-secondary steamlinebreakleakagetobelow12.6gpm.PRESSUREBOUNDARYLEAKAGEofanymagnitude isunacceptable sinceitmaybeindicative ofanimpending grossfailureofthepressureboundary.
ShouldPRESSUREBOUNDARYLEDGEoccurthroughacomponent whichcanbeisolatedfromthebalanceoftheReactorCoolantSystem,plantoperation maycontinueprovidedtheleakingcomponent ispromptlyisolatedfromtheReactorCoolantSystemsinceisolation removesthesourceofpotential failure.TheSurveillance Requirements forRCSPressureIsolation Valvesprovideaddedassurance ofvalveintegrity therebyreducingtheprobability ofgrossvalve'failure andconsequent intersystem LOCA.LealcagefromtheRCSPressureIsolation ValvesisIDENTIFIED LEAKAGEandwillbeconsidered asaportionoftheallowedlimit.3447CHEMISTRY Thelimitations onReactorCoolantSystemchemistry ensurethatcorrosion oftheReactorCoolantSystemisminimized andreducesthepotential forReactorCoolantSystemleakageorfailureduetostresscorrosion.
Maintaining thechemistry withintheSteadyStateLimitsprovidesadequatecorrosion protection toensurethestructural integrity oftheReactorCoolantSystemoverthelifeoftheplant.Theassociated effectsofexceeding theoxygen,chloride, andfluoridelimitsaretimeandtemperature dependent.
Corrosion studiesshowthatoperation maybecontinued withcontaminant concentration levelsinexcessoftheSteadyStateLimits,uptotheTransient Limits,'for thespecified limitedtimeintervals withouthavingasignificant effectonthestructural integrity oftheReactorCoolantSystem.Thetimeintervalpermitting continued operation withintherestrictions oftheTransient Limitsprovidestimefortakingcorrective actionstorestorethecontaminant concentrations towithintheSteadyStateLimits.COOKNUCLEARPLANT-UNIT1B3/44-4AMENDMENT NO.53,444,~  
~,r~~ll}}

Revision as of 08:14, 6 July 2018

Proposed Tech Specs to Incorporate 2.0 Volt Interim Steam Generator Tube Support Plate Plugging Criterion for Fuel Cycle 15
ML17332A556
Person / Time
Site: Cook American Electric Power icon.png
Issue date: 02/03/1995
From:
INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:
Shared Package
ML17332A555 List:
References
NUDOCS 9502130202
Download: ML17332A556 (19)
v  d  e


Text

ATTAQiMENT 2 TO AEP'NRC:1166/

EXISTING TECHNICAL SPECIFICATION PAGES MARKED TO REFLECT PROPOSED CHANGES 9502130202 950203 PDR ADQCK 050003i5 P PDR C I

~i EACTOR COOLANT SYSTEM SURVEILLANCE REQUIRE."KNTS 2.Tubes in those areas where experience has indicated potential problems'.

A tube inspection (pursuant to Specification 4.4.5.4.a.8) shall be performed on each selected tube.If any selected tube does not permit the passage of the eddy current probe for a tube inspection, this shall be recorded and an adjacent tube shall be selected and subjected to a tube inspection.

c~In addition to the sample required in 4.4.5.2.b.l through 3, all tubes which have had the W criteria applied will be inspected in the roll expanded region.The roll expanded region of these tubes may be excluded from the requirements of 4.4.5.2.b.l.

d." The tubes selected as the second and third samples (if required by Table 4.4-2)during each inse'rvice inspection may be subjected to a partial tube inspection provided: The tubes selected for the samples include the tubes from those areas of the tube sheet array where tubes with imperfections were previously found..2.The inspections include those portions of the tubes where imperfections were previously found./5 e.Implementation of the steam generator tube/tube s pport plate interim plugging criteria for one fuel cycle (Cycle 4 requires a 100X bobbin coil inspection for hot leg tube support plate intersections and cold leg intersections down to the lowest cold leg tube support plate with known outer diameter stress corrosion cracking (ODSCC)indications.

The results of each sample inspection shall be classified into one of the following three categories:

Ins ection Results C-1 Less than 5X of the total tubes inspected are degraded tubes and none of the inspected tubes are defective.

C-2 One or more tubes, but not more than 1X of the total tubes inspected are defective, or between 5X and lOX of the total tubes inspected are degraded tubes.C-3 More than 10X of the total tubes inspected are degraded tubes or more than 1X of the inspected tubes are defective.

COOK NUCLEAR PLANT-UNIT 1 3/4 4-8 AMENDMENT NO.~,~,~, 178 REACTOR COOPT SYS E'HS SURVE'ZLLANC RE UTR:-.M:-NTS Cont'ued b The steam generator shall be determined OPERABLE after completing the corresponding actions (plugging or sleeving all tubes exceeding the repair limit and all tubes containing through-wall cracks)required by Table 4.4-2.Ce Steam gene ator tube repairs may be made in accordance with the methods described in either WCAP-12623 or CEN-313-P.

4.4.5.5 e orts ac b.Following each inservice inspection of steam generator tubes, if there are any tubes requiring plugging or sleeving, the number of tubes plugged or sleeved in each steam generator shall be reported to the Commission within 15 days.The complete results of the steam gene ator tube inservice inspection shall be included in the Annual Operating Report for the period in which this inspection was completed.

This report shall include: 1.Number and extent of tubes inspected.

2~Location and percent of wall-thickness penetration for each.indication of an imperfection.

C~de 3.Identification of tubes plugged or sleeved.Results of steam generator tube inspections which fall into Category C-3 and equire prompt notification of the Commission shall be reported pursuant to Specification 6.9.1 prior to resumption of plant ope ation.The written followup of this report shall provide a descript'on of investigations conducted to determine cause of the tube degradation and corrective measures taken to prevent recurrence.

The results of inspections performed under 4.4.5.2 for all tubes in which the tube support plate interim plugging criteria has been applied or that have defects below the F+distance and were not plugged shall be reported to the Commission within 15 days following the inspection.

The report shall include: Listing of applicable tubes.2~Location (applicable intersections per tube)and extent of degradation (voltage).

e.The results of steam line break leakage analysis performed under T/S 4.4.5.4.a.lO will be reported to the Commission prior to restart for Cycle~.l~COOK NUCLEAR PLANT-UNIT 1 3/4 4-12 KKNDHENT NO.+S&g 466p+ii p 178

~~~~~REACTOR COOLANT SYSTEM O>ERATIONAL LEAKAGE IMITING CONDITION FOR OPERATION 3.4 6.2 Reactor Coolant System leakage shall be limited to: a.'o PRESSURE BOUNDARY LEAKAGEt b.1 GPM UNZDENTZFZED LEAKAGEt Co e.600 gallons per day total primary-to-secondary..leakage,.through all steam generators and 150 allons per day through any one steam generator for Fuel Cycle 4 I 10 GPM IDENTIFIED LEAKAGE from the Reactor Coolant System, Seal line resistance greater than or equal to 2.27E-1 ft/gpm~and, 1 GPM leakage from any reactor coolant system pressure isolation valve specified in Table 3.4-0.APPLICABILITY MODES lg 2, 3 and 4.<<<<~CTION: a.b.Co With any PRESSURE BOUNDARY LEAKAGE, be in at least HOT STANDBY within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in'COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.With any Reactor Coolant System leakage greater than any one of the above limits, excluding PRESSURE BOUNDARY LEAKAGE, reduce the leakage rate to within limits within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.With any reactor coolant system pressure isolation valve(s)leakage greater than the above limit, except when: The leakage is less than or equal to 5.0 gpm, and 2~The most recent measured leakage does not exceed the previous measured leakage<<by an amount that reduces the To satisfy ALARA requirements, measured leakage may be measured indirectly (as from the performance of pressure indicators) if accomplished in accordance with approved procedures and supported by computations showing that the method is capable o f demonstrating valve compliance with the leakage criteria.Specification 3.4.6.2.e is applicable with average pressure within 20 psi of the nominal full pressure value.COOK NUCLEAR PLANT UNIT 1 3/4 4-16 AMENDYZNT NO.46&,+66,].78 Order dated April 20, 1981

~~~J V REACTOR COO~T SYS BASES 3 4.4.5 S EAM GENERATORS TUBE INTEGRITY The Surveillance Requirements for inspection of the steam generator tubes ensure that the structural integrity of this portion of the RCS will'be maintained.

The program for inservice inspection af steam generator tubes i.s based on a modification of Regulatory Guide 1-83, Revision 1.Znservice inspection of steam generator tubing is essential in order to maintain surveillance of the conditions cif the tubes in the event that there is evidence of mechanical damage or progressive degradation due to design, manufacturing errors, or inservice conditions that lead to corrosion.

Znservice inspection of steam generator tubing also provides a means of characterizing the nature and cause of any tube degradation so that corrective measures can be taken.The plant is expected to be operated i.n a manner such that the second-ary coolant will be maintained within those chemistry limits found to r negligible corrosion of the steam genezator tubes.Zf the s ry coolant chemistry i.s not maintained within these parameter limit calized corrosion may likely result in stress corrosion cracking.The ent of cracking duri.ng plant operation would be limited by the limi.on of steam generator tube leakage between the primary coolant system e secondary coolant system.The allowabe primary-to-secondary leak t s 150 gallons per day per steam generator for one fuel cycle (Cycle.Axial or circumferent'ally oriented c acks having a primary-.to-secondary leakage less than this limit during operation will have an adequate margin of safety to.'withstand the loads imposed during normal operation and by postulated accidents.

Leakage in excess of this limit will require plant shutdown and an inspection, during which the leaking tubes will be located and plugged or repaired.A steam gene ator while undergoing crevice flushing in Made 4 is available for decay heat removal and is operable/operating upon reinstatement of auxiliary or main feed flow control and s earn control.Wastage-type defects are unlikely with the all volatile treatment (AVT)of seconda y coolant.However, even if a defect of similar type should develop in service, it will be found during scheduled inservice steam generator tube examinations.

Plugging or sleeving will be required for all tubes with imperfec ions exceeding.the repair limit which is defined in Specification 4.4.5.4.a.

Steam generator tube inspections of operating plants have demonstrated the capability to reliably detect degradation that has penetrated 20%of the original tube wall thi.ckness.

Tubes experiencing outer diameter stress corrosion cracking withi.n the thickness of the tube support plates are plugged or repaired by the criteria of 4.4.5.4.a.10.COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-2a AYENDMENT NO.403,@Sees k66 s 178

~~~~~,~I e REACTOR COOLANT SYSTEM BASES Maintaining an operati leakage limit, of 150 gpd per steam generator (600 gpd total)for Fuel cycle 4 will minimize the potential for a large leakage event, during steam line zeak under LocA conditions.

Based on the NDE uncertainties, bobbin coil voltage distribution and crack growth rate from the previous i.nspection, the expected leak rate following a steam line rupture is limited to below 12.6 gpm which wi.ll limit the calculated offsite doses to within 10 percent of 10 CFR 100 guidelines.

Leakage in the intact loops is limited to 150 gpd.Zf the projected end of cycle distribution of crack indications esults in primary-to-secondary leakage greater than 12.6 gpm in the faulted loop during a postulated steam line break event, additional tubes must be removed from service in order to reduce the postulated primary-to-secondazy steam line break leakage to below 12.6 gpm.PRESSURE BOUNDARY LEAKAGE of any magnitude i.s unacceptable since it may be indicative of an impending gross failure of the pressure boundary.Should PRESSURE BOUNDARY LEAKAGE occur through a component which can be isolated from the balance of the Reactor Coolant System, plant operation may continue provided the leaking component is promptly isolated from the Reactor Coolant System since isolation removes the source of potential failure.The Surveillance Requirements for RCS pzessure Isolation Valves provide added assurance of valve integrity thereby reducing the probability of gross valve failure and consequent intersystem LOCA.Leakage from the RCS Pressure Isolation Valves is IDENTIFZED LEAKAGE and will be considered as a portion of the allowed lim'it.3 4.4.7 CH=MZSTRY The limitations on Reactor Coolant System chemi.stry ensure that corzosion of the Reactor Coolant System is minimized and reduces the potent'al for Reactor Coolant System leakage or failure due to stress corrosion.

Maintaining the chemistry within the Steady State Limits provides adequate corrosion protection to ensure the structural integrity of the Reactor coolant System over the li.fe of the plant.The associated effects of exceedi.ng the oxygen, chlor:de, and fluoride limits are time and temperature dependent.

Corrosion studies show that operation may be continued with contaminant concentration levels in excess of the Steady State Limits, up to the Transient Limits, for the specified limited time in"ervals without having a si.gnificant, effect.on the stzuctural integrity of the Reactor Coolant System.The time interval permitting continued operation within the restrictions of the Transient Limits provides time for taking corrective actions to restore the contaminant concentrations to within the Steady State Limits.COOK NUCLEAR PLANT UNIT 1 B 3/4 4-4 AHENDHENT NO 88g%44q 178

~i'~~J~ATTACHMENT 3 TO AEP:NRC:1166$

PROPOSED REVISED TECHNICAL SPECIFICATION PAGES r~~r EACTOR COOLANT SYST SURVEILLANCE RE UIREMENTS Cont nued 2.3.Tubes in those areas where experience has indicated poCential problems.A tube inspection (pursuant Co Specif ication 4.4.5.4.a.

8)shall be performed on each selected tube.If any selected tube does not permit the passage of the eddy current probe for a tube inspection, this shall be recorded and an adjacent tube shall be selected and subjected to a tube inspection.

c~In addition to the sample required in 4.4.5.2.b.l through 3, all tubes which have had the W criteria applied will be inspected in the roll expanded region.The roll expanded region of these tubes may be excluded from the requirements of 4.4.5.2.b.l.

d.The tubes selected as the second and third samples (if required by Table 4.4-2)during each inservice inspection may be subjected to a partial tube inspection provided: The tubes selected for the samples include the tubes from those areas of the tube sheet array where tubes with imperfections were previously found.2.The inspections include those portions of the tubes where imperfections were previously found.e.Implementation of the steam generator tube/tube support plate interim plugging criteria for one fue1 cycle (Cycle 15)requires a 100%bobbin coil inspection for hot leg Cube support plate intersections and cold leg intersections down to the lowest cold leg tube support plate with known outer diameter stress corrosion cracking (ODSCC)indications.

~The results of each sample inspection shall be classified into one of the following three categories:

Cate~ox~C-l C-2 C-3 Ins ect on Results Less than 5%of the total tubes inspected are degraded tubes and none of the inspected tubes are defective.

One or more tubes, but not more than 1%of the total tubes inspected are defective, or between 5S and 10$of the total tubes inspected are degraded tubes.More than 10%of the total tubes inspected are degraded tubes or more than 1$of the inspected tubes are defective.

COOK NUCLEAR PLANT-UNIT 1 3/4 4-8 AMENDMENT NO.'OS, 454, 446, 477-,

EACTOR COOLANT SYSTEMS SURVEILLANCE RE UIREMENTS Continued b.c~The steam generator shall be determined OPERABLE after completing the corresponding actions (plugging or sleeving all tubes exceeding the repair limit and all tubes containing through-wall cracks)required by Table 4.4-2.Steam generator tube repairs may be made in accordance with the methods described in either WCAP-12623 or CEN-313-P.

4.4.5.5 R~e orts a.b.Following each inservice inspection of steam generator tubes, if there are any tubes requiring plugging or sleeving, the number of tubes plugged or sleeved in each steam generator shall be reported to the Commission within 15 days.The complete results of the steam generator tube inservice inspection shall be included in the Annual Operating Report for the period in which this inspection was completed.

This report shall include: l.Number and extent of tubes inspected.

2.Location and percent of wall-thickness penetration for each indication of an imperfection.

C.d.e.3.Identification of tubes plugged or sleeved.Results of steam generator tube inspections which fall into Category C-3 and require prompt notification of the Commission shall be reported pursuant to Specification 6.9.1 prior to resumption of plant operation.

The written followup of this report shall provide a description of investigations conducted to determine cause of the tube degradation and corrective measures taken to prevent recurrence.

The results of inspections performed under 4.4.5.2 for all tubes in which the tube support plate interim plugging criteria has been applied shall be reported to the Commission within 15 days following the inspection.

The report shall include'.1.Listing of applicable tubes.2.Location (applicable intersections per tube)and extent of degradation (voltage).

The results of steam line break leakage analysis performed under T/S 4.4.5.4.a.l0 will be reported to the Commission prior to restart for Cycle 15.COOK NUCLEAR PLANT-UNIT 1 3/4 4-12 AMENDMENT NO.403, 446, 477, r~p 0 4~&4.

CTOR C 0 SYS OPERATIONAL LEAKAGE IM TING CONDITION OR OPERATION 3.4.6.2 Reactor Coolant System leakage shall be limited to: a.b.c~d.e.No PRESSURE BOUNDARY LEAKAGE, 1 GPM UNIDENTIFIED LEDGE, 600 gallons per day total primary-to-secondary leakage through all steam generators and 150 gallons per day through any one steam.generator for Fuel Cycle 15, 10 GPM IDENTIFIED LEAKAGE from the Reactor Coolant System, Seal line resistance greater than or equal to 2.27E-1 ft/gpm~and, 1 GPM leakage from any reactor coolant system pressure isolation valve specified in Table 3.4-0.~ACTI 0 a.b.C.With any PRESSURE BOUNDARY LEAKAGE, be in at least HOT STANDBY within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.With any Reactor Coolant System leakage greater than any one of the above limits, excluding PRESSURE BOUNDARY LEAKAGE, reduce the leakage rate to within, limits within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.With any reactor coolant syst: em pressure isolation valve(s)leakage greater than the above limit, except when: 1.,The leakage is less than or equal to 5.0 gpm, and 2.The most recent measured leakage does not exceed the previous measured leakage*by an amount that reduces the To satisfy ALARA requirements, measured leakage may be measured indirectly (as from the performance of pressure indicators) if accomplished in accordance with approved procedures and supported by computations showing that the method is capable of demonstrating valve compliance wi.th the leakage criteria.Specification 3.4.6.2.e is applicable with average pressure wi.thin 20 psi of the nominal full pressure value.COOK NUCLEAR PLANT-UNIT 1 3/4 4-16 AMENDMENT NO.462, 466,~Order dated Apri.l 20, 1981 I~~r (t V" tt~I'P,l EAC OR COO SYST BASES 3 4 4 5 STEAM GENERATORS TUBE INTEGRITY The Surveillance Requirements for inspection of the steam generator.

tubes ensure that the structural integrity of this portion of the RCS will be maintained.

The program for inservice inspection of steam generator tubes is based on a modification of Regulatory Guide 1.83, Revision 1.Inservice inspection of steam generator tubing is essential in order to maintain surveillance of the conditions of the tubes in the event that there is evidence of mechanical damage or progressive degradation due to design, manufacturing errors, or inservice conditions that lead to corrosion.

Inservice inspection oR steam generator tubing also provides a means of characterizing the nature and cause of any tube degradation so that corrective measures can be taken.The plant is expected to be operated in a manner such that the second-ary coolant will be maintained within those chemistry limits found to result in negligible corrosion of the steam generator tubes.If the secondary coolant chemistry is not maintained within these parameter limits, localized corrosion may likely result in stress corrosion cracking.The extent of cracking during plant operation would be limited by the limitation of steam generator tube leakage between the primary coolant system and the secondary coolant system.The allowabe primary-to-secondary leak rate is 150 gallons per day per steam generator for one fuel cycle (Cycle 15).Axial or circumferentia'ily oriented cracks having a primary>>to-secondary leakage less than this limit during operation will have an adequate margin of safety to withstand the loads imposed during normal operation and by postulated accidents.

'eakage in excess of this limit will require plant shutdown and an inspection, during which the leaking tubes will be located and plugged or repaired.A steam generator while undergoing crevice flushing in Mode 4 is available for decay heat removal and is operable/operating upon reinstatement of auxiliary or main feed flow control and steam control.Wastage-type defects are unlikely with the all volatile treatment (AVT)of secondary coolant.However, even if a defect of similar type should develop in service, it will be found during scheduled inservice steam generator tube examinations.

Plugging or sleeving will be required for a'll tubes with imperfections exceeding the repair limit which is defined in Specification 4.0.5.4.a.

Steam generator tube inspections of operating plants have demonstrated the capability to reliably detect degradation that has penetrated 20%of the original tube wall thickness.

Tubes experiencing outer diameter stress corrosion cracking within the thickness of the tube support plates are plugged or repaired by the criteria of 4.4.5.4.a.lO.

COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-2a AMENDMENT NO.403, 454, 446,~

p(lg o i,I 4~~sy m REACTOR COOLANT SYSTEM BASES Maintaining an operating leakage limit of 150 gpd per steam generator (600 gpd total)for Fuel Cycle 15 will minimize the potential for a large leakage event during steam line break under LOCA conditions.

Based on the NDE uncertainties, bobbin coil voltage distribution and crack growth rate from the previous inspection, the expected leak rate following a steam line rupture is limited to below 12.6 gpm which will limit the calculated offsite doses to within 10 percent of 10 CFR 100 guidelines.

Leakage in the intact loops is limited to 150 gpd.If the projected end of cycle distribution of crack indications results in primary-to-secondary leakage greater than 12.6 gpm in the fault'ed loop during a postulated steam line break event, additional tubes must be removed from service in order to reduce the postulated primary-to-secondary steam line break leakage to below 12.6 gpm.PRESSURE BOUNDARY LEAKAGE of any magnitude is unacceptable since it may be indicative of an impending gross failure of the pressure boundary.Should PRESSURE BOUNDARY LEDGE occur through a component which can be isolated from the balance of the Reactor Coolant System, plant operation may continue provided the leaking component is promptly isolated from the Reactor Coolant System since isolation removes the source of potential failure.The Surveillance Requirements for RCS Pressure Isolation Valves provide added assurance of valve integrity thereby reducing the probability of gross valve'failure and consequent intersystem LOCA.Lealcage from the RCS Pressure Isolation Valves is IDENTIFIED LEAKAGE and will be considered as a portion of the allowed limit.3 4 4 7 CHEMISTRY The limitations on Reactor Coolant System chemistry ensure that corrosion of the Reactor Coolant System is minimized and reduces the potential for Reactor Coolant System leakage or failure due to stress corrosion.

Maintaining the chemistry within the Steady State Limits provides adequate corrosion protection to ensure the structural integrity of the Reactor Coolant System over the life of the plant.The associated effects of exceeding the oxygen, chloride, and fluoride limits are time and temperature dependent.

Corrosion studies show that operation may be continued with contaminant concentration levels in excess of the Steady State Limits, up to the Transient Limits,'for the specified limited time intervals without having a significant effect on the structural integrity of the Reactor Coolant System.The time interval permitting continued operation within the restrictions of the Transient Limits provides time for taking corrective actions to restore the contaminant concentrations to within the Steady State Limits.COOK NUCLEAR PLANT-UNIT 1 B 3/4 4-4 AMENDMENT NO.53, 444,~

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