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| {{#Wiki_filter:3/4.1REACTIVITYNTROLSYSTEMS3/4.1.1BORATIONCONTROLSHUTDOWNMARGIN-T>200.FLIMITINGCONDITIONFOROPERATION3.1.1.1TheSHUTDOWNMARGINshallbe>5.0%%k/k.APPLICABILITY:MODES1,2*,3and4.ACTION:WiththeSHUTDOWNMARGIN<5.0/gk/k,immediatelyinitiateandcontinueborationat>40gpmof1720ppmboronorequivalentuntiltherequiredSHUTDOWNMARGTNisrestored.SURVEILLANCEREUIREMENTS4.1.1.1.1TheSHUTDOWNMARGINshallbedeterminedtobe>5.0g,hk/k:a~b.C>>d.WithinonehourafterdetectionofaninoperableCEA(s)andatleastonc'eper12hoursthereafterwhiletheCEA(s)isinoperable.IftheinoperableCEAisimmovableoruntrippable,theabove.requiredSHUTDOWNMARGINshallbeincreasedbyanamountatleastequaltothewithdrawnworth'ftheimmovableoruntrippableCEA(s).ltheninMODES1or2g,at-leastonceper12hoursbyverifyingthatCEAgroupwithdrawaliswithinthePowerDependentInsertionLimitsofSpecification3.1.3.6.WheninMODE2gg,atleastonceduringCEAwithdrawalandatleastonceperhourthereafteruntilthereactoriscritical.Priortoinitialoperationabove5/RATEDTHERMALPOWERaftereachfuelloading,byconsiderationofthefactorsofebelow,withtheCEAgroupsatthePowerDependentInsertionLimitsofSpecification3.1.3.6.SeeSpecialTestException3.10.1.WithKeff>1.0WithKff<leO.STLUCIE-UNIT13/41-181091002iS8i0904PDRADOCKOS00033SPPDR 0I0~?fl*I'*4h\P REACTIVITYCONTROLSYSTEMSSURVEILLANCEREQUIREMENTSContinuede.WheninMODES3or4,atleastonceper24hoursbyconsiderationofthefollowingfactors:l.2.3.4,5.6.Reactorcoolantsystemboronconcentration,CEAposition*Reactorcoolantsystemaveragetemperature,Fuelburnupbasedongrossthermalenergygeneration,Xenonconcentration,andSamariumconcentration.4.1.1.1.2Theoverallcorereactivitybalanceshallbecomparedtopredictedvaluestodemonstrateagreementwithin+1.(Cak/katleastonceper31EffectiveFullPowerDays(EFPD).ThiscuoparisonshallconsideratleastthosefactorsstatedinSpecification4.1.l.l.l.e,above.Thepredicted.reactivityvaluesshallbe.adjusted(normalized)tocorrespondtotheactualcoreconditionspriortoexceedingafuelburnupof60EffectiveFullPowerDaysaftereachfuelloading.*ForModes3and=4,duringcalculationofshutdownmarginwithallCEA'sverifiedfully:inserted,thesingleCEAwiththe'highestreactivityworthneednotbeassumedtobe'stuckinthefullywithdrawnposition.ST.LUCIE-UNIT13/41-2 AEACTIVITY.CONTROLSYSTEMSMODERATORTEMPERATURECOEFFICIENTLIMITINGCONDITIONFOROPERATION3.1.1.4Themoderatortemperaturecoefficient(MTC)shallbe:a.Lesspositivethan0.5x104bk/k/'FwheneverTHERMALPOWERis<7'fRATEDTHERMALPOWER,b.Lesspositivethan0.2x1046,k/k/'FwheneverTHERMALPOWERis>7(gofRATEDTHERMALPOWER,andc.Lessnegativethan-2.2x104b,k/k/'FatRATEDTHERMALPOWER.'PPLICABILITY:MODES1.and2*4ACTION:Withthemoderatortemperaturecoefficientoutsideanyoneoftheabove,limits,,beinHOTSTANDBYwithin6hours.SURVEILLANCEREQUIREMENTS4.1.1.4.1TheMTCshallbedeterminedtobewithinitslimitsbyconfirmatorymeasurements.MTCmeasuredvaluesshallbeextrapolatedand/orcompensatedtopermitdirectcomparisonwiththeabovelimits.*WithKff>1.0.gSeeSpecialTestException3.10.2ST.LUCIE-UNIT13/41-5 | | {{#Wiki_filter:3/4.1 REACTIVITY NTROL SYSTEMS 3/4.1.1 BORATION CONTROL SHUTDOWN MARGIN - T > 200.F LIMITING CONDITION FOR OPERATION 3.1.1.1 The SHUTDOWN MARGIN shall be > 5.0%% k/k. |
| )<<,Y..v3/4.4REACTORCOTSYSTEMREACTORCOOLANTLOOPS'IMITINGCONDITIONFOROPERATION3.4.1Fourreactorcoolantpumpsshallbeinoperation.APPLICABILITY:Asnotedbelow,butexcludingMODE6.'CTION:MODES1and2:,'+.-"-"'Withlessthanfourreactorcoolantpumpsinoperation.beinatleastHOT;::;~:.STANDBYwithin6hours.4MODES3,4and5:Operationmayproceed"provided(1)atleastonereactorcoolant.loopisin'-'.-":;.-,operation,withanassociatedreactorcoolantpumporshutdowncoo'l,ingpumpand':-"(y(2)theSHUTOONNNARGIN'requirementofSpecification3.1.1.1isincreasedto""andmaintainedat>5.0g,hk/kduringoperationinflODE3whenlessthanfourreactorcoolantpumpsareinoperation.TheprovisionsofSpecifications3.0.3and3.0.4arenotapplicable.SURVEILLANCEREQUIREMENT4.4.1TheF1owDependentSelectorSwitchshallbedeterminedtobeinthe4pumppositionwithin15minutespriortomakingthereactorcritica'Iandatleastonceper12hoursthereafterAllreactorcoolantpumpsandshutdowncoolingpumpsmaybede-energizedforupto1hour,providednooperationsarepermittedwhichcouldcausedilutionofthereactorcoolantsystemboronconcentoation.ST.LUCIE-UNIT13/44-1 3/4.1REACTIVITNTROLSYSTEMSBASES3/4.1.1BORATIONCONTROL3/4.1.1.1AND3/4.1.1.2SHUTDOWNMARGINAsufficientSHUTDOWNMARGINensuresthat1)thereactorcanbemadesubcriticalfromalloperatingconditions,2)thereactivitytransientsassociatedwithpostulatedaccidentconditionsarecontrollablewithinacceptablelimits,and3)thereactorwillbemaintainedsufficientlysubcriticaltoprecludeinadvertentcriticalityintheshutdowncondition.SHUTDOWNMARGINrequirementsvarythroughoutcorelifeasafunctionoffueldepletion,RGS'-boronconcentration,andRCSTavThemostrestrictiveconditionoccursat'.EOL,withTavatnoloadoperatingtemperature,andisassociatedwith.a'ostulatedsteamlinebreakaccidentandresultinguncontrolledRCS,cooldown.Intheanalysisofthisaccident,yminimumSHUTDOWNMARGIN,:,'.:of5.OXd.k/kisrequiredtocontrolthereactivitytransient.Accord'i'ngly,theSHUTDOWNMARGINrequiredbySpecification3.1.1.1isbaseduponthi'slimitingconditionandisconsist'entwithFSARaccidentanalysisassumptions.Forearlierperiodsduringthefuelcycle,thisvalueisconservative.WithTav<200Fthereactivitytransientsresultingfrom-anypostulatedaccidentateminimaland'2g,ak/kshutdownmarginprovidesadequateprotection.3/4.1.1.3BORONDILUTIONANDADDITIONAminimumflowrateofatleast3000GPMprovidesadequatemixing,preventsstratificationandensuresthatreactivitychangeswillbegradualduringboronconcentrationchangesintheReactorCoolantSystem.Aflowrateofatleast3000GPMwillcirculateanequivalentReactorCoolantSystem.volumeof11,400cubicfeetinapproximately26minutes..Thereactivity.changerateassoicatedwithboronconcentrationchangeswillbewithin.thecapabilityforoperatorrecognitionandcontrol.3/4.1.1.4MODERATORTEMPERATURECOEFFICIENTMTCThelimitingvaluesassumedfortheMTCusedintheaccidentandtransientanalyseswere+0.5x10"<k/k/'FforTHERMALPOWERlevels<7QofRATEDTHERMALPOWER,+0.2x104ak/k/'FforTHERMALPOWERlevels>70g,ofRATEDTHERMALand-2.2x104h,k/k/'FatRATEDTHERMALPOWER.Therefore,theselimitingvaluesareincludedinthisspecification.DeterminationofMTCatthespecifiedconditionsensuresthatthemaximumpositiveand/ornegativevaluesoftheMTCwillnotexceedthelimitingvalues.ST.LUCIE-UNIT1B3/41-1 0'I4II | | APPLICABILITY: MODES 1, 2*, 3 and 4. |
| }} | | ACTION: |
| | With the SHUTDOWN MARGIN < 5. 0/ g k/k, immediately initiate and continue boration at > 40 gpm of 1720 ppm boron or equivalent until the required SHUTDOWN MARGTN is restored. |
| | SURVEILLANCE RE UIREMENTS 4.1.1.1.1 The SHUTDOWN MARGIN shall be determined to be > 5.0g,hk/k: |
| | a~ Within one hour after detection of an inoperable CEA(s) and at least onc'e per 12 hours thereafter whil e the CEA(s) is inoperable. If the inoperable CEA is immovable or untrippable, the above .required SHUTDOWN MARGIN shall be increased by an amount at least equal to the withdrawn worth'f the immovable or untrippable CEA(s). |
| | : b. lthen in MODES 1 or 2g, at- least once per 12 hours by verifying that CEA group withdrawal is within the Power Dependent Insertion Limits of Specification 3.1.3.6. |
| | C>> When in MODE 2gg, at least once during CEA withdrawal and at least once per hour thereafter until the reactor is critical. |
| | : d. Prior to initial operation above 5/ RATED THERMAL POWER after each fuel loading, by consideration of the factors of e below, with the CEA groups at the Power Dependent Insertion Limits of Speci fication 3.1.3.6. |
| | See Special Test Exception 3.10.1. |
| | With Keff > 1.0 With K ff < leO. |
| | ST LUCIE UNIT 1 3/4 1-1 81091002iS 8i0904 PDR ADOCK OS00033S P |
| | PDR |
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| | 0 I0 |
| | ~? |
| | *I' \ |
| | l |
| | * 4 f h P |
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| | REACTIVITY CONTROL SYSTEMS SURVEILLANCE REQUIREMENTS Continued |
| | : e. When in MODES 3 or 4, at least once per 24 hours by consideration of the following factors: |
| | : l. Reactor coolant system boron concentration, |
| | : 2. CEA position * |
| | : 3. Reactor coolant system average temperature, 4, Fuel burnup based on gross thermal energy generation, |
| | : 5. Xenon concentration, and |
| | : 6. Samarium concentration. |
| | 4.1.1.1.2 The overall core reactivity balance shall be compared to predicted values to demonstrate agreement within + 1.(C a k/k at least once per 31 Effective Full Power Days (EFPD). This cuoparison shall consider at least those factors stated in Specification 4.1. l.l.l.e, above. The predicted . |
| | reactivity values shall be. adjusted (normalized) to correspond to the actual core conditions prior to exceeding a fuel burnup of 60 Effective Full Power Days after each fuel loading. |
| | *For Modes 3 and= 4, during calculation of shutdown margin with all CEA's verified fully: inserted, the single CEA with the 'highest reactivity worth need not be assumed to be 'stuck in the fully withdrawn position. |
| | ST. LUCIE UNIT 1 3/4 1-2 |
| | |
| | AEACT IVI TY .CONTROL SYSTEMS MODERATOR TEMPERATURE COEFFICIENT LIMITING CONDITION FOR OPERATION 3.1.1.4 The moderator temperature coefficient (MTC) shall be: |
| | POWER is < 7'f a.Less positive than 0. 5 x 10 4b k/k/'F RATED THERMAL POWER, whenever THERMAL b.Less positive than 0.2 x 10 4 6, k/k/'F whenever THERMAL POWER is > 7(g of RATED THERMAL POWER, and c.Less negative than -2.2 x 10 4 b, k/k/'F at RATED THERMAL POWER. |
| | MODES 1 .and 2*4 |
| | 'PPLICABILITY: |
| | ACTION: |
| | With the moderator temperature coefficient outside any one of the above |
| | ,limits,, be in HOT STANDBY within 6 hours. |
| | SURVEILLANCE REQU IR EME NTS 4.1.1.4.1 The MTC shall be determined to be within its limits by confirmatory measurements. MTC measured values shall be extrapolated and/or compensated to permit direct comparison with the above limits. |
| | *With K ff > 1.0. |
| | gSee Special Test Exception 3.10.2 ST. LUCIE - UNIT 1 3/4 1-5 |
| | |
| | 3/4.4 REACTOR CO T SYSTEM |
| | ) <<,Y..v REACTOR COOLANT LOOPS |
| | 'IMITING CONDITION FOR OPERATION 3.4.1 Four reactor coolant pumps shall be in operation. |
| | APPLICABILITY: As noted below, but excluding MODE 6. |
| | 'CTION: |
| | MODES 1 and 2: |
| | ,'+.-"-"'With less than four reactor coolant pumps in operation. be in at least HOT |
| | ;::; ~:. STANDBY within 6 hours. |
| | 4 MODES 3, 4 and 5: |
| | Operation may pr oceed "provided (1) at least one reactor coolant. loop is in |
| | '-'.-":;.-, operation, with an associated reactor coolant pump or shutdown coo'l,ing pump and |
| | ':-"(y(2) the SHUTOONN NARGIN 'requirement of Specification 3.1.1.1 is increased to |
| | ""and maintained at > 5.0g, h k/k during operation in flODE 3 when less than four reactor coolant pumps are in operation. The provisions of Specifications 3.0.3 and 3.0.4 are not applicable. |
| | SURVEILLANCE REQUIREMENT 4.4.1 The F1ow Dependent Selector Switch shall be determined to be in the 4 pump position within 15 minutes prior to making the reactor critica'I and at least once per 12 hours thereafter All reactor coolant pumps and shutdown cooling pumps may be de-energized for up to 1 hour, provided no operations are permitted which could cause dilution of the reactor coolant system boron concento ation. |
| | ST. LUCIE - UNIT 1 3/4 4-1 |
| | |
| | 3/4.1 REACTIVIT NTROL SYSTEMS BASES 3/4.1.1 BORATION CONTROL 3/4.1. 1.1 AND 3/4.1.1.2 SHUTDOWN MARGIN A sufficient SHUTDOWN MARGIN ensures that 1) the reactor can be made subcritical from all operating conditions, 2) the reactivity transients associated with postulated accident conditions are controllable within acceptable limits, and 3) the reactor will be maintained sufficiently subcritical to preclude inadvertent criticality in the shutdown condition. |
| | SHUTDOWN MARGIN requirements vary throughout core life as a function of fuel depletion, RGS'- boron concentration, and RCS Tav The most restrictive condition occurs at'.EOL, with Tav at no load operating temperature, and is associated with. a 'ostulated steam line break accident and resulting uncontrolled RCS, cooldown. In the analysis of this accident, y minimum SHUTDOWN MARGIN ,:,'.: of 5. OX d. k/k is required to control the reactivity transient. Accord'i'ngly, the SHUTDOWN MARGIN requir ed by Specification 3.1.1.1 is based upon thi's limiting condition and is consist'ent with FSAR accident analysis assumptions. For earlier periods during the fuel cycle, this value is conservative. With Tav < 200 F the reactivity transients resulting from |
| | -any postulated accident ate minimal and' 2g, ak/k shutdown margin provides adequate protection. |
| | 3/4.1.1.3 BORON DILUTION AND ADDITION A minimum fl ow rate of at least 3000 GPM provides adequate mixing, prevents stratification and ensures that reactivity changes will be gradual during boron concentration changes in the Reactor Coolant System. A flow rate of at least 3000 GPM will circulate an equivalent Reactor Coolant System . |
| | volume of 11,400 cubic feet in approximately 26 minutes.. The reactivity . |
| | change rate assoicated with boron concentration changes will be within .the capability for operator recognition and control. |
| | 3/4.1.1.4 MODERATOR TEMPERATURE COEFFICIENT MTC The limiting values assumed for the MTC used in the accident and transient analyses were + 0.5 x 10 "< k/k/'F for THERMAL POWER levels < 7Q of RATED THERMAL POWER, + 0.2 x 10 4 a k/k/'F for THERMAL POWER levels >70g, of RATED THERMAL and -2.2 x 10 4 h, k/k/'F at RATED THERMAL POWER. Therefore, these limiting values are included in this specification. Determination of MTC at the specified conditions ensures that the maximum positive and/or negative values of the MTC will not exceed the limiting values. |
| | ST. LUCIE - UNIT 1 B 3/4 1-1 |
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| | 0 'I4 I |
| | I}} |
Proposed Amended Tech Specs 3/4.1.1,3.1.1.1,4.1.1.1,4.1.1.2, 3.1.1.4,4.1.1.4.1,3.4.1,4.4.1,3/4.1.1.1,3/4.1.1.2,3/4.1.1.3 & 3/4.1.1.4 for Boration Control,Moderator Temp Coefficient, Reactor Coolant Pumps & Boron Dilution & Addition| ML17212A711 |
| Person / Time |
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| Site: |
Saint Lucie  |
|---|
| Issue date: |
09/04/1981 |
|---|
| From: |
FLORIDA POWER & LIGHT CO. |
|---|
| To: |
|
|---|
| Shared Package |
|---|
| ML17212A710 |
List: |
|---|
| References |
|---|
| NUDOCS 8109100215 |
| Download: ML17212A711 (7) |
|
|
|---|
Category:TECHNICAL SPECIFICATIONS
MONTHYEARML17241A3541999-06-0101 June 1999
Proposed Tech Specs Section 3.5.2,allowing Up to 7 Days to Restore Inoperable LPSI Train to Operable Status
ML17241A3451999-05-24024 May 1999
Proposed Tech Specs 3/4.5.1 Re Safety Injection Tanks
ML17229B0711999-03-19019 March 1999
Proposed Tech Specs Pages Requested by NRC for Use in Issuance of Proposed License Amend Re SFP Storage Capacity, Per Soluble Boron Credit
ML17229B0201999-02-23023 February 1999
Proposed Tech Specs 3/4.1.2.9 Re Reactivity Control sys- Boron Dilution
ML17229A9551998-12-16016 December 1998
Proposed Tech Specs Pages Revising Administrative Controls & Incorporating Specific Staff Qualifications for Multi- Discipline Supervisor Position
ML17229A9161998-11-25025 November 1998
Proposed Tech Specs Pages,Replacing Insert-A,attachment to 971231 Submittal & Revises LCO 3.4.9.11 & Associated Bases
ML17229A9251998-11-22022 November 1998
Proposed Tech Specs Revising Thermal Margin SL Lines of TS Figure 2.1-1 to Reflect Increase in Value of Design Min RCS Flow from 345,000 Gpm to 365,000 Gpm & Change Flow Rates Stated in Tables 2.2-1 & 3.2-1
ML17229A9131998-11-19019 November 1998
Proposed Tech Specs,Revising Administrative Contols TS 6.3, Unit Staff Qualifications & Incorporating Specific Staff Qualifications for Multi-Discipline Supervisor (MDS) Position
ML20155C3061998-10-29029 October 1998
Proposed Tech Specs Pages Revising Terminology Used in Notation of TS Tables 2.2-1 & 3.3-1 Re Implementation & Automatic Removal of Certain Reactor Protection Sys Trip Bypasses
ML17229A8441998-08-24024 August 1998
Proposed Tech Specs Removing Obsolete License Conditions & Incorporating Revs Which Clarify Component Operations That Must Be Verified in Response to Containment Sump Recirculation Actuation Signal
ML17229A7731998-06-15015 June 1998
Proposed Tech Specs Pages 6-20,6-20a & 6-20c,correcting Info Supplied by Fuel Vendor Relative to Titles of Approved TRs That Are Referenced in Proposed TS 6.9.1.11.b
ML17229A7601998-06-0303 June 1998
Proposed Marked Up TS Pages Modifying Explosive Gas Mixture Surveillance Requirement 4.11.2.5.1 to Provide for Use of Lab Gas Partitioner to Periodically Analyze Concentration of Oxygen in Svc Waste Gas Decay Tank
ML17229A7511998-05-27027 May 1998
Proposed Tech Specs Section 6.2.2.f,revised to Allow for Use of Longer Operating Shifts of Up to Twelve Hours Duration by Plant'S Operating Crews
ML17229A7481998-05-27027 May 1998
Proposed Tech Specs Section 3.5.1,removing Requirement for SITs to Be Operable in Mode 4,which Will Minimize Potential for Inadvertent SIT Discharge During RCS Cooldown/ Depressurization Evolutions
ML17229A7441998-05-27027 May 1998
Proposed Tech Specs Providing for More Efficient Use of on- Site Mgt Personnel in Review & Approval Process for Plant Procedures
ML17229A6501998-03-0303 March 1998
Proposed Tech Specs 3.4.7 Re RCS Chemistry/Design Features/ Administrative Controls
ML17229A5691997-12-31031 December 1997
Proposed Tech Specs Pages Modifying TS 5.6.1 & Associated Figure 5.6-1 & TS 5.6.3 to Accomodate Increase in Allowed SFP Storage Capacity
ML17309A9131997-12-29029 December 1997
Proposed Tech Specs Modifying Specifications for Selected cycle-specific Reactor Physics Parameters to Provide Reference to St Lucie Unit 2 COLR for Limiting Values
ML17229A5491997-12-0101 December 1997
Proposed Tech Specs Revising Units 1 & 2 EPP Section 4, Environ Conditions & Section 5, Administrative Procedures to Incorporate Proposed Terms & Conditions of Incidental Take Statement Included in Biological Opinion
ML17229A4621997-08-22022 August 1997
Proposed Tech Specs Pages,Revising Specification 4.0.5 Surveillance Requirements for ISI & Testing of ASME Code Class 1,2 & 3 Components,To Relocate IST Program Requirements to Administrative Control Section 6.8
ML17229A4341997-08-0101 August 1997
Proposed Tech Specs,Extending semi-annual Surveillance Interval Specified in Table 4.3-2 for Testing ESFAS Subgroup Relays to Interval Consistent W/Ceog Rept CEN-403,Rev 1-A for March 1996 & Associated SE
ML17229A3601997-05-29029 May 1997
Proposed Tech Specs Incorporating Administrative Changes That Improve Consistency Throughout TSs & Related Bases
ML17229A1831996-12-20020 December 1996
Proposed Tech Specs Re Safety Limits & Limiting Safety Sys Settings
ML17229A1611996-12-0909 December 1996
Proposed Tech Specs 1.9a Re Core Operating Limits Rept
ML17229A1191996-10-31031 October 1996
Proposed Tech Specs 6.0 Re Administrative Controls
ML17229A1111996-10-30030 October 1996
Proposed Tech Specs 3/4.9.9 Re Containment Isolation Sys & 3/4.9.10 Re Water level-reactor Vessel
ML17229A1091996-10-28028 October 1996
Proposed Tech Specs Rev to Allow Type A,B & C Containment Leakage Tests to Be Conducted at Extended Intervals Determined by performance-based Criteria
ML17229A1061996-10-28028 October 1996
Proposed Tech Specs 1.6 Re Channel Functional test,1.7 Re Containment Vessel integrity,1.8 Re Controlled leakage,1.9 Re Core alteration,3/4.6 Re Containment Systems & 3/4.6.1 Re Containment Vessel
ML17228B5641996-07-15015 July 1996
Revised Tech Specs Re Core Alteration Definition
ML17228B5041996-06-0101 June 1996
Proposed Tech Specs Re Thermal Margin & RCS Flow Limits
ML17228B3761996-01-0404 January 1996
Proposed Tech Specs Rectifying Discrepancy for Each St Lucie Unit & Providing Assurance That Admin Controls for Hpsip Remain Effective in Lower Operational Modes
ML17228B3361995-11-22022 November 1995
Proposed TS 3/4.4.6.1 for RCS Leakage Detection Instrumentation,Adapting STS for C-E Plants (NUREG-1432) Spec 3.4.15
ML17228B2451995-08-16016 August 1995
Proposed TS 3.6.6.1, Sbvs.
ML17228B2421995-08-16016 August 1995
Proposed Ts,Reflecting Relocation of Selected TS Requirements Re Instrumentation & Emergency & Security Plan Review Process,Per GL 93-07
ML17228B1891995-06-21021 June 1995
Proposed Tech Specs Re Safety Injection Tank Surveillances
ML17228B1811995-06-21021 June 1995
Proposed Tech Specs Re Time Allowed to Restore Inoperable LPSI Train to Operable Status
ML17228B1791995-06-21021 June 1995
Proposed Tech Specs Re Extended Allowed Outage Time for EDGs
ML17228B1471995-05-17017 May 1995
Proposed Tech Specs,Extending Applicability of Current RCS Pressure/Temp Limits & Maximum Allowed RCS Heatup & Cooldown Rates to 23.6 Effective Full Power Yrs of Operation
ML17228B1441995-05-17017 May 1995
Proposed Tech Specs Re Administrative & Conforming Update
ML17228B0901995-04-0303 April 1995
Proposed Tech Specs Re Incorporation of line-item TS Improvements to TSs 3/4.8.1 & 4.8.1.2.2 for Licenses DPR-67 & NPF-16
ML17228B0591995-02-27027 February 1995
Proposed TS Re Sdcs Min Flow Rate Requirements
ML17228B0521995-02-27027 February 1995
Proposed Tech Spec Tables 3.3-3 & 3.3-4 to Accommodate Improved Coincidence Logic & Relay Replacement for 4.16 Kv Loss of Voltage Relays
ML17228B0331995-02-22022 February 1995
Proposed TS 4.6.1.3,reflecting Deletion of Refs to Automatic Tester for Containment Personnel Air Lock
ML17228A9921995-01-20020 January 1995
Proposed Tech Specs,Relocating Operability Requirements for Incore Detectors to (TS 3/4.3.3.2) to Updated FSAR & Revising Lhr Surveillance 4.2.1.4 & Special Test Exceptions Surveillance 4.10.2.2,4.10.4.2 & 4.10.5.2
ML17228A9031994-11-0202 November 1994
Proposed Tech Specs 3/4.6.2.1 & 3/4.6.2.3,adapting Combined Spec for Containment Spray & Cooling Sys Contained in Std TS for C-E Plants
ML17228A8911994-10-27027 October 1994
Proposed Tech Specs,Incorporating Administrative Changes
ML17228A6521994-07-28028 July 1994
Proposed Tech Specs Re LTOP Requirements for Power Operated Relief Valves,Per GL 90-06
ML17228A6591994-07-25025 July 1994
Proposed Tech Specs Implementing Enhancements Recommended by GL 93-05, Line-Item TS Improvements to Reduce SR for Testing During Power Operation.
ML17228A6561994-07-25025 July 1994
Proposed Tech Specs for Main Feedwater Line Isolation Valves to Be Consistent w/NUREG-1432,standard TS for C-E Plants
ML17228A5771994-05-23023 May 1994
Proposed Tech Specs Removing Option That Allows HPCI Pump 1C to Be Used as Alternative to Preferred Pump for Subsystem Operability
1999-06-01
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML17309A9961999-06-30030 June 1999
Rev 35 to HP-90, Emergency Equipment.
ML17309A9941999-06-17017 June 1999
Rev 1 to COP-06.06, Guidelines for Collecting Post Accident Samples.
ML17241A3541999-06-0101 June 1999
Proposed Tech Specs Section 3.5.2,allowing Up to 7 Days to Restore Inoperable LPSI Train to Operable Status
ML17309A9951999-05-27027 May 1999
Rev 0 to COP-06.11, Establishing Remote Lab for Analyses of Accident Samples.
ML17241A3451999-05-24024 May 1999
Proposed Tech Specs 3/4.5.1 Re Safety Injection Tanks
ML17229B0711999-03-19019 March 1999
Proposed Tech Specs Pages Requested by NRC for Use in Issuance of Proposed License Amend Re SFP Storage Capacity, Per Soluble Boron Credit
ML17229B0441999-03-0202 March 1999
Cycle 11 Reactor Startup Physics Testing Rept. with 990304 Ltr
ML17229B0201999-02-23023 February 1999
Proposed Tech Specs 3/4.1.2.9 Re Reactivity Control sys- Boron Dilution
ML17229B0361998-12-22022 December 1998
Rev 20 to Procedure C-200, Odcm.
ML17229A9551998-12-16016 December 1998
Proposed Tech Specs Pages Revising Administrative Controls & Incorporating Specific Staff Qualifications for Multi- Discipline Supervisor Position
ML17229A9161998-11-25025 November 1998
Proposed Tech Specs Pages,Replacing Insert-A,attachment to 971231 Submittal & Revises LCO 3.4.9.11 & Associated Bases
ML17229A9251998-11-22022 November 1998
Proposed Tech Specs Revising Thermal Margin SL Lines of TS Figure 2.1-1 to Reflect Increase in Value of Design Min RCS Flow from 345,000 Gpm to 365,000 Gpm & Change Flow Rates Stated in Tables 2.2-1 & 3.2-1
ML17229A9131998-11-19019 November 1998
Proposed Tech Specs,Revising Administrative Contols TS 6.3, Unit Staff Qualifications & Incorporating Specific Staff Qualifications for Multi-Discipline Supervisor (MDS) Position
ML20155C3061998-10-29029 October 1998
Proposed Tech Specs Pages Revising Terminology Used in Notation of TS Tables 2.2-1 & 3.3-1 Re Implementation & Automatic Removal of Certain Reactor Protection Sys Trip Bypasses
ML20153G0781998-08-26026 August 1998
Rev 19 to Plstqp, Guard Training & Qualification Plan
ML17229A8441998-08-24024 August 1998
Proposed Tech Specs Removing Obsolete License Conditions & Incorporating Revs Which Clarify Component Operations That Must Be Verified in Response to Containment Sump Recirculation Actuation Signal
ML17229A7731998-06-15015 June 1998
Proposed Tech Specs Pages 6-20,6-20a & 6-20c,correcting Info Supplied by Fuel Vendor Relative to Titles of Approved TRs That Are Referenced in Proposed TS 6.9.1.11.b
ML17229A7601998-06-0303 June 1998
Proposed Marked Up TS Pages Modifying Explosive Gas Mixture Surveillance Requirement 4.11.2.5.1 to Provide for Use of Lab Gas Partitioner to Periodically Analyze Concentration of Oxygen in Svc Waste Gas Decay Tank
ML17229A7441998-05-27027 May 1998
Proposed Tech Specs Providing for More Efficient Use of on- Site Mgt Personnel in Review & Approval Process for Plant Procedures
ML17229A7481998-05-27027 May 1998
Proposed Tech Specs Section 3.5.1,removing Requirement for SITs to Be Operable in Mode 4,which Will Minimize Potential for Inadvertent SIT Discharge During RCS Cooldown/ Depressurization Evolutions
ML17229A7511998-05-27027 May 1998
Proposed Tech Specs Section 6.2.2.f,revised to Allow for Use of Longer Operating Shifts of Up to Twelve Hours Duration by Plant'S Operating Crews
ML17229A6751998-03-27027 March 1998
Cycle 15 Reactor Startup Physics & Replacement SG Testing Rept. W/980402 Ltr
ML17229A6501998-03-0303 March 1998
Proposed Tech Specs 3.4.7 Re RCS Chemistry/Design Features/ Administrative Controls
ML17229A6381998-02-12012 February 1998
Rev 19 to C-200, Offsite Dose Calculation Manual.
ML17229A6151998-01-12012 January 1998
Rev 0 to ISI-PSL-1, St Lucie Nuclear Plant Unit 1 ISI Plan.
ML17229A6141998-01-12012 January 1998
Rev 0 to ISI-PSL-1, Third Interval ISI Program for St Lucie Nuclear Power Plant,Unit 1.
ML17229A5691997-12-31031 December 1997
Proposed Tech Specs Pages Modifying TS 5.6.1 & Associated Figure 5.6-1 & TS 5.6.3 to Accomodate Increase in Allowed SFP Storage Capacity
ML17309A9131997-12-29029 December 1997
Proposed Tech Specs Modifying Specifications for Selected cycle-specific Reactor Physics Parameters to Provide Reference to St Lucie Unit 2 COLR for Limiting Values
ML17229A5851997-12-12012 December 1997
Rev 0 to ADM-29.01, IST Program for Pumps & Valves.
ML17229A5491997-12-0101 December 1997
Proposed Tech Specs Revising Units 1 & 2 EPP Section 4, Environ Conditions & Section 5, Administrative Procedures to Incorporate Proposed Terms & Conditions of Incidental Take Statement Included in Biological Opinion
ML17309A9171997-11-26026 November 1997
Rev 0 to PSL-ENG-SENS-97-068, Spent Fuel Pool Dilution Analysis.
ML17229A5931997-09-26026 September 1997
Rev 4 to Procedure QI-5-PSL-1, Preparation,Rev,Review/ Approval of Procedures.
ML17229A5921997-09-18018 September 1997
Rev 0 to Procedure ADM-17.11, 10CFR500.59 Screening.
ML20211Q5841997-09-10010 September 1997
Rev 18 to Training & Qualification Plan
ML17229A4621997-08-22022 August 1997
Proposed Tech Specs Pages,Revising Specification 4.0.5 Surveillance Requirements for ISI & Testing of ASME Code Class 1,2 & 3 Components,To Relocate IST Program Requirements to Administrative Control Section 6.8
ML17229A4341997-08-0101 August 1997
Proposed Tech Specs,Extending semi-annual Surveillance Interval Specified in Table 4.3-2 for Testing ESFAS Subgroup Relays to Interval Consistent W/Ceog Rept CEN-403,Rev 1-A for March 1996 & Associated SE
ML17309A8951997-06-11011 June 1997
Rev 0 to PL-CNSI-97-004, Transportation & Emergency Response Plan for St Lucie Unit 1 SG Project.
ML17229A3601997-05-29029 May 1997
Proposed Tech Specs Incorporating Administrative Changes That Improve Consistency Throughout TSs & Related Bases
ML17229A2981997-03-0606 March 1997
Final Analysis of Radiological Consequences of Main Steam Line Break Outside Containment for St Lucie Unit 1 NPP Using NUREG-0800 Std Review Plan 15.1.5 App A.
ML17229A1831996-12-20020 December 1996
Proposed Tech Specs Re Safety Limits & Limiting Safety Sys Settings
ML17229A1611996-12-0909 December 1996
Proposed Tech Specs 1.9a Re Core Operating Limits Rept
ML17229A1191996-10-31031 October 1996
Proposed Tech Specs 6.0 Re Administrative Controls
ML17229A1111996-10-30030 October 1996
Proposed Tech Specs 3/4.9.9 Re Containment Isolation Sys & 3/4.9.10 Re Water level-reactor Vessel
ML17229A1061996-10-28028 October 1996
Proposed Tech Specs 1.6 Re Channel Functional test,1.7 Re Containment Vessel integrity,1.8 Re Controlled leakage,1.9 Re Core alteration,3/4.6 Re Containment Systems & 3/4.6.1 Re Containment Vessel
ML17229A1091996-10-28028 October 1996
Proposed Tech Specs Rev to Allow Type A,B & C Containment Leakage Tests to Be Conducted at Extended Intervals Determined by performance-based Criteria
ML17229A0951996-10-24024 October 1996
Rev 0 to 00000-OSW-16, In-Situ Pressure Test Results for St Lucie Unit 1 Spring 1996 Outage.
ML17229A0861996-10-18018 October 1996
Startup Physics Testing Rept. W/961018 Ltr
ML17229A2441996-09-23023 September 1996
Rev 18 to Offsite Dose Calculation Manual (Odcm).
ML17228B5641996-07-15015 July 1996
Revised Tech Specs Re Core Alteration Definition
ML17229A0961996-06-12012 June 1996
Rev 0 to TR-9419-CSE96-1101, Test Rept - SG Tube In-Situ Hydrostatic Pressure Test Tool Hydro Chamber Pressure Determination.
1999-06-30
[Table view] |
Text
3/4.1 REACTIVITY NTROL SYSTEMS 3/4.1.1 BORATION CONTROL SHUTDOWN MARGIN - T > 200.F LIMITING CONDITION FOR OPERATION 3.1.1.1 The SHUTDOWN MARGIN shall be > 5.0%% k/k.
APPLICABILITY: MODES 1, 2*, 3 and 4.
ACTION:
With the SHUTDOWN MARGIN < 5. 0/ g k/k, immediately initiate and continue boration at > 40 gpm of 1720 ppm boron or equivalent until the required SHUTDOWN MARGTN is restored.
SURVEILLANCE RE UIREMENTS 4.1.1.1.1 The SHUTDOWN MARGIN shall be determined to be > 5.0g,hk/k:
a~ Within one hour after detection of an inoperable CEA(s) and at least onc'e per 12 hours thereafter whil e the CEA(s) is inoperable. If the inoperable CEA is immovable or untrippable, the above .required SHUTDOWN MARGIN shall be increased by an amount at least equal to the withdrawn worth'f the immovable or untrippable CEA(s).
- b. lthen in MODES 1 or 2g, at- least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> by verifying that CEA group withdrawal is within the Power Dependent Insertion Limits of Specification 3.1.3.6.
C>> When in MODE 2gg, at least once during CEA withdrawal and at least once per hour thereafter until the reactor is critical.
- d. Prior to initial operation above 5/ RATED THERMAL POWER after each fuel loading, by consideration of the factors of e below, with the CEA groups at the Power Dependent Insertion Limits of Speci fication 3.1.3.6.
See Special Test Exception 3.10.1.
With Keff > 1.0 With K ff < leO.
ST LUCIE UNIT 1 3/4 1-1 81091002iS 8i0904 PDR ADOCK OS00033S P
PDR
0 I0
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l
REACTIVITY CONTROL SYSTEMS SURVEILLANCE REQUIREMENTS Continued
- e. When in MODES 3 or 4, at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> by consideration of the following factors:
- l. Reactor coolant system boron concentration,
- 2. CEA position *
- 3. Reactor coolant system average temperature, 4, Fuel burnup based on gross thermal energy generation,
- 5. Xenon concentration, and
- 6. Samarium concentration.
4.1.1.1.2 The overall core reactivity balance shall be compared to predicted values to demonstrate agreement within + 1.(C a k/k at least once per 31 Effective Full Power Days (EFPD). This cuoparison shall consider at least those factors stated in Specification 4.1. l.l.l.e, above. The predicted .
reactivity values shall be. adjusted (normalized) to correspond to the actual core conditions prior to exceeding a fuel burnup of 60 Effective Full Power Days after each fuel loading.
- For Modes 3 and= 4, during calculation of shutdown margin with all CEA's verified fully: inserted, the single CEA with the 'highest reactivity worth need not be assumed to be 'stuck in the fully withdrawn position.
ST. LUCIE UNIT 1 3/4 1-2
AEACT IVI TY .CONTROL SYSTEMS MODERATOR TEMPERATURE COEFFICIENT LIMITING CONDITION FOR OPERATION 3.1.1.4 The moderator temperature coefficient (MTC) shall be:
POWER is < 7'f a.Less positive than 0. 5 x 10 4b k/k/'F RATED THERMAL POWER, whenever THERMAL b.Less positive than 0.2 x 10 4 6, k/k/'F whenever THERMAL POWER is > 7(g of RATED THERMAL POWER, and c.Less negative than -2.2 x 10 4 b, k/k/'F at RATED THERMAL POWER.
MODES 1 .and 2*4
'PPLICABILITY:
ACTION:
With the moderator temperature coefficient outside any one of the above
,limits,, be in HOT STANDBY within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.
SURVEILLANCE REQU IR EME NTS 4.1.1.4.1 The MTC shall be determined to be within its limits by confirmatory measurements. MTC measured values shall be extrapolated and/or compensated to permit direct comparison with the above limits.
gSee Special Test Exception 3.10.2 ST. LUCIE - UNIT 1 3/4 1-5
3/4.4 REACTOR CO T SYSTEM
) <<,Y..v REACTOR COOLANT LOOPS
'IMITING CONDITION FOR OPERATION 3.4.1 Four reactor coolant pumps shall be in operation.
APPLICABILITY: As noted below, but excluding MODE 6.
'CTION:
MODES 1 and 2:
,'+.-"-"'With less than four reactor coolant pumps in operation. be in at least HOT
- ~
- . STANDBY within 6 hours.
4 MODES 3, 4 and 5:
Operation may pr oceed "provided (1) at least one reactor coolant. loop is in
'-'.-":;.-, operation, with an associated reactor coolant pump or shutdown coo'l,ing pump and
':-"(y(2) the SHUTOONN NARGIN 'requirement of Specification 3.1.1.1 is increased to
""and maintained at > 5.0g, h k/k during operation in flODE 3 when less than four reactor coolant pumps are in operation. The provisions of Specifications 3.0.3 and 3.0.4 are not applicable.
SURVEILLANCE REQUIREMENT 4.4.1 The F1ow Dependent Selector Switch shall be determined to be in the 4 pump position within 15 minutes prior to making the reactor critica'I and at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> thereafter All reactor coolant pumps and shutdown cooling pumps may be de-energized for up to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, provided no operations are permitted which could cause dilution of the reactor coolant system boron concento ation.
ST. LUCIE - UNIT 1 3/4 4-1
3/4.1 REACTIVIT NTROL SYSTEMS BASES 3/4.1.1 BORATION CONTROL 3/4.1. 1.1 AND 3/4.1.1.2 SHUTDOWN MARGIN A sufficient SHUTDOWN MARGIN ensures that 1) the reactor can be made subcritical from all operating conditions, 2) the reactivity transients associated with postulated accident conditions are controllable within acceptable limits, and 3) the reactor will be maintained sufficiently subcritical to preclude inadvertent criticality in the shutdown condition.
SHUTDOWN MARGIN requirements vary throughout core life as a function of fuel depletion, RGS'- boron concentration, and RCS Tav The most restrictive condition occurs at'.EOL, with Tav at no load operating temperature, and is associated with. a 'ostulated steam line break accident and resulting uncontrolled RCS, cooldown. In the analysis of this accident, y minimum SHUTDOWN MARGIN ,:,'.: of 5. OX d. k/k is required to control the reactivity transient. Accord'i'ngly, the SHUTDOWN MARGIN requir ed by Specification 3.1.1.1 is based upon thi's limiting condition and is consist'ent with FSAR accident analysis assumptions. For earlier periods during the fuel cycle, this value is conservative. With Tav < 200 F the reactivity transients resulting from
-any postulated accident ate minimal and' 2g, ak/k shutdown margin provides adequate protection.
3/4.1.1.3 BORON DILUTION AND ADDITION A minimum fl ow rate of at least 3000 GPM provides adequate mixing, prevents stratification and ensures that reactivity changes will be gradual during boron concentration changes in the Reactor Coolant System. A flow rate of at least 3000 GPM will circulate an equivalent Reactor Coolant System .
volume of 11,400 cubic feet in approximately 26 minutes.. The reactivity .
change rate assoicated with boron concentration changes will be within .the capability for operator recognition and control.
3/4.1.1.4 MODERATOR TEMPERATURE COEFFICIENT MTC The limiting values assumed for the MTC used in the accident and transient analyses were + 0.5 x 10 "< k/k/'F for THERMAL POWER levels < 7Q of RATED THERMAL POWER, + 0.2 x 10 4 a k/k/'F for THERMAL POWER levels >70g, of RATED THERMAL and -2.2 x 10 4 h, k/k/'F at RATED THERMAL POWER. Therefore, these limiting values are included in this specification. Determination of MTC at the specified conditions ensures that the maximum positive and/or negative values of the MTC will not exceed the limiting values.
ST. LUCIE - UNIT 1 B 3/4 1-1
0 'I4 I
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