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{{#Wiki_filter:Attachment 1St.Lucz.eUnits1Marked-Up Technical Specification PagesPages3/4-223/4-24B3/44-129'112270257 9112i7PDRADOCK05000335PD1%
{{#Wiki_filter:Attachment   1 St. Lucz.e  Units 1 Marked-Up Technical Specification Pages Pages 3/4-22 3/4-24 B 3/4 4-12 9'112270257 9112i7 PDR  ADOCK 05000335 PD1%
REACTORCOOLANTSYSTEMSURVEILLANCE REUIREMENTS 4.4.9.1a.TheReactorCoolantSystemtemperature andpressureshallbedetermined tobewithinthelimitsatleastonceper30minutesduringsystemheatup,cooldown, andinservice leakandhydrostatic testingoperations.
 
b.TheReactorCoolantSystemtemperature andpressureconditions shallbedetermined tobetotherightofthecriticality limitlinewithin15minutespriortoachieving reactorcriticality.
REACTOR COOLANT SYSTEM SURVEILLANCE RE UIREMENTS 4.4.9.1
c.Thereactorvesselmaterialirradiation surveillance specimens shallberemovedandexamined, todetermine chansinmaterialIIII'resultsoftheseexaminations shallbeuseoupateres3.4-a,3.4-2band3.4-3.DEL~~a~aa.~P~~V3AQ95PE.Qu>mOSY)CCFa.5u~APP~~Gi~H.ST.LUCIE-UNIT13/44-22Amendment No.81 OTABLE4.4-5Specimencation~oVeseVESSELHATERIALIRRADIATION SURVEILLANCE SCHEDULEApproximate Removal>>Predicted FluenceScheduleEFPY~ncm'7~(1)104284'63'77'3 1.5421.021.541.54.6710182132Standb~5.5x10'.78x101.58x10"'"2.78x10"4.24x101)Infoationforthiscapsuleisactual2)Rloofcapsulefluencedividedbythefluenceatthecontrolling veld3pproxiaate endoflife1/4Tfluence
: a. The Reactor Coolant System temperature and pressure shall be determined to be within the limits at least once per 30 minutes during system heatup, cooldown, and inservice leak and hydrostatic testing operations.
'I~~~~~4 REACTORCOOLANTSYSTEMBASESforpiping,pumpsandvalves.Belowthistemperature, thesystempressuremustbelimitedtoamaximumof20%ofthesystem'shydrostatic testDELVEpressureof3125psia.Thelimfations imposedonthepressurizer heatupandcooldownratesandspraywatertemperature differential areprovidedtoassurethatthepressurizer isoperatedwithinthedesigncriteriaassumedforthefati-gueanalysisperformed inaccordance withtheASMECoderequirements.
: b. The Reactor Coolant System temperature and pressure conditions shall be determined to be to the right of the  criticality limit line within 15 minutes prior to achieving reactor
3/4.4.10STRUCTURAL INTEGRITY Theinservice inspection programforASMECodeClass1,2and3components ensurethatthestructural fntegrftyofthesecomponents'ill bemaintained atanacceptable levelthroughout thelifeoftheplant.Thisprogramfsfnaccordance withSectionXIoi'heASMEBoilerandPressureVesselCodeandapplicable Addendaasrequiredby10CFRPart50.55a(g) exceptwherespecificwrittenreliefhasbeengrantedbytheCommission pursuantto10CFRPart50.55a(g)(6)(f).
: c. The I'
Components ofthereactorcoolantsystemweredesignedtoprovideaccesstopermftinservfce inspections inaccordance withSectionXIoftheASMEBoilerandPressureVesselCode1971EditionandAddendathroughWfnter1972.ST.LUGIE-UNIT1B3(44~12Amendment No.90 Attachment 2St.LucieUnit2Marked-Up Technical 8pecification PagesPagesXXIV3/44-303/44-33B3/44-11  
criticality.
~~  
reactor vessel material irradiation surveillance specimens shall be removed and examined, to determine chan s in material I I I of these examinations shall be use 3.4-2b and 3.4-3.
~~L:STOFTAcL=(Con-.inued))NOEÃi'8L.3.3-94.3>>63.3-10REMOTESHUTDOWNSYSTEMiNSTRUMEHTATION..
o up ate    res results 3.4- a, DEL~~ a~a a.~P~~
REMOTESHUTDOWNSYSTEMIt(STRUMEtlTATiOH SURVEILLANCE REqUIREMEilTS.........,.............
V3AQ 95  PE.Qu>mO SY      )C CFa.5u ~
ACCvDE)'lTMONITORING INSTRUMENTATION PAGc,3/43-393/43-403/<3-424.3-i3.3-113.3-124.3-83.3-134,3-9ACCIDENTMONITORIHG INSTRUMEHTATIOt<
APP~~Gi~ H.
SURVEiL)LANCE REQUIREMENTS....,.....................
ST. LUCIE - UNIT  1              3/4 4-22                Amendment No. 81
3/<3-43/FIREDET)EC>IONINSTRUMENTS......................
 
3/43-45RAOIOAC;IVELigLIDEFFLUENTMONITORING itlST)?UMENTATIOH....
O TABLE  4.4-5 VESSEL HATERIAL IRRADIATION SURVEILLANCE SCHEDULE Specimen                cation ~                       Approximate Removal>>   Predicted Fluence o      Ve se                                            Schedule EFPY ~             n cm'7
3/<3-49RADI'OACTIVE LIQUIDEFFLUEHTMONITORING INSTRUMENTATION SURVEIL&tlCE REQUIREMENTS.
                      ~ (1)
~,...................
: 1. 54                     .67              5.5  x 10'.78 104                                  2                  10                            x 10 1.02                    18                  1.58 x 10"'"
~3/<3>>51RADIOACTIVE GASEOUSEFFLUEHTMONITORING ItlSTRUMENTATION...
284'63'77'3                      1.54                    21                  2.78 x 10" 32                  4.24 x            10 1.54                Standb~
3/43-54RAD.IOACTIVE GAScOUSEFFLUEHTMONITORING ii'lSTRUMEHTATIOH SURVEILLANCE REqUIREMEHTS
: 1)   Info ation for this capsule is actual
........3/43-Si4.4-14.4-23.4-134,13MINiMUMtlUMBEROFSTEAMGEHERA70RS 70BEINSPEC"DDURINGIHSERVICE Ii'lSP~CTION.
: 2)   R      lo of capsule fluence divided by the fluence at the controlling veld 3      pproxiaate end of life 1/4T fluence
STc.4'E)'l~RATOR TUBEIHSPECTiON....,...................
 
REACTOP,COOLANTSYSTEMPRESSUREISOLATiON VALVESRD~CTORCOOLANTSYSTEMCHEMISTRY.
  'I
RACTORCOOLANTSYS)cMCHEMISTRY LMITSSURVEILLnllCREQUIRE)MENTS
~ ~
~~3/<"-163/<4-173/d.4-21)3/-'-43PRIMARYCOOLANTPROGRAM...
  ~
SPCIFiCAC:IVITYSAMPANOnslAL.iS>>p~>></3.5-1COHTAIHMEHT L="4K"GE.PATHS.CON)'IHMEHT
~
!SOL.'7'.Cll VALV-"/1'I>>~~~~~~~~~~~~~vlvv\\vSI~LUCI>>UNI>2-'.-endmen".
    ~ 4
No.B' REACTORCOOLANTSYSTEMSURVEILLANCE REUIREMENTS (Continued) 4.4.9.l.2Thereactorvesselmaterialirradiation surveillance specimens shallberemovedandexaminedtodetermine chanesinmaterialroertieseresultsoftheseexaminations saeuefigures3.4-2,3.4-3and3.4-4.M~E.n~oamp'.4Q~TpEgu<~~~~i~OCHER,5oAPPED@))~
 
H.ST.LUCIE-UNIT23/44-30Amendment No.f8,3l  
REACTOR COOLANT SYSTEM BASES for piping,   pumps and  valves. Below    this temperature, the system pressure must be    limited to a maximum of    20% of the system's hydrostatic test        DELVE pressure of 3125 psia.
~~C~C:mTABLE4.4-5REACTORVESSELHATERIALSURVEILLANCE PROGRAH-WITHDRAWAL SCHEDULEC:CAPSULERNFR12356VESSELLOCATION83971043cR2770284LEADFACTOR(1<<1.5(1.5<I.5<1~5<1.5WITHDRAWAL TINEEFPY1.024~0STANDBY12.0STANDBYANDBYDI
The  limfations    imposed on the  pressurizer heatup and cooldown rates and spray    water temperature differential are provided to assure that the pressurizer is operated within the design criteria assumed for the fati-gue analysis performed in accordance with the ASME Code requirements.
~~~~~~REACTORCOOLANTSYSTEMBASESTheactualshiftinRTTofthevesselmaterialwillbeestablished periodical duringopeatiIbyremovingandevaluating, inaccordance withASTME185and10CFppendixH,reactorvesselmaterialitradiation surveil-ancespecimens installed neartheinsidewallofthereactorvesselinthe~fcorecree.~~veSincethenleuronspectraaerraaonsampesanvessenseraiusaeessentially identical, themeasuredtransition shiftforasamplecanbeappliedwithconfidence totheadjacentsectionofthereactorvessel.Theheatupandcooldowncurvesmustberecalculated whenthedeltaRTdetermined fromthesurveillance capsuleisdifferent fromthecalculated IINtaRTforeuivalentcasuleradiation exosure.Thepressure-temperature limitlinesshownonFigures3.4-2,3.4-3and3.4-4forreactorcriticality andforinservice leakandhydrostatic testinghavebeenprovidedtoassurecompliance withtheminimumtemperature requirements ofAppendixGto10CFR50.ThemaximumRT>>forallReactorCoolantSystempressure-retaining materials, withthe5xception ofthereactorpressurevessel,hasbeendetermined tobe60'F.TheLowestServiceTemperature limitlineshownonFigures3.4-2,3.4-3and3.4-4isbaseduponthisRTsinceArticleNB-2332(SumserAddendaof1972)ofSectionIIIoftheASIDEIlierandPressureVesselCoderequirestheLowestServiceTemperature tobeRTD+100'Fforpiping,pumps,andvalves.Belowthistemperature, thesysteNjfressure mustbelimitedtoamaximumof20%ofthesystem'shydrostatic testpressureof3125psfa.Thelimitations imposedonthepressurizer heatupandcooldownratesandspraywatertemperature differential areprovidedtoassurethatthepressurizer isoperatedwithinthedesigncriteriaassumedforthefatigueanalysisperformed inaccordance withtheASMECoderequirements.
3/4.4.10    STRUCTURAL INTEGRITY The  inservice inspection program for ASME Code Class 1, 2 and 3 components    ensure that the structural fntegr fty of these components'ill be maintained at an acceptable level throughout the life of the plant.
TheOPERABILITY oftwoPORVs,twoSDCRVsoranRCSventopeningofgreaterthan3.58squareinchesensuresthattheRCSwillbeprotected frompressuretransients whichcouldexceedthelimitsofAppendix0to10CFRPart50whenoneormoreoftheRCScoldlegtemperatures arolessthanorequaltotheLTOPtemperatures'.
This program fs fn accordance with Section XI oi'he ASME Boiler and Pressure Vessel Code and applicable Addenda as required by 10 CFR Part 50.55a(g) except where specific written relief has been granted by the Commission pursuant to 10 CFR Part 50.55a(g)(6)(f).
TheLowTemperature Overpressure Protection Systemhasadequaterelieving capability
Components   of the reactor coolant system were designed to provide access  to permft inservfce inspections in accordance with Section XI of the ASME Boiler and Pressure Vessel Code 1971 Edition and Addenda through Wfnter 1972.
.toprotecttheRCSfromoverpressurizhtion whenthetransient
ST. LUG IE  - UNIT  1                  B  3(4 4~12              Amendment No. 90
$slimitedtoeither(1)asafetyin)ection actuation inawater-solid RCSwith'thepressurizer heatersenergized or(2)thestartofanidleRCPwtth'hesecondary water.temperature ofthe.steamgenerator lessthanorequalto40'FabovetheRCScoldlegtemperatures withthepressurtzer water-solid.
 
ST.LUCIE-UNIT2B3/44-11Amendment No.Jl,3V.46, J~~~~~
Attachment   2 St. Lucie Unit 2 Marked-Up Technical 8pecification Pages Pages XXIV 3/4 4-30 3/4 4-33 B  3/4 4-11
Attachment 3SafetAnalsisIntroduction ThischangeisproposedtorevisetheSt.LucieUnits1and2Technical Specifications toremoveTable4.4-5,ReactorVesselMaterialSurveillance ProgramWithdrawal
 
: Schedule, andanyreferences tothetablefromtheTechnical Specifications.
~ ~
Theappropriate reactorvesselmaterialwithdrawal schedules havealreadybeenincorporated inTable5.4-3oftheUnit1FUSARandTable5.3-9oftheUnit2FUSAR.Discussion Inaccordance withGenericLetter91-01,theproposedchangetotheSt.LucieUnits1and2Technical Specifications revisestheReactorCoolantSystemSection3/4.4.9,Pressure/Temperature Limits,byremovingTable4.4-5andanyreferences tothetablefromtheTechnical Specifications.
~~
AppendixHSectionII.B.'3of10CFRPart50,states,that:."Aproposedwithdrawal schedulemustbesubmitted withatechnical justification asspecified in10CFR50.4.Theproposedschedulemustbeapprovedpriortoimplementation."
                                            )NOE&#xc3; L:ST    OF TAc L=   (Con-.i nued) i'8L.                                                                                       PAGc, 3.3-9        REMOTE SHUTDOWN SYSTEM iNSTRUMEHTATION..                                        3/4 3-39 4.3>>6        REMOTE SHUTDOWN SYSTEM It(STRUMEtlTATiOH SURVEILLANCE REqUIREMEilTS.........,.............                                           3/4 3-40 v
HavingthisscheduleintheTechnical Specifications duplicates thecontrolonchangestothisschedulethathasbeenpreviously established in10CFR50AppendixH.Thelimitingconditions foroperation (LCO)fortheReactorCoolantSystemincludeoperating limitsonpressureandtemperature thataredefinedinFigures3.4-2a,3.4-2band3.4-3oftheSt.LucieUnit1Technical Specifications andFigures3.4-2,3.4-3,3.4-4oftheSt.LucieUnit2Technical Specifications.
3.3-10      ACC DE)'lT MONITORING INSTRUMENTATION                                          3/< 3-42 4.3-i        ACCIDENT MONITORIHG INSTRUMEHTATIOt< SURVEiL)LANCE REQUIREMENTS....,.....................     /
Theyprovideanacceptable regionforoperation duringheatup,cooldown, criticality, andinservice leakandhydrostatic testing.Thesurveillance requirement associated withthisLCOaddresses thefrequency ofverifying that,operation iswithinthespecified limitsduringtheseoperating conditions.
3/< 3-43
Alsoincludedisanadditional surveillance requirement thatstates(Thereactorvesselmaterialirradiation surveillance specimens shallberemovedandexamined, todetermine changesinmaterialproperties, attheintervals requiredby10CFR50AppendixHinaccordance withthescheduleinTable4.4-5.Theresultsoftheseexaminations shallbeusedtoupdateFigures3.4-2a,3.4-2band3.4-3-for theSt.LucieUnit1Technical Specifications andFigures3.4-2,3.4-3,and3.4-4fortheSt.LucieUnit2Technical Specifications."
: 3. 3-11      FIRE  DET)EC> ION  INSTRUMENTS......................                           3/4 3-45 3.3-12      RAOIOAC; IVE    LigLID EFFLUENT  MONITORING itlST)?UMENTATIOH....               3/< 3-49 4.3-8        RADI'OACTIVE LIQUID EFFLUEHT MONITORING INSTRUMENTATION SURVEIL&tlCE REQUIREMENTS.         ~,       ...................             ~ 3/<   3>>51
TheproposedchangewouldremoveTable4.4-5,andanyreferences tothetablefromtheTechnical Specifications.
: 3. 3-13      RADIOACTIVE GASEOUS EFFLUEHT MONITORING ItlSTRUMENTATION...                     3/4 3-54 4, 3-9      RAD.IOACTIVE GAScOUS EFFLUEHT MONITORING ii'lSTRUMEHTATIOH SURVEILLANCE REqUIREMEHTS                                       ........       3/4 3-Si
Becausethesurveillance
: 4. 4-1      MINiMUM tlUMBER OF STEAM GEHERA70RS 70 BE INSPEC "D DURING IHSERVICE Ii'lSP~CTION.                                                 3/< "-16 4.4-2        STc.4'E)'l~RATOR TUBE    IHSPECTiON....,...................               ~ ~ 3/< 4-17 3.4-1        REACTOP, COOLANT SYSTEM PRESSURE    ISOLATiON VALVES                          3/d. 4-21) 3            RD~CTOR COOLANT SYSTEM CHEMISTRY.                                              3/-'-43 4,1  3      R  ACTOR COOLANT SYS) cM CHEMISTRY L MITS SURVE        ILLnllC REQUIRE)MENTS PRIMARY COOLANT SP    CIFiC AC: IVITY SAMP    ANO  nslAL. iS
'l' requirement specifies thattheresultsoftheseexaminations shallbeusedtoupdateFigures3.4-2a,3.4-2band3.4-3forSt.LucieUnit1and3.4-2,3.4-3and3.4-4forSt.LucieUnit2forthepressureandtemperature limitsthisrequirement willberetained.
                                                                                                </ p
St.LucieUnits1and2Technical Specification BasesSection3/4.4.9,Pressure/Temperature Limits,givesadetaileddescription ofthebasesforthisLCOandtherelatedsurveillance requirements.
                                                                                                      ~
TheStandardTechnical Specification (STS)basesreferences Table4.4-5whichprovidesthescheduleforsurveillance specimenwithdrawal.
PROGRAM...
ThisBasesSectionprovidesconsiderable background information ontheuseof.thedatagatheredfrommaterialspecimens.
                                                                                                  / 1 'I  >> ~
Thisbackground information clearlydefinestheobjective ofthisdataasitrelatesto10CFR50AppendixHandtheAmericanSocietyofMechanical Engineers (ASME)Code.Deletionofthereference toTable4.4-5doesnotaffectthecontentofthissection.Conclusion Thereactorvesselmaterialwithdrawal schedules havealreadybeenincorporated intotheUnit1and2FUSAR.RemovingthemfromtheUnit1and2Technical Specifications willnotresultinanylossofclarityorcontrolovertheregulatory requirements of10CFR50AppendixH.
: 3. 5-1      COHTAIHMEHT L="4K"GE. PATHS.                           ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~  vl    v  v CON)'IHMEHT !SOL.'7'.Cll VALV-"                                                 \       \ v S I ~ LUCI>> UNI   > 2                                         -'.-endmen". No. B
J Attachment 4Determination ofNoSinificantHazardsConsideration Thestandards usedtoarriveatadetermination thatarequestforamendment involvesnosignificant hazardsconsideration areincludedintheCommissions regulation, 10CFR50.92,whichstatethatnosignificant hazardsconsiderations areinvolvediftheoperation ofthefacilityinaccordance withtheproposedamendment wouldnot(1)involveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated; or(2)createthepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated; or(3)involveasignificant reduction inamarginofsafety.Eachstandardisdiscussed asfollows:(1)Operation ofthefacilityinaccordance withtheproposedamendment wouldnotinvolveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated.
 
Theproposedamendment changedoesnotinvolveasignificant increaseintheprobability orconsequences ofanaccidentpreviously evaluated becausetheregulatory requirement of10CFR50AppendixHwillremainineffectintheTechnical Specifications.
REACTOR COOLANT SYSTEM SURVEILLANCE RE UIREMENTS      (Continued) 4.4. 9. l. 2 The reactor vessel material irradiation surveillance specimens shall be removed and examined to determine chan es in material ro erties e results of these examinations s a    e u e figures  3.4-2, 3.4-3  and 3.4-4.
RemovingTable4.4-5,andanyreferences toit,willnotresultinanylossofregulatory controlbecausechangestothisschedulearecontrolled bytherequirements of10CFR50AppendixH.(2)Useofthemodifiedspecification wouldnotcreatethepossibility ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated.
M~E. ~Tpn~o amp'.
Theuseofthismodifiedspecification cannotcreatethepossibility ofanewordifferent kindofaccidentfromanypreviously evaluated becauseaspreviously statedinAppendixHSectionII.B.3of10CFR50,thelicenseemusthaveawithdrawal scheduleapprovedbytheNRCpriortoimplementation.
4Q
ByremovingTable4.4-5,andanyreferences tothattable,FPLwillonlyeliminate duplication ofarequirement thatitalreadyadherestoin10CFR50AppendixH.(3)Useofthemodifiedspecification wouldnotinvolvesignificant reduction inamarginofsafety.ByremovingTable4.4-5themarginofsafetywouldnotbecompromised becausethesurveillance requirement stillrequiressurveillance specimens toberemovedandexamined, todetermine changesinmaterialproperties, atintervals requiredby10CFR50AppendixH.Inadditiontheresultsof
                                                                            ~OCHER, Egu<~~       ~~i         5o APPED@))~ H.
ST. LUCIE   - UNIT 2                    3/4 4-30      Amendment No. f8, 3l
 
                                                                                                    ~ ~
C ~
TABLE 4.4-5 C:
REACTOR VESSEL HATERIAL SURVEILLANCE PROGRAH   - WITHDRAWAL SCHEDULE m
CAPSULE          VESSEL                        LEAD C:
RNFR            LOCATION                      FACTOR                      WITHDRAWAL TINE EFPY 1                83                            (1                           1.0 2                97                            <<1.5                         24 0
                                                                                  ~
3                104                            (1.5                         STANDBY 3cR                        <I.5                         12. 0 5                2770                          <1 ~ 5                       STANDBY 6                284                            <1.5                          ANDBY DI
 
    ~   ~
  ~       ~
~     ~
REACTOR COOLANT SYSTEM BASES The actual shift in      RT    of the vessel material will  be  established periodical       during ope    atiITby  removing and evaluating, in accordance with ASTM E185        and 10 CF      ppendix H, reactor vessel material it radiation surveil-ance specimens      installed   near the inside wall of the reactor vessel in the f
core cree.
Since the
                            ~~ve nleu  ron spectra  a    e rr a a on samp es an vesse        ns e ra ius a e essentially identical, the measured transition shift for a sample can be applied with confidence to the adjacent section of the reactor vessel. The heatup and
              ~
cooldown curves must be recalculated when the delta RT              determined from the surveillance capsule is different from the calculated IINta RT                for e uivalent ca sule radiation ex osure.
The pressure-temperature       limit lines shown on Figures 3.4-2, 3.4-3 and 3.4-4 for reactor criticality and for inservice leak and hydrostatic testing have been provided to assure compliance with the minimum temperature requirements of  Appendix    G  to  10 CFR 50.
The maximum RT>> for all Reactor Coolant System pressure-retaining materials, with the 5xception of the reactor pressure vessel, has been determined to be 60'F. The Lowest Service Temperature limit line shown on Figures 3.4-2, 3.4-3 and 3.4-4 is based upon this RT            since Article NB-2332 (Sumser Addenda Code of 1972) of Section III of the ASIDE requires the Lowest Service Temperature to be RT Ilier  and Pressure Vessel
                                                                              + 100'F for piping, pumps, and valves.         Below this temperature, the systeN Djfressure must be limited to a maximum of 20% of the system's hydrostatic test pressure of 3125 psfa.
The limitations imposed on the pressurizer heatup and cooldown rates and spray water temperature differential are provided to assure that the pressurizer is operated within the design criteria assumed for the fatigue analysis performed in accordance with the ASME Code requirements.
The OPERABILITY of two PORVs, two SDCRVs or an RCS vent opening of greater than 3.58 square inches ensures that the RCS will be protected from pressure transients which could exceed the limits of Appendix 0 to 10 CFR Part 50 when one or more of the RCS cold leg temperatures aro less than or equal to the LTOP temperatures'.       The Low Temperature Overpressure Protection System has adequate relieving capability .to protect the RCS from overpressurizhtion when the transient $ s limited to either (1) a safety in)ection actuation in a water-solid RCS with 'the pressurizer heaters energized or (2) the start of            an idle  RCP  wtth'he      secondary water. temperature of the. steam generator less than or equal to 40'F above the RCS cold leg temperatures with the pressurtzer water-solid.
ST. LUCIE   -   UNIT 2                          B 3/4 4-11                Amendment No. Jl, 3V.46,
 
J ~
~   ~
      ~ ~
 
Attachment 3 Safet  Anal sis Introduction This change is proposed to revise the St. Lucie Units 1 and 2 Technical Specifications to remove Table 4.4-5, Reactor Vessel Material Surveillance Program Withdrawal Schedule, and any references to the table from the Technical Specifications.       The appropriate reactor vessel material withdrawal schedules have already been incorporated in Table 5.4-3 of the Unit 1 FUSAR and Table 5.3-9 of the Unit 2 FUSAR.
Discussion In accordance with Generic Letter 91-01, the proposed change to the St. Lucie Units 1 and 2 Technical Specifications revises the Reactor Coolant System Section 3/4.4.9, Pressure/Temperature Limits, by removing Table 4.4-5 and any references to the table from the Technical Specifications.
Appendix H Section II.B.'3 of 10 CFR Part 50, states, that:. "A proposed withdrawal schedule must be submitted with a technical justification as specified in 10 CFR 50.4. The proposed schedule must be approved prior to implementation." Having this schedule in the Technical Specifications duplicates the control on changes to this schedule that has been previously established in 10 CFR 50 Appendix H.
The limiting conditions for operation (LCO) for the Reactor Coolant System include operating limits on pressure and temperature that are defined in Figures 3.4-2a, 3.4-2b and 3.4-3 of the St. Lucie Unit 1 Technical Specifications and Figures 3.4-2, 3.4-3, 3.4-4 of the St. Lucie Unit 2 Technical Specifications.     They provide an acceptable  region for operation during heatup,           cooldown, criticality, and inservice leak and hydrostatic testing.       The surveillance requirement associated with this LCO addresses the frequency of verifying that,operation is within the specified limits during these operating conditions. Also included is an additional surveillance requirement that states(       The reactor vessel material irradiation surveillance specimens shall be removed and examined, to determine changes in material properties, at the intervals required by 10 CFR 50 Appendix H in accordance with the schedule in Table 4.4-5. The results of these examinations shall be used to update Figures 3.4-2a, 3.4-2b and 3.4-3-for the St. Lucie Unit 1 Technical Specifications and Figures 3.4-2, 3.4-3, and 3.4-4 for the St. Lucie Unit 2 Technical Specifications." The proposed change would remove Table 4.4-5, and any references to the table from the Technical Specifications.       Because the surveillance
 
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requirement specifies that the results of these examinations shall be used to update Figures 3.4-2a, 3.4-2b and 3.4-3 for St. Lucie Unit 1 and 3.4-2, 3.4-3 and 3.4-4 for St. Lucie Unit 2 for the pressure and temperature limits this requirement will be retained.
St. Lucie Units 1 and 2 Technical Specification Bases Section 3/4.4.9, Pressure/Temperature Limits, gives a detailed description of the bases for this LCO and the related surveillance requirements. The Standard Technical Specification (STS) bases references Table 4.4-5 which provides the schedule for surveillance specimen withdrawal. This Bases Section provides considerable background information on the use of .the data gathered from material specimens. This background information clearly defines the objective of this data as  it relates to 10 CFR 50 Appendix H and the American Society of Mechanical Engineers (ASME) Code.
Deletion of the reference to Table 4.4-5 does not affect the content of this section.
Conclusion The  reactor vessel material withdrawal schedules have already been incorporated into the Unit 1 and 2 FUSAR. Removing them from the Unit 1 and 2 Technical Specifications will not result in any loss of clarity or control over the regulatory requirements of 10 CFR 50 Appendix H.
 
J Attachment   4 Determination of    No  Si  nificant  Hazards Consideration The standards used to arrive at a determination that a request for amendment    involves no significant hazards consideration are included in the Commissions regulation, 10 CFR 50.92, which state that no significant hazards considerations are involved operation of the    facility if the in accordance with the proposed amendment would not (1) involve a significant increase in the probability or consequences of an accident previously evaluated; or (2) create the possibility of a new or different kind of accident from any accident previously evaluated; or (3) involve a significant reduction in a margin of safety. Each standard is discussed as follows:
(1)   Operation of the    facility in accordance with the proposed amendment  would not involve a significant increase in the probability or consequences of an accident previously evaluated.
The proposed amendment      change does not involve a significant increase  in the probability or      consequences of an accident previously  evaluated because the regulatory requirement of 10 CFR 50 Appendix H will remain in effect in the Technical Specifications. Removing Table 4.4-5, and any references to it, will not result in any loss of regulatory control because changes to this schedule are controlled by the requirements of 10 CFR 50  Appendix H.
(2)   Use  of the modified specification would not create the possibility of a new or different kind of accident from any accident previously evaluated.
The use of this modified specification cannot create the possibility of a new or different kind of accident from any previously evaluated because as previously stated in Appendix H Section II.B.3 of 10 CFR 50, the licensee            must have a withdrawal schedule          approved    by the    NRC  prior to implementation. By removing Table 4.4-5, and any references to that table, FPL will only eliminate duplication of a requirement that it already adheres to in 10 CFR 50 Appendix H.
(3) Use    of the    modified    specification would not involve significant reduction in      a margin of safety.
By removing Table 4.4-5 the margin of safety would not be compromised    because    the surveillance requirement still requires surveillance specimens to be removed and examined, to determine changes in material properties, at intervals required by 10 CFR 50 Appendix H. In addition the results of
 
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theseexaminations shallbeusedtoupdatethefiguresforthepressureandtemperature operating limitsrequiredbytheTechnical Specifications.
these examinations shall be used to update the figures for the pressure and temperature operating limits required by the Technical Specifications.
Basedontheabove,wehavedetermined thattheproposedamendment doesnot(1)involveasignificant
Based on the above, we have determined that the proposed amendment does not (1) involve a significant increase, in the probability or consequences of an accident previously evaluated, (2) create the probability of a new or different kind of accident from any accident previously evaluated, or (3) involve a significant reduction in a margin of safety; and therefore does not involve a significant hazards consideration.
: increase, intheprobability orconsequences ofanaccidentpreviously evaluated, (2)createtheprobability ofanewordifferent kindofaccidentfromanyaccidentpreviously evaluated, or(3)involveasignificant reduction inamarginofsafety;andtherefore doesnotinvolveasignificant hazardsconsideration.
 
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Latest revision as of 13:03, 4 February 2020

Proposed Tech Specs,Deleting Table 4.4-5, Reactor Vessel Matl Irradiation Surveillance Schedule.
ML17223B389
Person / Time
Site: Saint Lucie  NextEra Energy icon.png
Issue date: 12/17/1991
From:
FLORIDA POWER & LIGHT CO.
To:
Shared Package
ML17223B388 List:
References
NUDOCS 9112270257
Download: ML17223B389 (20)


Text

Attachment 1 St. Lucz.e Units 1 Marked-Up Technical Specification Pages Pages 3/4-22 3/4-24 B 3/4 4-12 9'112270257 9112i7 PDR ADOCK 05000335 PD1%

REACTOR COOLANT SYSTEM SURVEILLANCE RE UIREMENTS 4.4.9.1

a. The Reactor Coolant System temperature and pressure shall be determined to be within the limits at least once per 30 minutes during system heatup, cooldown, and inservice leak and hydrostatic testing operations.
b. The Reactor Coolant System temperature and pressure conditions shall be determined to be to the right of the criticality limit line within 15 minutes prior to achieving reactor
c. The I'

criticality.

reactor vessel material irradiation surveillance specimens shall be removed and examined, to determine chan s in material I I I of these examinations shall be use 3.4-2b and 3.4-3.

o up ate res results 3.4- a, DEL~~ a~a a.~P~~

V3AQ 95 PE.Qu>mO SY )C CFa.5u ~

APP~~Gi~ H.

ST. LUCIE - UNIT 1 3/4 4-22 Amendment No. 81

O TABLE 4.4-5 VESSEL HATERIAL IRRADIATION SURVEILLANCE SCHEDULE Specimen cation ~ Approximate Removal>> Predicted Fluence o Ve se Schedule EFPY ~ n cm'7

~ (1)

1. 54 .67 5.5 x 10'.78 104 2 10 x 10 1.02 18 1.58 x 10"'"

284'63'77'3 1.54 21 2.78 x 10" 32 4.24 x 10 1.54 Standb~

1) Info ation for this capsule is actual
2) R lo of capsule fluence divided by the fluence at the controlling veld 3 pproxiaate end of life 1/4T fluence

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REACTOR COOLANT SYSTEM BASES for piping, pumps and valves. Below this temperature, the system pressure must be limited to a maximum of 20% of the system's hydrostatic test DELVE pressure of 3125 psia.

The limfations imposed on the pressurizer heatup and cooldown rates and spray water temperature differential are provided to assure that the pressurizer is operated within the design criteria assumed for the fati-gue analysis performed in accordance with the ASME Code requirements.

3/4.4.10 STRUCTURAL INTEGRITY The inservice inspection program for ASME Code Class 1, 2 and 3 components ensure that the structural fntegr fty of these components'ill be maintained at an acceptable level throughout the life of the plant.

This program fs fn accordance with Section XI oi'he ASME Boiler and Pressure Vessel Code and applicable Addenda as required by 10 CFR Part 50.55a(g) except where specific written relief has been granted by the Commission pursuant to 10 CFR Part 50.55a(g)(6)(f).

Components of the reactor coolant system were designed to provide access to permft inservfce inspections in accordance with Section XI of the ASME Boiler and Pressure Vessel Code 1971 Edition and Addenda through Wfnter 1972.

ST. LUG IE - UNIT 1 B 3(4 4~12 Amendment No. 90

Attachment 2 St. Lucie Unit 2 Marked-Up Technical 8pecification Pages Pages XXIV 3/4 4-30 3/4 4-33 B 3/4 4-11

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)NOEÃ L:ST OF TAc L= (Con-.i nued) i'8L. PAGc, 3.3-9 REMOTE SHUTDOWN SYSTEM iNSTRUMEHTATION.. 3/4 3-39 4.3>>6 REMOTE SHUTDOWN SYSTEM It(STRUMEtlTATiOH SURVEILLANCE REqUIREMEilTS.........,............. 3/4 3-40 v

3.3-10 ACC DE)'lT MONITORING INSTRUMENTATION 3/< 3-42 4.3-i ACCIDENT MONITORIHG INSTRUMEHTATIOt< SURVEiL)LANCE REQUIREMENTS....,..................... /

3/< 3-43

3. 3-11 FIRE DET)EC> ION INSTRUMENTS...................... 3/4 3-45 3.3-12 RAOIOAC; IVE LigLID EFFLUENT MONITORING itlST)?UMENTATIOH.... 3/< 3-49 4.3-8 RADI'OACTIVE LIQUID EFFLUEHT MONITORING INSTRUMENTATION SURVEIL&tlCE REQUIREMENTS. ~, ................... ~ 3/< 3>>51
3. 3-13 RADIOACTIVE GASEOUS EFFLUEHT MONITORING ItlSTRUMENTATION... 3/4 3-54 4, 3-9 RAD.IOACTIVE GAScOUS EFFLUEHT MONITORING ii'lSTRUMEHTATIOH SURVEILLANCE REqUIREMEHTS ........ 3/4 3-Si
4. 4-1 MINiMUM tlUMBER OF STEAM GEHERA70RS 70 BE INSPEC "D DURING IHSERVICE Ii'lSP~CTION. 3/< "-16 4.4-2 STc.4'E)'l~RATOR TUBE IHSPECTiON....,................... ~ ~ 3/< 4-17 3.4-1 REACTOP, COOLANT SYSTEM PRESSURE ISOLATiON VALVES 3/d. 4-21) 3 RD~CTOR COOLANT SYSTEM CHEMISTRY. 3/-'-43 4,1 3 R ACTOR COOLANT SYS) cM CHEMISTRY L MITS SURVE ILLnllC REQUIRE)MENTS PRIMARY COOLANT SP CIFiC AC: IVITY SAMP ANO nslAL. iS

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PROGRAM...

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3. 5-1 COHTAIHMEHT L="4K"GE. PATHS. ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ vl v v CON)'IHMEHT !SOL.'7'.Cll VALV-" \ \ v S I ~ LUCI>> UNI > 2 -'.-endmen". No. B

REACTOR COOLANT SYSTEM SURVEILLANCE RE UIREMENTS (Continued) 4.4. 9. l. 2 The reactor vessel material irradiation surveillance specimens shall be removed and examined to determine chan es in material ro erties e results of these examinations s a e u e figures 3.4-2, 3.4-3 and 3.4-4.

M~E. ~Tpn~o amp'.

4Q

~OCHER, Egu<~~ ~~i 5o APPED@))~ H.

ST. LUCIE - UNIT 2 3/4 4-30 Amendment No. f8, 3l

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TABLE 4.4-5 C:

REACTOR VESSEL HATERIAL SURVEILLANCE PROGRAH - WITHDRAWAL SCHEDULE m

CAPSULE VESSEL LEAD C:

RNFR LOCATION FACTOR WITHDRAWAL TINE EFPY 1 83 (1 1.0 2 97 <<1.5 24 0

~

3 104 (1.5 STANDBY 3cR <I.5 12. 0 5 2770 <1 ~ 5 STANDBY 6 284 <1.5 ANDBY DI

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REACTOR COOLANT SYSTEM BASES The actual shift in RT of the vessel material will be established periodical during ope atiITby removing and evaluating, in accordance with ASTM E185 and 10 CF ppendix H, reactor vessel material it radiation surveil-ance specimens installed near the inside wall of the reactor vessel in the f

core cree.

Since the

~~ve nleu ron spectra a e rr a a on samp es an vesse ns e ra ius a e essentially identical, the measured transition shift for a sample can be applied with confidence to the adjacent section of the reactor vessel. The heatup and

~

cooldown curves must be recalculated when the delta RT determined from the surveillance capsule is different from the calculated IINta RT for e uivalent ca sule radiation ex osure.

The pressure-temperature limit lines shown on Figures 3.4-2, 3.4-3 and 3.4-4 for reactor criticality and for inservice leak and hydrostatic testing have been provided to assure compliance with the minimum temperature requirements of Appendix G to 10 CFR 50.

The maximum RT>> for all Reactor Coolant System pressure-retaining materials, with the 5xception of the reactor pressure vessel, has been determined to be 60'F. The Lowest Service Temperature limit line shown on Figures 3.4-2, 3.4-3 and 3.4-4 is based upon this RT since Article NB-2332 (Sumser Addenda Code of 1972) of Section III of the ASIDE requires the Lowest Service Temperature to be RT Ilier and Pressure Vessel

+ 100'F for piping, pumps, and valves. Below this temperature, the systeN Djfressure must be limited to a maximum of 20% of the system's hydrostatic test pressure of 3125 psfa.

The limitations imposed on the pressurizer heatup and cooldown rates and spray water temperature differential are provided to assure that the pressurizer is operated within the design criteria assumed for the fatigue analysis performed in accordance with the ASME Code requirements.

The OPERABILITY of two PORVs, two SDCRVs or an RCS vent opening of greater than 3.58 square inches ensures that the RCS will be protected from pressure transients which could exceed the limits of Appendix 0 to 10 CFR Part 50 when one or more of the RCS cold leg temperatures aro less than or equal to the LTOP temperatures'. The Low Temperature Overpressure Protection System has adequate relieving capability .to protect the RCS from overpressurizhtion when the transient $ s limited to either (1) a safety in)ection actuation in a water-solid RCS with 'the pressurizer heaters energized or (2) the start of an idle RCP wtth'he secondary water. temperature of the. steam generator less than or equal to 40'F above the RCS cold leg temperatures with the pressurtzer water-solid.

ST. LUCIE - UNIT 2 B 3/4 4-11 Amendment No. Jl, 3V.46,

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Attachment 3 Safet Anal sis Introduction This change is proposed to revise the St. Lucie Units 1 and 2 Technical Specifications to remove Table 4.4-5, Reactor Vessel Material Surveillance Program Withdrawal Schedule, and any references to the table from the Technical Specifications. The appropriate reactor vessel material withdrawal schedules have already been incorporated in Table 5.4-3 of the Unit 1 FUSAR and Table 5.3-9 of the Unit 2 FUSAR.

Discussion In accordance with Generic Letter 91-01, the proposed change to the St. Lucie Units 1 and 2 Technical Specifications revises the Reactor Coolant System Section 3/4.4.9, Pressure/Temperature Limits, by removing Table 4.4-5 and any references to the table from the Technical Specifications.

Appendix H Section II.B.'3 of 10 CFR Part 50, states, that:. "A proposed withdrawal schedule must be submitted with a technical justification as specified in 10 CFR 50.4. The proposed schedule must be approved prior to implementation." Having this schedule in the Technical Specifications duplicates the control on changes to this schedule that has been previously established in 10 CFR 50 Appendix H.

The limiting conditions for operation (LCO) for the Reactor Coolant System include operating limits on pressure and temperature that are defined in Figures 3.4-2a, 3.4-2b and 3.4-3 of the St. Lucie Unit 1 Technical Specifications and Figures 3.4-2, 3.4-3, 3.4-4 of the St. Lucie Unit 2 Technical Specifications. They provide an acceptable region for operation during heatup, cooldown, criticality, and inservice leak and hydrostatic testing. The surveillance requirement associated with this LCO addresses the frequency of verifying that,operation is within the specified limits during these operating conditions. Also included is an additional surveillance requirement that states( The reactor vessel material irradiation surveillance specimens shall be removed and examined, to determine changes in material properties, at the intervals required by 10 CFR 50 Appendix H in accordance with the schedule in Table 4.4-5. The results of these examinations shall be used to update Figures 3.4-2a, 3.4-2b and 3.4-3-for the St. Lucie Unit 1 Technical Specifications and Figures 3.4-2, 3.4-3, and 3.4-4 for the St. Lucie Unit 2 Technical Specifications." The proposed change would remove Table 4.4-5, and any references to the table from the Technical Specifications. Because the surveillance

l'

requirement specifies that the results of these examinations shall be used to update Figures 3.4-2a, 3.4-2b and 3.4-3 for St. Lucie Unit 1 and 3.4-2, 3.4-3 and 3.4-4 for St. Lucie Unit 2 for the pressure and temperature limits this requirement will be retained.

St. Lucie Units 1 and 2 Technical Specification Bases Section 3/4.4.9, Pressure/Temperature Limits, gives a detailed description of the bases for this LCO and the related surveillance requirements. The Standard Technical Specification (STS) bases references Table 4.4-5 which provides the schedule for surveillance specimen withdrawal. This Bases Section provides considerable background information on the use of .the data gathered from material specimens. This background information clearly defines the objective of this data as it relates to 10 CFR 50 Appendix H and the American Society of Mechanical Engineers (ASME) Code.

Deletion of the reference to Table 4.4-5 does not affect the content of this section.

Conclusion The reactor vessel material withdrawal schedules have already been incorporated into the Unit 1 and 2 FUSAR. Removing them from the Unit 1 and 2 Technical Specifications will not result in any loss of clarity or control over the regulatory requirements of 10 CFR 50 Appendix H.

J Attachment 4 Determination of No Si nificant Hazards Consideration The standards used to arrive at a determination that a request for amendment involves no significant hazards consideration are included in the Commissions regulation, 10 CFR 50.92, which state that no significant hazards considerations are involved operation of the facility if the in accordance with the proposed amendment would not (1) involve a significant increase in the probability or consequences of an accident previously evaluated; or (2) create the possibility of a new or different kind of accident from any accident previously evaluated; or (3) involve a significant reduction in a margin of safety. Each standard is discussed as follows:

(1) Operation of the facility in accordance with the proposed amendment would not involve a significant increase in the probability or consequences of an accident previously evaluated.

The proposed amendment change does not involve a significant increase in the probability or consequences of an accident previously evaluated because the regulatory requirement of 10 CFR 50 Appendix H will remain in effect in the Technical Specifications. Removing Table 4.4-5, and any references to it, will not result in any loss of regulatory control because changes to this schedule are controlled by the requirements of 10 CFR 50 Appendix H.

(2) Use of the modified specification would not create the possibility of a new or different kind of accident from any accident previously evaluated.

The use of this modified specification cannot create the possibility of a new or different kind of accident from any previously evaluated because as previously stated in Appendix H Section II.B.3 of 10 CFR 50, the licensee must have a withdrawal schedule approved by the NRC prior to implementation. By removing Table 4.4-5, and any references to that table, FPL will only eliminate duplication of a requirement that it already adheres to in 10 CFR 50 Appendix H.

(3) Use of the modified specification would not involve significant reduction in a margin of safety.

By removing Table 4.4-5 the margin of safety would not be compromised because the surveillance requirement still requires surveillance specimens to be removed and examined, to determine changes in material properties, at intervals required by 10 CFR 50 Appendix H. In addition the results of

~"

these examinations shall be used to update the figures for the pressure and temperature operating limits required by the Technical Specifications.

Based on the above, we have determined that the proposed amendment does not (1) involve a significant increase, in the probability or consequences of an accident previously evaluated, (2) create the probability of a new or different kind of accident from any accident previously evaluated, or (3) involve a significant reduction in a margin of safety; and therefore does not involve a significant hazards consideration.

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