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{{#Wiki_filter:ATTACHMENT4TOAEP:NRC:1071NEXISTINGTECHNICALSPECIFICATIONSPAGESMARKED-UPTOREFLECTPROPOSEDCHANGESDONALDC.COOKNUCLEARPLANTUNITS1AND29'102250233PDRADOCKK05000315PDR lpltvW bEt'al.~npic5[467,~CgSIdC~b~~s,~iecee&dkisiecdkretnecScg'~ceiigancnra4vncejp3.CS~0-ASSecacecnriedeneeevb'~d4eveSR'.,uc'cPhbcen&o-shekk>s]ssoKW5/~]and,BX)(oh/PiOF~+t~~on~PW3P~~~s'~~t7xlTcL~Llyoc.4ZSo'~~~<<-S>>%raiSniSc~u~.b.CeZaaccordanceviththecoderequirementsspecifiedinSection4.1.Cyithallovancefornormaldegradationpursuanttoth>>applicable$~eillanceRequirements,Forapressureof2485psig00Poratemperatureof6SOP,excepttorthepreaaurixervhichiaC40PeVOLDHE5.4'5.5Thetotalcontainedvolumeofthoroacto$coolantsystemia12,612+100cubicfeetatanominalTof70P.avgEMERCENCYCORECOOLIVQSYSTEMS5.5.1*TheemergencycorecoolingsystemsaredesignedandshallbomaintainedinaccordanceviththeoriginaldesignprovisionacontainedinSection6.2ofthepSARvithallovancefornormaldegradationpursuanttothoappl,icableSurveillanceRequirements.5.6FUELSTORAGECRITICALITY-'PENTFUELe5.6.1.1:Thespentfuelstorageracksaredesignedandshallbemaintainedvith:a.Ak<<eqivalentto1.assthan0:5vhenfloodedvithunboratedvater,b~Anominal10,5inchcenter-to-cen:erdistancebetveenfuelassembliesplacedinthestorageracks.4%/4FR7Rc.1.hseparateregionvithinthespentfuelstorageracks(definedasRegion1.)shallbeestablished=orstorageofWestinghouse:ue4~MSGR6CVlTheboundezybeeveentheRedionSl".eneionedebovetee~HL)shallbesuchthattheshallbecarriedintoRegioinFigurc5.6-1.storagerequirement2by,atleast,onerovasshovn~~AT'Pt:QtscofccneL~caks~~S.qavi~occcQV-ZSS~~g,cdd4ien5;SSogw3/blTO~Con[i~a8ccnat'.~~i~~~S.+dLcd's<~~COOKNUCLEARPLANT-UNIT15-5AMENDMENTNOR~bb.eo.6IWlesL~o~~4~~g~<Q~+ony~gchlcH~~~5.6 tgl.p,LfI~rt'lA IIIIIIIaegaeon2IIIIIIME+pleuaEErnpvgCe~'c"asV~~-"'<"-ea=:'.a."."=='.".e.-..a"==="":e3.S.c."aceRacks~we.".caen"No.
{{#Wiki_filter:ATTACHMENT 4 TO AEP:NRC:1071N EXISTING TECHNICAL SPECIFICATIONS PAGES MARKED-UP TO REFLECT PROPOSED  CHANGES DONALD C. COOK NUCLEAR PLANT UNITS 1 AND 2 9'102250233 PDR  ADOCK K 05000315 PDR
*I~M+)C~CZl0 o~'DESI'XLTTHtXStuelatoredinthespentfuelstorageracksshallhave~max~aCe&alfuelassemblyenrichmentaafollon:a4tHasid%NominaltuelAaaeablyEnrichment42351)Veatinghouse15x15STD15x15OFA2)Exxon/AHF-15x154.953.503)Vestinghouse17x17STD17x17OFA17x17VS4,954)Exxon/ANF17x174,23CRITICALITY-NEVFUEL5.6.2.1Thencvfuelpitstorageracksaredesignedandshallbemaintainedvt.thanominal21inchccntcr-to-centerdistancebetveennevfuelassembliessuchthatkfvillnotexceed0.98vhcnfuelasscmbli.esareplacedinthepitcffandaqueousoammoderationi.sassu.ed.5.6.2.2Fuelstored'nthencvfclstoragera=..sshallhaveamaximumnominalfuelassemblyenrich.=cntasfollovs;NaximumNo=.nalFuelAssemblyEnrichmentVt.\2351)Vcstinghousc1.5x15STD15x15OFA4.552)Exxon/ANF15x153.503)Vcsti.nghouse17x1.7STD17x17OFA17x17VS4.554)Exxon/ANF17x174.23DRAINAGE5.6.3Thespentfuelstoragepoolisdesignedandshallbemaintainedtopreventinadvertentdrai.ni.ngofthcpoolbelovelevation629'4".COOKNUCLEARPLANT-UNIT1AMENDMENTNO.6


~iLMSZaaTrk~kEI~kCITffC4aN't1storage!1isdisigedandshilbemitaiedvithastoragecapcityi~tedtonomorethn2050fuelassemblies.57SEISMICC~SIPIChTIOH57,]noaestructuree,systemsandcomponentsinthePS'hallbedesignedandmaintainedtocontainedintheTSARvithellovancefornormalapplicantSurreillanceRequirements,identifiedaaCategoryIItemsoriginaldesignprovisionsdegradationpursuanttothe5.INETEOROLOCICALTOVERLOChTION5.8.1ThemeteorologicaltovershallbelocatedasshovninFigure5.1-1.5.9COMPONENTCYCLICORTRANSIENTLIMIT+Pl5,9.1ThecomponentsidentifiedinTable5.9-1aredesignedandshallbe.maintainedvithinthecyclicortransientlimitsofTable5.9-1.VCOOKNUCLEhRPEDANT-UNITh.'KNDNENTNO.1 41~
l pl t
TADLE5.9-1COHPONENTCYCLICORTRANSIENTLIHITSCOHPONENTReactorCoolantSysteaCYCLICORTRANSIENTLIHIT200heatupcyclesat<100'F/hrand200cooldowncyclesat<100F/hr(pressurizercooldownat<200F/hr).80lossofloadcycles.40cyclesoflossofoffsiteA.C.electricalpower.SOcyclesoflossofflowinonereactorcoolantloop.400reactortripcycles.200largestepdecreasesinload.DESIlaNCYCLEORTRANSIENTlleatupcycle-Tfrota<200'Fhr>.F.Cooldowncycle-Tfroe>5i7'Fto<200'FHlthoutiasediateturbineorreactortrip.LossofoffsiteA.C.electricalpowersourcesupplyingtheonslteClasslEdistributionsystea.Lossofonlyonereactorcoolantpump.lOOXtoOCofRATEOTIIEHHALPNER.100Kto5XofRATEOTllERHALPOHERwithsteaaduep.
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TABLE5.9-1LQHPONENTCYCLICORTRANSIENTLIMITSCOHPONENTI(eactorCoolantSystemCYCLICORTRANSIENTLIHITla@inreactorcoolantpipebreak.OperatingUasisEartlviuakes50leaktests.5hydrostaticpressuretestsDESIGNCYCLEORTRANSIENTUreakinareactorcoolantpipe>6inchesequivalentdiameter.400cycles-20earthquakesof20cycleseach.I'ressurlzedto2500psiaPressurizedto3I07pslg.SecondarySystemlsteamlinebreak5hydrostat,icpressuretestsBreakinasteamline>5.5inchesequivalentdlarneter.Pressurizedtol356psig.
b                        s,  ~
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              ,uc'cPhbcen& o-she kk KW5/~] and, jp 3.CS BX)(oh/PiOF~
~gp~8,'~~~~ngg~Qe.Zpeat+~SXDtnga,no~>ldined,aSRegion47Sfi~he-c.R)vest'~pcsQN<fc~evnJ~eA~+4vQ-XSCI~~~nk~M3AS~+V->354uk~ca4~~Ides>>oo~seegQSiSSoNIWD/leanscss>>RBnso>>/'dIsl~cZfcs>>e>>>>'clme>>t:Qns~~~~~vnbnsgU-i>SQ~(ggol1a.ssc~g~~~~<ot.gs2-So~ht~il-RRS~~IsscISctssnWWI.5,4,2Thetalvaterandsteamvolumeofthereactorcoolantayate<ia12,C12+100cubicfeetasanominalTof70F.5.5LOOICALTOWINGLOCATION5.5.1Thiaateorologica]covershallbelocatedasshovnoaFigure5.1-1.5,6FOILSTORACECRITICALITYSPENTFUEL5.6,1.1Thespentfuelstorageracksaredesignedandshallbemaintainedvith:aeAKequivalenttolessthan0.95vhenfloodedvitheffunboratedvater,Anominal10.5-inchcenter-to-centerdistancebetveenfuelassemblies,placedinthestorageracks.c,1.Aseparateregionvithinthespentfuelstoragerac3cs(definedasRegion1)shallbeestablishedforstorageofVestinghousefuelIocearrayvaINSET~A,STheboundarybetveentheRegion5'entionedaboveea4-oh+~Lshallbesuchthatthestoragerequirement.gshallbecastledintoRegion2b:atleast,onetooassheeninF'gure5.6-1.5.6.1.2Fuelstoredinthespentfuelstorageracksshallhaveamaximumnominalfuelassemblyenrichmentasfollovs:DescritionMaximumNominalFuelAssemblyEnrichmentVt.'42351)Vestinghouse2)Exxon/ANF3)westinghouse15x15STD15x15OFA15x1517x17STD17x17OFA17x17V54.953.504.954)Exxon/ANF17x174.23COOKNUCLEARPLANT-UNIT25-5ANENmZNTNO.5nMS~p.%Swcug)otgo~9-X3S'gnc2kacwupA+M~yagtdwto~hodtgnwtnSCshpqk~~R~(eog>>sR2Ioogn~d.Iswg~>>g2.+aaII+>>gtdo>>SdoesgbtseIsaFI~S'-2.  
P~
~y*
Et'al.~n iec ee&dkisiecd
nlLJffIEmperyCfudl~~'<<sava0<a4~c'n"a";3et~eenBeg'ons1and2noae~aKSCsoggU~Qp,p~TQUIT~~5-8~amendmentNo.
                                                          ~  +t
IA~rtRIP, DmZa>>~~~~~z~~l&#xc3;5FPAT,5.4.21~nevf941pitstoragerhaaredeailnedandshallbeaatntaedwith+eainal21inchceater-to-centerdiatancebetnennerfuelblieaauchthatIvillnotexceed0.90rheafuelaaaeRblieaareoffplacedinthepitandaqueousforamoderationiaaaaaaed.5,6,2.2tuelstorediathenerfuelstorageracksahallhanaaaximanoajnalfuelaaseablyenrichmentaafollow;1)Vestinghouse15x15STD15x15OFAMaximumNominaltuelAaaeablyEnrichmentVt.\2354.552)Exxon/ANF15x153.503)Vestinghous~17x17STD17x17OFA17x17V54.554)Exxon/ANF17x174.23DRAINAGE5.6.3Thespentfuelstoragepoolisdesignedand'"..allbemaintainedtopreventinadvertentdrainingofthepooLbelovelevation629'4".CAPACITY5.6.4Thespentfuelstoragepoolisdesignedandsh~allbemaintainedvitastoragecapacitylimitedtonomorethan2050iueiassemblies.5.7CO'.iPONENTCYCLICORTRAVSIEVTLI'.iIT5.7.1ThecomponentsidentifiedinTable5.7-1aredesi.gnedandshallbe.maintainedvithinthecyclicortransientlimitsofTable5.7-1.jCOOKNUCLEARPLANT-UNIT25-6A.'KNDMENTNO.,1 V00 4EPCOHPONENTReactorCoolantSystemTABLE5.7-1COHPONENTCYCLICORTRANSIENTLIHITSCYCLICORTRANSIENTLIHIT200heatupcyclesat<100'F/hrand200cooldowncyclesat<100F/hr(pressurizercooldownat<200'F/hr).80lossofloadcycles.40cyclesoflossofoffsiteA.C.electricalpower.80cyclesoflossofflowinonereactorcoolantloop.400reactortripcycles.200largestepdecreasesinload.p'IDESI(iNCYCLEORTRANSIENTIleatupcycle-Tfrom<200'Fto>547'F.CooTdowncycle-Tfrom>547'Fto<200F.Withoutimmediateturbineorreactortrip.LossofoffsiteA.C.electricalpowersourcesupplyingtheonsiteClasslEdistributionsystem.Lossofonlyonereactorcoolantpump.100KtoOXofRATEDTilERHALPOWER.lOOXto5XofRATEDTllERHALPOWERwithsteamdump.
                                                                ~ ~ ~on~
VI)0 7Thli~LE5.-i{Conlinuredrn~voNLNTCYCLICORTRRISIENTLiwiTSCOMPONENTReactorCoolantSystemSecondarySystemCYCLICOATRRNSIENTLllilT1mackinreactorcoolantpipebreak.OperatingOasisEarthquakes50leaktests.5hydrostaticpressuretests1steamlinebreak5hydrostaticpressuretestsnCSlrNCYCLEORTRR[ISIENTBreakinareactorcoolant.pipe>6inchesequiva)entdiameter.400cycIes-20earthquakesof20cycleseach.Pressurizedto2500psiaPressurizedto3107psig.Breakinasteamline>5.5inchesequivalentdiameter.Pressurizedto1356psig.
                                                                ~s'~
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d4eve SR'.
PW3 4 ZSo'~ ~~<<-S>>                              %ra iSniS        c~u~.
Za accordance          vith the code requirements specified in Section 4.1.C yith allovance for normal degradation pursuant to th>>
applicable        $ ~eillance        Requirements,
: b. For a pressure of 2485 psig 0                                                        0 Ce    Por a temperature            of  6SO  P, except    tor the preaaurixer vhich ia          C40 Pe VOLDHE 5.4 '        The total contained volume of tho                    roacto$ coolant system ia 12, 612
                      + 100 cubic feet at a nominal T                      of  70 P.
avg 5.5            EMERCENCY CORE COOLIVQ SYSTEMS 5.5.1*        The emergency          core cooling systems are designed and shall bo maintained in accordance vith the original design provisiona contained in Section 6.2 of the pSAR vith allovance for normal degradation pursuant to tho appl,icable Surveillance Requirements.
: 5. 6          FUEL STORAGE CRITICALITY -'PENT FUEL e
5.6.1.1:      The    spent fuel storage racks are designed and shall be maintained vith:
: a.      A  k  <<eq ivalent          to  1.ass  than  0:5    vhen flooded  vith  unborated vater, b ~      A  nominal 10,5 inch center-to-cen:er distance betveen fuel assemblies placed in the storage racks.
: c. 1. h separate            region  vithin    the spent    fuel storage racks (defined 4%/4FR7 R as Region 1.)        shall  be    established    =or storage of Westinghouse
:ue 4 ~    MSGR 6                                        CVl The boundezy beeveen            the RedionSl ".eneioned ebove      tee~HL
                                                                                                            )
shall be such that the                                    storage requirement shall be carried into Regio                2  by, at least, one rov as shovn in Figurc 5.6-1.
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Con[i COOK NUCLEAR PLANT WlesL gchlcH R~bb.
                              ~o~
                              ~
                                    - UNIT 1 eo.
                                      ~~
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: 5. 6 4    ~
5-5
                                                                        ~g              ~
AMENDMENT NO
                                                                                                <Q~+ony            ~
 
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~'c" a s          -"'< "-  ea=:'.a."."  =='.".e.-..a" = ==" ": e3. S.c."ace Racks
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                                                            ~we.".caen" No.
 
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DESI'XLTTHtXS tuel atored in the spent fuel storage racks shall    have ~  max~
aCe&al fuel assembly enrichment aa follon:
a 4t Hasid%
Nominal  tuel Aaaeably Enrichment 4 235
: 1) Veatinghouse    15 x 15 STD                4.95 15 x 15 OFA
: 2) Exxon/AHF      -  15 x 15                    3. 50
: 3) Vestinghouse      17 x 17 STD                4,95 17 x 17 OFA 17 x 17 VS
: 4) Exxon/ANF        17 x 17                    4,23 CRITICALITY-NEV FUEL 5.6.2.1    The ncv  fuel pit storage racks are designed and shall be maintained vt.th a nominal 21    inch ccntcr-to-center distance betveen nev fuel assemblies such that k and aqueous cff f vill not exceed 0.98 vhcn fuel asscmbli.es are placed in the pit oam moderation i.s assu.ed.
5.6.2.2 Fuel stored 'n the ncv f cl storage ra=..s shall have        a maximum nominal fuel assembly enrich.=cnt as follovs; Naximum No=.nal Fuel Assembly Enrichment Vt.  \  235
: 1) Vcstinghousc    1.5 x 15 STD                4. 55 15 x 15 OFA
: 2) Exxon/ANF        15 x 15                    3. 50
: 3) Vcsti.nghouse    17 x 1.7 STD                4.55 17 x 17 OFA 17 x 17 VS
: 4) Exxon/ANF        17  x 17                    4.23 DRAINAGE 5.6.3 The spent fuel storage pool is designed and shall be maintained to prevent inadvertent drai.ni.ng of thc pool belov elevation 629'4".
COOK NUCLEAR PLANT    - UNIT  1                                  AMENDMENT NO.      6
 
~ i L MSZaa    Trk~kEI
      ~kCITf f C 4  aN 't  1 storage !    1  is disig ed and sh  il be mi tai  ed vith a storage cap city i~ted    to  no more  th n 2050 fuel assemblies.
5 7  SEISMIC C~SIPIChTIOH 5 7,] noae structuree, systems      and components  identified aa Category I Items in the PS'hall be designed and maintained to            original design provisions contained in the TSAR vith ellovance for normal degradation pursuant to the applicant Surreillance Requirements,
: 5. I  NETEOROLOC ICAL TOVER LOChTION
                                                                                            +Pl 5.8.1    The meteorological tover shall    be located as shovn in Figure 5.1-1.
5.9  COMPONENT CYCLIC OR TRANSIENT    LIMIT 5,9.1 The components identified in Table 5.9-1 are designed and shall        be.
maintained vithin the cyclic or transient limits of Table 5.9-1.
V COOK NUCLEhR PEDANT  - UNIT                                      h.'KNDNENT NO. 1
 
4 1 ~
TADLE 5.9-1 COHPONENT CYCLIC OR TRANSIENT    LIHITS CYCLIC OR                            DES IlaN CYCLE COHPONENT                TRANSIENT L IHIT                        OR  TRANSIENT Reactor Coolant Systea 200 heatup cycles at <      100'F/hr        lleatup cycle -  T    frota < 200'F and 200 cooldown cycles      at                    hr>.F.
                      <  100  F/hr (pressurizer cooldown          Cooldown  cycle -  T froe  >  5i7'F at  <  200  F/hr).                          to  <  200'F 80 loss    of load cycles.                  Hl thout iasediate    turbine or reactor trip.
40 cycles of loss of offsite                Loss of offsite A.C. electrical A.C. electrical power.                      power source supplying the onslte Class lE  distribution systea.
SO  cycles of loss of flow in one          Loss  of only  one reactor reactor coolant loop.                      coolant  pump.
400  reactor  trip  cycles.                lOOX  to OC  of RATEO TIIEHHAL  PNER.
200 large step decreases      in load.      100K  to 5X  of RATEO TllERHAL POHER with steaa duep.
 
TABLE 5.9-1 LQHPONENT CYCLIC OR TRANSIENT LIMITS CYCLIC OR                              DESIGN CYCLE COHPONENT        TRANSIENT L IHIT                        OR TRANSIENT I(eactor Coolant l a@in  reactor coolant pipe break. Ureak    in  a reactor coolant pipe  > 6 inches System                                                equivalent diameter.
Operating Uasis Eartlviuakes            400 cycles    - 20 earthquakes  of 20 cycles each.
50 leak  tests.                        I'ressurlzed to 2500 psia 5 hydrostatic pressure tests            Pressurized      to 3I07 pslg.
Secondary System l steam  line break                    Break    in  a steam  line  > 5.5 inches equivalent dl arne ter.
5 hydrostat,ic pressure tests          Pressurized      to l356 psig.
 
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coolant ayate< ia
                                                                                                              ~ ~<
5,4,2
                ~  The      tal vater    and steam volume of the          reactor
              ~
12,C12 + 100 cubic feet as a nominal T                      of 70 F.
5.5              LOOICAL    TOWING  LOCATION 5.5.1  Thi aateorologica] cover shall              be  located as shovn oa Figure 5.1-1.
5,6    FOIL    STORACE CRITICALITY      SPENT FUEL 5.6,1.1    The spent      fuel storage racks are designed            and    shall  be maintained vith:
ae      A K eff  equivalent to less than 0.95 vhen flooded                vith unborated      vater, A  nominal 10.5-inch center-to-center distance betveen fuel assemblies, placed in the storage racks.
c, 1. A  separate    region  vithin    the spent fuel storage rac3cs (defined as  Region 1)   shall    be  established for storage of Vestinghouse fuel Io ce    array va INSET                                        ~A,S The boundary betveen          the Region5'entioned            above ea4-oh+
                                            ~ L shall be such that the                                    storage requirement  .
g shall be castled into Region              2  b:   at least,     one too as sheen in F'gure 5.6-1.
5.6.1.2  Fuel stored in the spent fuel storage racks shall have                        a maximum nominal fuel assembly enrichment as follovs:
Maximum Nominal Fuel Assembly Enrichment Descri tion                                  Vt. '4  235
: 1) Vestinghouse          15 x 15 STD                          4. 95 15 x 15 OFA
: 2) Exxon/ANF              15 x 15                              3.50
: 3) westinghouse          17 x 17 STD                          4.95 17 x 17 OFA 17 x 17 V5
: 4) Exxon/ANF              17 x 17                              4.23 COOK NUCLEAR PLANT        - UNIT 2
                                                ~to~ho          5-5                      ANENmZNT NO. 5 k~~          ~
                    ~
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  ~ ~ '<<s      av a                                              noae  ~aKS 0< a 4 ~c 'n"a"; 3et~een Beg'ons 1 and  2 Csog    gU~Qp, p~T QUIT~
                                          ~ 5-8         ~amendment No.
 
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  ~z~~           l&#xc3;5F PAT, 5.4.2 aatnta 1
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                ~with nev f941
                        + eainal 21 inch r ha are deailned and shall be pit storage ceater-to-center  diatance betnen ner fuel bliea auch that Ioff vill not exceed 0.90 rhea fuel          aaaeRbliea are placed in the pit and aqueous fora moderation ia aaaaaed.
5,6,2.2 tuel stored ia the ner fuel storage racks ahall han              a aaxima noajnal fuel aaseably enrichment aa follow; Maximum Nominal  tuel  Aaaeably Enrichment Vt.  \  235
: 1) Vestinghouse    15  x 15 STD                  4.55 15  x 15 OFA
: 2) Exxon/ANF      15  x 15                      3.50
: 3) Vestinghous ~ 17 x 17 STD                    4.55 17 x 17 OFA 17 x 17 V5
: 4) Exxon/ANF      17 x 17                        4.23 DRAINAGE 5.6.3 The spent fuel storage pool is designed and '"..all be maintained to prevent inadvertent draining of the pooL belov elevation 629'4".
CAPACITY 5.6.4    The spent fuel storage pool is designed and sh~all be maintained          vit a  storage capacity limited to no more than 2050 iuei assemblies.
5.7    CO'.iPONENT CYCLIC OR TRAVSIEVT    LI'.iIT 5.7.1    The components    identified in Table 5.7-1 are desi.gned and shall      be.
maintained      vithin  the cyclic or transient limits of Table 5.7-1.
j COOK NUCLEAR PLANT      - UNIT 2            5-6                  A.'KNDMENT  NO.,   1
 
V 0
0
 
4 EP TABLE 5.7-1 COHPONENT CYCLIC OR TRANSIENT L IHITS
                                                                              'I p
CYCLIC OR                        DESI(iN CYCLE COHPONENT                TRANSIENT L IHIT                      OR  TRANSIENT Reactor Coolant System 200 heatup cycles at < 100'F/hr          Ileatup cycle -    T    from  < 200'F and 200 cooldown cycles at              to > 547'F.
                      < 100 F/hr (pressurizer cooldown        CooTdown cycle    - T    from >  547'F at  < 200'F/hr).                       to < 200 F.
80 loss  of load cycles.               Without immediate turbine or reactor trip.
40  cycles of loss of  offsite          Loss of offsite A.C. electrical A.C. electrical  power.               power source supplying the onsite Class lE  distribution    system.
80  cycles of loss of flow in one        Loss  of only    one reactor reactor coolant loop.                   coolant  pump.
400  reactor  trip cycles.             100K to  OX of  RATED TilERHAL POWER.
200  large step decreases  in load. lOOX  to 5X of  RATED TllERHAL POWER with steam  dump.
 
V I) 0
 
7 Thli~LE 5. -i {Conl inured rn~voNLNT CYCLIC      OR  TRRISIENT LiwiTS CYCLIC OA                                        nCSlrN  CYCLE COMPONENT        TRRNSIENT    LllilT                            OR TRR[ISIENT Reactor Coolant  1  mackin reactor coolant pipe break.           Break in  a reactor coolant. pipe   > 6 inches System                                                          equiva)ent diameter.
Operating Oasis Earthquakes                      400 cyc I es - 20 earthquakes  o f 20 cycl es each.
50  leak tests.                                  Pressurized    to 2500 psia 5  hydrostatic pressure tests                    Pressurized    to 3107 psig.
Secondary System 1  steam  line break                            Break in  a steam  line > 5.5 inches equivalent diameter.
5  hydrostatic pressure tests                    Pressurized    to 1356 psig.
 
f1, g
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Latest revision as of 06:01, 29 October 2019

Proposed Tech Specs Reflecting marked-up Changes Re Spent Fuel Pool During Unit 2 Cycle 9 Operation
ML17328A931
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 02/15/1991
From:
INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:
Shared Package
ML17328A929 List:
References
NUDOCS 9102250133
Download: ML17328A931 (24)
v  d  e


Text

ATTACHMENT 4 TO AEP:NRC:1071N EXISTING TECHNICAL SPECIFICATIONS PAGES MARKED-UP TO REFLECT PROPOSED CHANGES DONALD C. COOK NUCLEAR PLANT UNITS 1 AND 2 9'102250233 PDR ADOCK K 05000315 PDR

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Za accordance vith the code requirements specified in Section 4.1.C yith allovance for normal degradation pursuant to th>>

applicable $ ~eillance Requirements,

b. For a pressure of 2485 psig 0 0 Ce Por a temperature of 6SO P, except tor the preaaurixer vhich ia C40 Pe VOLDHE 5.4 ' The total contained volume of tho roacto$ coolant system ia 12, 612

+ 100 cubic feet at a nominal T of 70 P.

avg 5.5 EMERCENCY CORE COOLIVQ SYSTEMS 5.5.1* The emergency core cooling systems are designed and shall bo maintained in accordance vith the original design provisiona contained in Section 6.2 of the pSAR vith allovance for normal degradation pursuant to tho appl,icable Surveillance Requirements.

5. 6 FUEL STORAGE CRITICALITY -'PENT FUEL e

5.6.1.1: The spent fuel storage racks are designed and shall be maintained vith:

a. A k <<eq ivalent to 1.ass than 0:5 vhen flooded vith unborated vater, b ~ A nominal 10,5 inch center-to-cen:er distance betveen fuel assemblies placed in the storage racks.
c. 1. h separate region vithin the spent fuel storage racks (defined 4%/4FR7 R as Region 1.) shall be established =or storage of Westinghouse
ue 4 ~ MSGR 6 CVl The boundezy beeveen the RedionSl ".eneioned ebove tee~HL

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shall be such that the storage requirement shall be carried into Regio 2 by, at least, one rov as shovn in Figurc 5.6-1.

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DESI'XLTTHtXS tuel atored in the spent fuel storage racks shall have ~ max~

aCe&al fuel assembly enrichment aa follon:

a 4t Hasid%

Nominal tuel Aaaeably Enrichment 4 235

1) Veatinghouse 15 x 15 STD 4.95 15 x 15 OFA
2) Exxon/AHF - 15 x 15 3. 50
3) Vestinghouse 17 x 17 STD 4,95 17 x 17 OFA 17 x 17 VS
4) Exxon/ANF 17 x 17 4,23 CRITICALITY-NEV FUEL 5.6.2.1 The ncv fuel pit storage racks are designed and shall be maintained vt.th a nominal 21 inch ccntcr-to-center distance betveen nev fuel assemblies such that k and aqueous cff f vill not exceed 0.98 vhcn fuel asscmbli.es are placed in the pit oam moderation i.s assu.ed.

5.6.2.2 Fuel stored 'n the ncv f cl storage ra=..s shall have a maximum nominal fuel assembly enrich.=cnt as follovs; Naximum No=.nal Fuel Assembly Enrichment Vt. \ 235

1) Vcstinghousc 1.5 x 15 STD 4. 55 15 x 15 OFA
2) Exxon/ANF 15 x 15 3. 50
3) Vcsti.nghouse 17 x 1.7 STD 4.55 17 x 17 OFA 17 x 17 VS
4) Exxon/ANF 17 x 17 4.23 DRAINAGE 5.6.3 The spent fuel storage pool is designed and shall be maintained to prevent inadvertent drai.ni.ng of thc pool belov elevation 629'4".

COOK NUCLEAR PLANT - UNIT 1 AMENDMENT NO. 6

~ i L MSZaa Trk~kEI

~kCITf f C 4 aN 't 1 storage ! 1 is disig ed and sh il be mi tai ed vith a storage cap city i~ted to no more th n 2050 fuel assemblies.

5 7 SEISMIC C~SIPIChTIOH 5 7,] noae structuree, systems and components identified aa Category I Items in the PS'hall be designed and maintained to original design provisions contained in the TSAR vith ellovance for normal degradation pursuant to the applicant Surreillance Requirements,

5. I NETEOROLOC ICAL TOVER LOChTION

+Pl 5.8.1 The meteorological tover shall be located as shovn in Figure 5.1-1.

5.9 COMPONENT CYCLIC OR TRANSIENT LIMIT 5,9.1 The components identified in Table 5.9-1 are designed and shall be.

maintained vithin the cyclic or transient limits of Table 5.9-1.

V COOK NUCLEhR PEDANT - UNIT h.'KNDNENT NO. 1

4 1 ~

TADLE 5.9-1 COHPONENT CYCLIC OR TRANSIENT LIHITS CYCLIC OR DES IlaN CYCLE COHPONENT TRANSIENT L IHIT OR TRANSIENT Reactor Coolant Systea 200 heatup cycles at < 100'F/hr lleatup cycle - T frota < 200'F and 200 cooldown cycles at hr>.F.

< 100 F/hr (pressurizer cooldown Cooldown cycle - T froe > 5i7'F at < 200 F/hr). to < 200'F 80 loss of load cycles. Hl thout iasediate turbine or reactor trip.

40 cycles of loss of offsite Loss of offsite A.C. electrical A.C. electrical power. power source supplying the onslte Class lE distribution systea.

SO cycles of loss of flow in one Loss of only one reactor reactor coolant loop. coolant pump.

400 reactor trip cycles. lOOX to OC of RATEO TIIEHHAL PNER.

200 large step decreases in load. 100K to 5X of RATEO TllERHAL POHER with steaa duep.

TABLE 5.9-1 LQHPONENT CYCLIC OR TRANSIENT LIMITS CYCLIC OR DESIGN CYCLE COHPONENT TRANSIENT L IHIT OR TRANSIENT I(eactor Coolant l a@in reactor coolant pipe break. Ureak in a reactor coolant pipe > 6 inches System equivalent diameter.

Operating Uasis Eartlviuakes 400 cycles - 20 earthquakes of 20 cycles each.

50 leak tests. I'ressurlzed to 2500 psia 5 hydrostatic pressure tests Pressurized to 3I07 pslg.

Secondary System l steam line break Break in a steam line > 5.5 inches equivalent dl arne ter.

5 hydrostat,ic pressure tests Pressurized to l356 psig.

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coolant ayate< ia

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5,4,2

~ The tal vater and steam volume of the reactor

~

12,C12 + 100 cubic feet as a nominal T of 70 F.

5.5 LOOICAL TOWING LOCATION 5.5.1 Thi aateorologica] cover shall be located as shovn oa Figure 5.1-1.

5,6 FOIL STORACE CRITICALITY SPENT FUEL 5.6,1.1 The spent fuel storage racks are designed and shall be maintained vith:

ae A K eff equivalent to less than 0.95 vhen flooded vith unborated vater, A nominal 10.5-inch center-to-center distance betveen fuel assemblies, placed in the storage racks.

c, 1. A separate region vithin the spent fuel storage rac3cs (defined as Region 1) shall be established for storage of Vestinghouse fuel Io ce array va INSET ~A,S The boundary betveen the Region5'entioned above ea4-oh+

~ L shall be such that the storage requirement .

g shall be castled into Region 2 b: at least, one too as sheen in F'gure 5.6-1.

5.6.1.2 Fuel stored in the spent fuel storage racks shall have a maximum nominal fuel assembly enrichment as follovs:

Maximum Nominal Fuel Assembly Enrichment Descri tion Vt. '4 235

1) Vestinghouse 15 x 15 STD 4. 95 15 x 15 OFA
2) Exxon/ANF 15 x 15 3.50
3) westinghouse 17 x 17 STD 4.95 17 x 17 OFA 17 x 17 V5
4) Exxon/ANF 17 x 17 4.23 COOK NUCLEAR PLANT - UNIT 2

~to~ho 5-5 ANENmZNT NO. 5 k~~ ~

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~ ~ '<<s av a noae ~aKS 0< a 4 ~c 'n"a"; 3et~een Beg'ons 1 and 2 Csog gU~Qp, p~T QUIT~

~ 5-8 ~amendment No.

I A

~ rt RI P,

DmZa>> ~~~~

~z~~ lÃ5F PAT, 5.4.2 aatnta 1

ed

~with nev f941

+ eainal 21 inch r ha are deailned and shall be pit storage ceater-to-center diatance betnen ner fuel bliea auch that Ioff vill not exceed 0.90 rhea fuel aaaeRbliea are placed in the pit and aqueous fora moderation ia aaaaaed.

5,6,2.2 tuel stored ia the ner fuel storage racks ahall han a aaxima noajnal fuel aaseably enrichment aa follow; Maximum Nominal tuel Aaaeably Enrichment Vt. \ 235

1) Vestinghouse 15 x 15 STD 4.55 15 x 15 OFA
2) Exxon/ANF 15 x 15 3.50
3) Vestinghous ~ 17 x 17 STD 4.55 17 x 17 OFA 17 x 17 V5
4) Exxon/ANF 17 x 17 4.23 DRAINAGE 5.6.3 The spent fuel storage pool is designed and '"..all be maintained to prevent inadvertent draining of the pooL belov elevation 629'4".

CAPACITY 5.6.4 The spent fuel storage pool is designed and sh~all be maintained vit a storage capacity limited to no more than 2050 iuei assemblies.

5.7 CO'.iPONENT CYCLIC OR TRAVSIEVT LI'.iIT 5.7.1 The components identified in Table 5.7-1 are desi.gned and shall be.

maintained vithin the cyclic or transient limits of Table 5.7-1.

j COOK NUCLEAR PLANT - UNIT 2 5-6 A.'KNDMENT NO., 1

V 0

0

4 EP TABLE 5.7-1 COHPONENT CYCLIC OR TRANSIENT L IHITS

'I p

CYCLIC OR DESI(iN CYCLE COHPONENT TRANSIENT L IHIT OR TRANSIENT Reactor Coolant System 200 heatup cycles at < 100'F/hr Ileatup cycle - T from < 200'F and 200 cooldown cycles at to > 547'F.

< 100 F/hr (pressurizer cooldown CooTdown cycle - T from > 547'F at < 200'F/hr). to < 200 F.

80 loss of load cycles. Without immediate turbine or reactor trip.

40 cycles of loss of offsite Loss of offsite A.C. electrical A.C. electrical power. power source supplying the onsite Class lE distribution system.

80 cycles of loss of flow in one Loss of only one reactor reactor coolant loop. coolant pump.

400 reactor trip cycles. 100K to OX of RATED TilERHAL POWER.

200 large step decreases in load. lOOX to 5X of RATED TllERHAL POWER with steam dump.

V I) 0

7 Thli~LE 5. -i {Conl inured rn~voNLNT CYCLIC OR TRRISIENT LiwiTS CYCLIC OA nCSlrN CYCLE COMPONENT TRRNSIENT LllilT OR TRR[ISIENT Reactor Coolant 1 mackin reactor coolant pipe break. Break in a reactor coolant. pipe > 6 inches System equiva)ent diameter.

Operating Oasis Earthquakes 400 cyc I es - 20 earthquakes o f 20 cycl es each.

50 leak tests. Pressurized to 2500 psia 5 hydrostatic pressure tests Pressurized to 3107 psig.

Secondary System 1 steam line break Break in a steam line > 5.5 inches equivalent diameter.

5 hydrostatic pressure tests Pressurized to 1356 psig.

f1, g

0

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