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{{#Wiki_filter:ATTACHMENT NO.2TOAEP:NRC:0856A DONALDC.COOKNUCLEARPLANTUNITNOS.1AND2PROPOSEDTECHNICAL SPECIFICATIONS eoR84o'719ADOCggg'Ppp~~g t,''DR~~.;
{{#Wiki_filter:ATTACHMENT NO.2 TO AEP:NRC:0856A DONALD C.COOK NUCLEAR PLANT UNIT NOS.1 AND 2 PROPOSED TECHNICAL SPECIFICATIONS eoR 84o'71 9 ADOCg gg'Ppp~~g t,''DR~~.;
ADMINISTRATIVE CONTROLS6.8.3a0Temporary changestoprocedures of6.8.1abovemaybemadeprovided:
ADMINISTRATIVE CONTROLS 6.8.3 a 0 Temporary changes to procedures of 6.8.1 above may be made provided: The intent of the original procedure is not altered.b.The change is approved by two members of the plant management staff, at least one of whom holds a Senior Reactor Operator's License on the unit affected.C~The change is documented, reviewed by the PNSRC and approved by the Plant Manager within 14 days of implementation.
Theintentoftheoriginalprocedure isnotaltered.b.Thechangeisapprovedbytwomembersoftheplantmanagement staff,atleastoneofwhomholdsaSeniorReactorOperator's Licenseontheunitaffected.
6.8.4 Plant procedures for post-accident sampling shall be established, implemented, and maintained which will ensure the capability to obtain and analyze reactor coolant and containment atmosphere samples and radioactive iodines and particulate samples in plant gaseous effluents under accident conditions.
C~Thechangeisdocumented, reviewedbythePNSRCandapprovedbythePlantManagerwithin14daysofimplementation.
The program will include the following:
6.8.4Plantprocedures forpost-accident samplingshallbeestablished, implemented, andmaintained whichwillensurethecapability toobtainandanalyzereactorcoolantandcontainment atmosphere samplesandradioactive iodinesandparticulate samplesinplantgaseouseffluents underaccidentconditions.
a~Training of personnel, b.Procedures for sampling and analysis, c~Provisions for maintenance of sampling and analysis equipment.
Theprogramwillincludethefollowing:
D.C.COOK-UNIT 1 6-14 Amendment No.
a~Trainingofpersonnel, b.Procedures forsamplingandanalysis, c~Provisions formaintenance ofsamplingandanalysisequipment.
6.9 REPORTING RE UIREMENTS ROUTINE REPORTS AND REPORTABLE OCCURRENCES 6.9.1 In addition to the applicable reporting requirements of Title 10, Code of Federal Regulations, the following reports shall be sub-mitted to the Director of the Regional Office of Inspection and Enforcement unless otherwise noted.STARTUP REPORT 6.9.1.1 A summary report of plant startup and power escalation testing shall be submitted following (1)receipt of an operating license, (2)amendment to the license involving a planned increase in power level, (3)installation of fuel that has a different design or has been manufactured by a different fuel supplier, and (4)modifications that may have significantly altered the nuclear, thermal, or hydraulic performance of the plant.6.9.1.2 The startup report shall address each of the tests identified in the FSAR and shall include a description of the measured values of the operating conditions or characteristics obtained during the test program and a comparison of these values with design predictions and specifications.
D.C.COOK-UNIT16-14Amendment No.
Any corrective actions that were required to obtain satisfactory operation shall also be described.
6.9REPORTING REUIREMENTS ROUTINEREPORTSANDREPORTABLE OCCURRENCES 6.9.1Inadditiontotheapplicable reporting requirements ofTitle10,CodeofFederalRegulations, thefollowing reportsshallbesub-mittedtotheDirectoroftheRegionalOfficeofInspection andEnforcement unlessotherwise noted.STARTUPREPORT6.9.1.1Asummaryreportofplantstartupandpowerescalation testingshallbesubmitted following (1)receiptofanoperating license,(2)amendment tothelicenseinvolving aplannedincreaseinpowerlevel,(3)installation offuelthathasadifferent designorhasbeenmanufactured byadifferent fuelsupplier, and(4)modifications thatmayhavesignificantly alteredthenuclear,thermal,orhydraulic performance oftheplant.6.9.1.2Thestartupreportshalladdresseachofthetestsidentified intheFSARandshallincludeadescription ofthemeasuredvaluesoftheoperating conditions orcharacteristics obtainedduringthetestprogramandacomparison ofthesevalueswithdesignpredictions andspecifications.
Any additional specific details required in license conditions based on other commitments shall be included in this report.D.C.COOK-UNIT 1 6-14a Amendment No.
Anycorrective actionsthatwererequiredtoobtainsatisfactory operation shallalsobedescribed.
ADMINISTRATIVE CONTROLS 6.8.3 Temporary changes to procedures of 6.8.1 above may be made provided: a.The intent of the original procedure is not altered.b.The change is approved by two members of the plant management staff, at least one of whom holds a Senior Reactor Operator's License on the unit affected.ce The change is documented, reviewed by the PNSRC and approved by the Plant Manager within 14 days of implementation.
Anyadditional specificdetailsrequiredinlicenseconditions basedonothercommitments shallbeincludedinthisreport.D.C.COOK-UNIT16-14aAmendment No.
6.8.4 Plant procedures for post-accident sampling shall be established, implemented, and maintained which will ensure the capability to obtain and analyze reactor coolant and containment atmosphere samples and radioactive iodines and particulate samples in plant gaseous effluents under accident conditions.
ADMINISTRATIVE CONTROLS6.8.3Temporary changestoprocedures of6.8.1abovemaybemadeprovided:
The program will-include the following:
a.Theintentoftheoriginalprocedure isnotaltered.b.Thechangeisapprovedbytwomembersoftheplantmanagement staff,atleastoneofwhomholdsaSeniorReactorOperator's Licenseontheunitaffected.
a~b.c~Training of personnel, Procedures for sampling and analysis, Provision for maintenance of sampling and analysis equipment.
ceThechangeisdocumented, reviewedbythePNSRCandapprovedbythePlantManagerwithin14daysofimplementation.
D.C.COOK-UNIT 2 6-14 Amendment No.
6.8.4Plantprocedures forpost-accident samplingshallbeestablished, implemented, andmaintained whichwillensurethecapability toobtainandanalyzereactorcoolantandcontainment atmosphere samplesandradioactive iodinesandparticulate samplesinplantgaseouseffluents underaccidentconditions.
6.9 REPORTING RE UIREMENTS ROUTINE REPORTS AND REPORTABLE OCCURRENCES 6.9.1 In addition to the applicable reporting requirements of Title 10, Code of Federal Regulations, the following reports shall be submitted to the Director of the Regional Office of Inspection and Enforcement unless otherwise noted.STARTUP REPORT 6.9.1.1 A summary report of plant startup and power escalation testing shall be submitted following (1)receipt of an operating license, (2)amendment to the license involving a planned increase in power level, (3)installation of fuel that has a different design or has been manufactured by a different fuel supplier, and (4)modifications that may have significantly altered the nuclear, thermal, or hydraulic performance of the plant.6.9.1.2 The startup report shall address each of the tests identified in the FSAR and shall include a description of the measured value of the operating conditions or characteristics obtained during the test program and a comparison of these values with design predictions and specifications.
Theprogramwill-includethefollowing:
Any corrective actions that were required to obtain satisfactory operation shall also be described.
a~b.c~Trainingofpersonnel, Procedures forsamplingandanalysis, Provision formaintenance ofsamplingandanalysisequipment.
'Any additional specific details required in license conditions based on other commitments shall be included in this report.6.9.1.3 Startup reports shall be submitted within (1)90 days following completion of the startup test program, (2)90 days following resumption or commencement of commercial power operation, and (3)9 months following initial criticality, whichever is earliest.If the Startup Report does not cover all three events (i.e., initial criticality, completion of startup test program, and resumption or commencement of commercial D.C.COOK-UNIT 2 6-14a Amendment No.
D.C.COOK-UNIT26-14Amendment No.
TABLE 3.3-6A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUM CHANNELS OPERABLE APPLICABLE MODES MEASUREMENT RANGE ACTION l.AREA MONITORS HIGH RANGE Containment Area 11 21 3 1 to 10 rad/hr 7 PHOTON 2.Noble Gas Effluent Monitors a)UNIT VENT i Mid Range*(VRS-1507) 1, 2, 3-2 3 2.5x10 to 10 p Ci/cc ii High Range (VRS-1509) 1I 2I 3 10 to 10 pCi/cc 5 b)Atmospheric Steam Dump Valves Discharge c)Gland Seal (1)Exhaust Mid Range (SRA-1807) d)Condenser Exhaust (1)System Mid Range (SRA-1907) 1/Loop 1, 2, 3 1/2i 3 1, 2, 3 3 to 10 pCi/cc 5-2 3 2.Sxl0 to 10 pCi/cc-2 3 2.5x10 to 10 pCi/cc*Automatic Switchover to High Range only Configuration (Alarm/Trip Setpoint is lxl0~Ci/cc)**Per Requirements of Specification 3.3.3.8 (1)These instruments are under special test operation mode for moisture concern, but are functionally OPERABLE.
6.9REPORTING REUIREMENTS ROUTINEREPORTSANDREPORTABLE OCCURRENCES 6.9.1Inadditiontotheapplicable reporting requirements ofTitle10,CodeofFederalRegulations, thefollowing reportsshallbesubmitted totheDirectoroftheRegionalOfficeofInspection andEnforcement unlessotherwise noted.STARTUPREPORT6.9.1.1Asummaryreportofplantstartupandpowerescalation testingshallbesubmitted following (1)receiptofanoperating license,(2)amendment tothelicenseinvolving aplannedincreaseinpowerlevel,(3)installation offuelthathasadifferent designorhasbeenmanufactured byadifferent fuelsupplier, and(4)modifications thatmayhavesignificantly alteredthenuclear,thermal,orhydraulic performance oftheplant.6.9.1.2Thestartupreportshalladdresseachofthetestsidentified intheFSARandshallincludeadescription ofthemeasuredvalueoftheoperating conditions orcharacteristics obtainedduringthetestprogramandacomparison ofthesevalueswithdesignpredictions andspecifications.
TABLE 3.3-6A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUM CHANNELS OPERABLE APPLICABLE MODES MEASUREMENT RANGE ACTION l.AREA MONITORS HIGH RANGE Containment Area 1I 2I 3 1 to 10 rad/hr 7 PHOTON 2.Noble Gas Effluent Monitors a)UNIT VENT i.Mid Range>>(VRS-2507) 1I 2I 3-2 3 2.5x10 to 10 pCi/cc ii.High Range (VRS-2509)
Anycorrective actionsthatwererequiredtoobtainsatisfactory operation shallalsobedescribed.
~1/2/3 10 to 10>Ci/cc 5 b)Atmospheric Steam Dump Valves Discharge c)Gland Seal (1)Exhaust Mid Range (SRA-2807)
'Anyadditional specificdetailsrequiredinlicenseconditions basedonothercommitments shallbeincludedinthisreport.6.9.1.3Startupreportsshallbesubmitted within(1)90daysfollowing completion ofthestartuptestprogram,(2)90daysfollowing resumption orcommencement ofcommercial poweroperation, and(3)9monthsfollowing initialcriticality, whichever isearliest.
(1)d)Condenser Exhaust System Mid Range (SRA-2907) 1/Loop 1, 2, 3 1I 2I 3 1I 2I 3 3 to 10>Ci/cc 5-2 3 2.5x10 to 10>Ci/cc-2 3 2.5x10 to 10~Ci/cc*Automatic Switchover to High Range only Configuration (Alarm/Trip Setpoint is lx10~Ci/cc)**Per Requirements of Specification 3.3.3.6 (1)These instruments are under special test operation mode for moisture concern, but are functionally OPERABLE.
IftheStartupReportdoesnotcoverallthreeevents(i.e.,initialcriticality, completion ofstartuptestprogram,andresumption orcommencement ofcommercial D.C.COOK-UNIT26-14aAmendment No.
7 TABLE 4.3-3A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS O 0 0 I t3 INSTRUMENT 1.AREA MONITORS CHANNEL CHECK CHANNEL CALIBRATION CHANNEL MODES FOR WHICH FUNCTIONAL SURVEILLANCE IS High Range Containment Area N/A 1I 2I 3 2.Noble Gas Effluent Monitors a)Unit Vent i.Mid'ange (VRS-1507) ii.High Range (VRS-1509)
TABLE3.3-6APOST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUMCHANNELSOPERABLEAPPLICABLE MODESMEASUREMENT RANGEACTIONl.AREAMONITORSHIGHRANGEContainment Area112131to10rad/hr7PHOTON2.NobleGasEffluentMonitorsa)UNITVENTiMidRange*(VRS-1507) 1,2,3-232.5x10to10pCi/cciiHighRange(VRS-1509) 1I2I310to10pCi/cc5b)Atmospheric SteamDumpValvesDischarge c)GlandSeal(1)ExhaustMidRange(SRA-1807) d)Condenser Exhaust(1)SystemMidRange(SRA-1907) 1/Loop1,2,31/2i31,2,33to10pCi/cc5-232.Sxl0to10pCi/cc-232.5x10to10pCi/cc*Automatic Switchover toHighRangeonlyConfiguration (Alarm/Trip Setpointislxl0~Ci/cc)**PerRequirements ofSpecification 3.3.3.8(1)Theseinstruments areunderspecialtestoperation modeformoistureconcern,butarefunctionally OPERABLE.
N/A 1I 2I 3 1, 2, 3 b)Atmospheric Steam Dump Valve Discharge c)Gland Seal Exhaust (1)Mid Range (SRA-1807) d)Condenser Exhaust System (1)Mid Range (SRA-1907)
TABLE3.3-6APOST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUMCHANNELSOPERABLEAPPLICABLE MODESMEASUREMENT RANGEACTIONl.AREAMONITORSHIGHRANGEContainment Area1I2I31to10rad/hr7PHOTON2.NobleGasEffluentMonitorsa)UNITVENTi.MidRange>>(VRS-2507) 1I2I3-232.5x10to10pCi/ccii.HighRange(VRS-2509)
M R N/A N/A N/A 1, 2, 3 1I 2I 3 1, 2, 3 0*Acceptable criteria for calibration are provided in Table II.F.1-3 of NUREG-0737.
~1/2/310to10>Ci/cc5b)Atmospheric SteamDumpValvesDischarge c)GlandSeal(1)ExhaustMidRange(SRA-2807)
(1)These insgrpnents are undey sp8gjg pgst operation mode for moisture concern, u.are functxona ly-O A O Q I TABLE 4.3-3A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT CHANNEL CHECK CHANNEL CALIBRATION CHANNEL MODES FOR WHICH FUNCTIONAL SURVEILLANCE IS 1.AREA MONITORS High Range Containment Area N/A 1, 2, 3 2.Nob'le Gas Effluent'onitors a)Unit Vent.i.Mid Range (VRS-2507) ii.High Range (VRS-2509)
(1)d)Condenser ExhaustSystemMidRange(SRA-2907) 1/Loop1,2,31I2I31I2I33to10>Ci/cc5-232.5x10to10>Ci/cc-232.5x10to10~Ci/cc*Automatic Switchover toHighRangeonlyConfiguration (Alarm/Trip Setpointislx10~Ci/cc)**PerRequirements ofSpecification 3.3.3.6(1)Theseinstruments areunderspecialtestoperation modeformoistureconcern,butarefunctionally OPERABLE.
N/A 1/2I 3 1I 2I 3 b)Atmospheric Steam Dump Valve Discharge c)Gland Seal Exhaust (1),Mid Range (SRA-2807) d)Condenser Exhaust System (1)Mid Range (SRA-2907)
7TABLE4.3-3APOST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REUIREMENTS O00It3INSTRUMENT 1.AREAMONITORSCHANNELCHECKCHANNELCALIBRATION CHANNELMODESFORWHICHFUNCTIONAL SURVEILLANCE ISHighRangeContainment AreaN/A1I2I32.NobleGasEffluentMonitorsa)UnitVenti.Mid'ange(VRS-1507) ii.HighRange(VRS-1509)
N/A N/A N/A 1I 2I 3 1I 2I 3 1, 2, 3 0*Acceptable criteria for calibration are provided in Table II.F.1-,3 of NUREG-0737.
N/A1I2I31,2,3b)Atmospheric SteamDumpValveDischarge c)GlandSealExhaust(1)MidRange(SRA-1807) d)Condenser ExhaustSystem(1)MidRange(SRA-1907)
(1)These instruments are under special test operation mode for moisture concern, nut are functionally SBPutBFR..
MRN/AN/AN/A1,2,31I2I31,2,30*Acceptable criteriaforcalibration areprovidedinTableII.F.1-3ofNUREG-0737.
a TABLE 3.3-11-POST-ACCIDENT MONITORING INSTRUMENTATION INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature
(1)Theseinsgrpnents areundeysp8gjgpgstoperation modeformoistureconcern,u.arefunctxona ly-OAOQITABLE4.3-3APOST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REUIREMENTS INSTRUMENT CHANNELCHECKCHANNELCALIBRATION CHANNELMODESFORWHICHFUNCTIONAL SURVEILLANCE IS1.AREAMONITORSHighRangeContainment AreaN/A1,2,32.Nob'leGasEffluent'onitors a)UnitVent.i.MidRange(VRS-2507) ii.HighRange(VRS-2509)
-T (Wide Range)3.Reactor Coolant Inlet Temperature
N/A1/2I31I2I3b)Atmospheric SteamDumpValveDischarge c)GlandSealExhaust(1),MidRange(SRA-2807) d)Condenser ExhaustSystem(1)MidRange(SRA-2907)
-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.Refueling Water Storage Tank Water Level , 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate ll.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches***
N/AN/AN/A1I2I31I2I31,2,30*Acceptable criteriaforcalibration areprovidedinTableII.F.1-,3 ofNUREG-0737.
13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic.Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels MINIMUM CHANNELS OPERABLE 2/Steam Generator 1/Steam Generator 1/Steam Generator*
(1)Theseinstruments areunderspecialtestoperation modeformoistureconcern,nutarefunctionally SBPutBFR..
1/Valve 1/Valve 1/Valve Per Table 3.3-6A 0*Steam Generator Water Level Channels can be used as a substitute for the corresponding auxiliary feedwater flow.rate channel instrument.
aTABLE3.3-11-POST-ACCIDENT MONITORING INSTRUMENTATION INSTRUMENT 1.Containment Pressure2.ReactorCoolantOutletTemperature
**PRODAC 250 subcooling margin readout can be used as a substitute for the subcooling monitor instrument.
-T(WideRange)3.ReactorCoolantInletTemperature
***Acoustic monitoring of PORV position (1 channel per three valves-.headered discharge) can be used as a substitute for the pORV position Indicator-Limit Switches instruments.
-T(WideRange)4.ReactorCoolantPressure-WideRange5.Pressurizer WaterLevel6.SteamLinePressure7.SteamGenerator WaterLevel-NarrowRange8.Refueling WaterStorageTankWaterLevel,9.BoricAcidTankSolutionLevel10.Auxiliary Feedwater FlowRatell.ReactorCoolantSystemSubcooling MarginMonitor12.PORVPositionIndicator
A A o O I H INSTRUMENT 1.Containment Pressure TABLE 3.3-10 POST-ACCIDENT MONITORING INSTRUMENTATION MINIMUM CHANNELS OPERABLE 2.Reactor Coolant Outlet Temperature
-LimitSwitches***
-T (Wide Range)3.Reactor Coolant Inlet Temperature
13.PORVBlockValvePositionIndicator
-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.Refueling Water Storage Tank Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate 11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches***
-LimitSwitches14.SafetyValvePositionIndicator
13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels 2 2/Steam Generator 1/Steam Generator 1/Steam Generator*
-Acoustic.
1/Valve 1/Valve 1/Valve Per Table 3.3-6A 0*Steam Generator Water Level Channels can be used as a substitute for the corresponding auxiliary feedwater flow rate channel instrument.
Monitor15.Containment WaterLevel(NarrowRange)16.Containment WaterLevel(WideRange)17.Radiation Monitoring ChannelsMINIMUMCHANNELSOPERABLE2/SteamGenerator 1/SteamGenerator 1/SteamGenerator*
**PRODAC 250 subcooling margin readout can be used as a substitute for the subcooling monitor instrument.
1/Valve1/Valve1/ValvePerTable3.3-6A0*SteamGenerator WaterLevelChannelscanbeusedasasubstitute forthecorresponding auxiliary feedwater flow.ratechannelinstrument.
***Acoustic monitoring of PORV position (1 channel per three valves-headered discharge) can be used as a substitute for the PORV Position Indicator-Limit Switches instruments.
**PRODAC250subcooling marginreadoutcanbeusedasasubstitute forthesubcooling monitorinstrument.
TABLE 4.3-7 POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature
***Acoustic monitoring ofPORVposition(1channelperthreevalves-.headereddischarge) canbeusedasasubstitute forthepORVpositionIndicator
-T (Wide Range)3 Reactor Coolant Inlet Temperature
-LimitSwitchesinstruments.
-TCOLD (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.RWST Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate/11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches 13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels (Per Table 4.3-3A)CHANNEL CHECK N/A N/A CHANNEL CALIBRATION R  
AAoOIHINSTRUMENT 1.Containment PressureTABLE3.3-10POST-ACCIDENT MONITORING INSTRUMENTATION MINIMUMCHANNELSOPERABLE2.ReactorCoolantOutletTemperature
"TABLE 4.3-10 POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature
-T(WideRange)3.ReactorCoolantInletTemperature
-T (Wide Range)3.Reactor Coolant Inlet Temperature
-T(WideRange)4.ReactorCoolantPressure-WideRange5.Pressurizer WaterLevel6.SteamLinePressure7.SteamGenerator WaterLevel-NarrowRange8.Refueling WaterStorageTankWaterLevel9.BoricAcidTankSolutionLevel10.Auxiliary Feedwater FlowRate11.ReactorCoolantSystemSubcooling MarginMonitor12.PORVPositionIndicator
-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7..Steam Generator Water Level-Narrow Range 8.RWST Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate 11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches 13.PORV Block Valve-Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels (Per Table 4.3-3A)CHANNEL CHECK N/A N/A CHANNEL CALIBRATION R
-LimitSwitches***
CONTAINMENT SYSTEMS 3/4.6.4 COMBUSTIBLE GAS CONTROL HYDROGEN ANALYZERS LIMITING CONDITION FOR OPERATION 3.6.4.1 Two containment hydrogen analyzers shall be OPERABLE.APPLICABILITY:
13.PORVBlockValvePositionIndicator
MODES 1 and 2 ACTION: a 0 With one hydrogen analysis device inoperable, restore the inoperable analysis device to OPERABLE status within 30 days or be in at least HOT STANDBY within the next 6 hours.b.With both hydrogen analysis devices inoperable, restore at least one analysis device to OPERABLE status within 72 hours or be in at least HOT STANDBY within the next 6 hours.SURVEILLANCE RE UIREMENTS 4.6.4.1 Each hydrogen analysis device shall be demonstrated OPERABLE at least once per 92 days on a STAGGERED TEST BASIS by performing a CHANNEL CALIBRATION using a four percent and fifteen percent nominal hydrogen gas, balance nitrogen.D.C.COOK-UNIT 1 3/4 6-23 Amendment No.
-LimitSwitches14.SafetyValvePositionIndicator
CONTAINMENT SYSTEMS 3/4.6.4 COMBUSTIBLE GAS CONTROL HYDROGEN ANALYZERS LIMITING CONDITION FOR OPERATION 3.6.4.1 Two containment hydrogen analyzers shall be OPERABLE.APPLICABILITY:
-AcousticMonitor15.Containment WaterLevel(NarrowRange)16.Containment WaterLevel(WideRange)17.Radiation Monitoring Channels22/SteamGenerator 1/SteamGenerator 1/SteamGenerator*
Modes 1 and 2.ACTION: a.With one hydrogen analysis device inoperable, restore the inoperable analysis device to OPERABLE status within 30 days or be in at least HOT STANDBY within the next 6 hours.b.With both hydrogen analysis devices inoperable, restore at least one analysis device to OPERABLE status within 72 hours or be in at least HOT STANDBY within the next 6 hours.SURVEILLANCE RE UIREMENTS 4.6.4.1 Each hydrogen analysis device shall be demonstrated OPERABLE at least once per 92 days on a STAGGERED TEST BASIS by performing a CHANNEL CALIBRATION using a four percent and fifteen percent nominal hydrogen gas, balance nitrogen.D.C.COOK-UNIT 2 3/4 6-33 Amendment No.
1/Valve1/Valve1/ValvePerTable3.3-6A0*SteamGenerator WaterLevelChannelscanbeusedasasubstitute forthecorresponding auxiliary feedwater flowratechannelinstrument.
INSTRUMENTATION CHLORINE DETECTION SYSTEM LIMITING CONDIT1ON FOR OPERATION 3.3.3.11 The chlorine detection system, with its alarm setpoint adjusted to actuate at a chlorine concentra'tion of less than or equal to 5 ppm, ,shall be OPERABLE.APPLICABILIY:
**PRODAC250subcooling marginreadoutcanbeusedasasubstitute forthesubcooling monitorinstrument.
All MODES.ACTION: a 0 With the chlorine detection system inoperable, within 1 hour initiate and maintain operation of the control room emergency ventilation system in the recirculation mode of operation.
***Acoustic monitoring ofPORVposition(1channelperthreevalves-headereddischarge) canbeusedasasubstitute forthePORVPositionIndicator
b.The provisions of Specifications 3.0.4 are not applicable.
-LimitSwitchesinstruments.
SURVEILLANCE RE UIREMENTS 4.3.3.11 The chlorine detection system shall be demonstrated OPERABLE by performance of a CHANNEL FUNCTIONAL TEST at least once per 31 days and a CHANNEL CALIBRATION at least once per 18 months.D.C.COOK-UNIT 1 3/4 3-69 Amendment No.
TABLE4.3-7POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REUIREMENTS INSTRUMENT 1.Containment Pressure2.ReactorCoolantOutletTemperature
INSTRUMENTATION CHLORINE DETECTION SYSTEM LIMITING CONDITION FOR OPERATION 3.3.3.11 The chlorine detection system, with its alarm setpoint adjusted to actuate at a chlorine concentration of less than or equal to 5 ppm, shall be OPERABLE.APPLICABILITY:
-T(WideRange)3ReactorCoolantInletTemperature
ALL MODES.ACTION: a 0 With the chlorine detection system inoperable, within 1 hour initiate and maintain operation of the control room emergency ventilation system in the recirculation mode of operation.
-TCOLD(WideRange)4.ReactorCoolantPressure-WideRange5.Pressurizer WaterLevel6.SteamLinePressure7.SteamGenerator WaterLevel-NarrowRange8.RWSTWaterLevel9.BoricAcidTankSolutionLevel10.Auxiliary Feedwater FlowRate/11.ReactorCoolantSystemSubcooling MarginMonitor12.PORVPositionIndicator
b.The provisions of Specification 3.0.4 are not applicable.
-LimitSwitches13.PORVBlockValvePositionIndicator
SURVEILLANCE RE UIREMENTS 4.3.3.11 The chlorine detection system shall be demonstrated OPERABLE by performance of a CHANNEL FUNCTIONAL TEST at least once per 31 days and a CHANNEL CALIBRATION at least once per 18 months.D.C.COOK-UNIT 2 3/4 3-64a Amendment No.
-LimitSwitches14.SafetyValvePositionIndicator
I INSTRUMENTATION BASES 3/4'.3.9 RADIOACTIVE LI UID EFFLUENT INSTRUMENTATION The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluent during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.10 RADIOACTIVE GASEOUS EFFLUENT INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor arid control, as applicable, the releases of radioactive materials in gaseous effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits.This instrumentation also includes provisions for monitoring the concentrations of potentially explosive gas mixtures in the waste gas holdup system.The OPERABILITY and use of this instru-mentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.11 CHLORINE DETECTION SYSTEM The OPERABILITY of the detection system ensures that sufficient capability is available to promptly detect and initiate protective action in the event of an accidental chlorine release.This capability is required to protect control room personnel and is consistent with the recommendations of Regulatory Guide 1.95,"Protection of Nuclear Power Plant Control Room Operators Against an Accidental Chlorine Release," February, 1975.D.C.COOK-UNIT 1 B 3/4 3-5 Amendment No.
-AcousticMonitor15.Containment WaterLevel(NarrowRange)16.Containment WaterLevel(WideRange)17.Radiation Monitoring Channels(PerTable4.3-3A)CHANNELCHECKN/AN/ACHANNELCALIBRATION R  
3/4.3 INSTRUMENTATION BASES 3/4.3.3.8 FIRE DETECTION INSTRUMENTATION OPERABILITY of the fire detection instrumentation ensures that adequate warning capability is available for the prompt detection of fires.This capability is required in order to detect and locate fires in their early stages.Prompt detection of fires will reduce the potential for damage to safety-related equipment and is an integral element in the overall facility fire protection program.In the event that a portion of the fire detection instrumentation is inoperable, the establishment of frequent fire patrols in the affected areas is required to provide detection capability until the inoperable instrumentation is returned to service.3/4.3.3.9 RADIOACTIVE LI UID EFFLUENT INSTRUMENTATZON The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.10 RADIOACTIVE GASEOUS EFFLUENT INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in gaseous effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20.This instrumentation also includes provisions for monitoring the concentrations of potentially explosive gas mixtures in the waste gas holdup system.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for , the Donald C.Cook Nuclear Plant.3/4.3.3.11 CHLORINE DETECTION SYSTEM The OPERABILITY of the detection system ensures that sufficient capability is available to promptly detect and initiate protective action in the event of an accidental chlorine release.This capability is required to protect control room personnel and is consistent with the recommendations of Regulatory Guide 1.95,"Protection of Nuclear Power Plant Control Room Operators Against an Accidental Chlorine Release," February, 1975.D.C.COOK-UNIT 2 B 3/4 3-3 Amendment No.
"TABLE4.3-10POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE REUIREMENTS INSTRUMENT 1.Containment Pressure2.ReactorCoolantOutletTemperature
3/4 3.4 TURBINE OVERSPEED PROTECTION h This specification is provided to ensure that the turbine overspeed protection instrumentation and the turbine speed control valves are OPERABLE and will protect the turbine from excessive overspeed.
-T(WideRange)3.ReactorCoolantInletTemperature
Protection from turbine excessive overspeed is required since excessive overspeed of the turbine could generate potentially damaging missiles which could impact and damage safety related components, equipment or structures.
-T(WideRange)4.ReactorCoolantPressure-WideRange5.Pressurizer WaterLevel6.SteamLinePressure7..SteamGenerator WaterLevel-NarrowRange8.RWSTWaterLevel9.BoricAcidTankSolutionLevel10.Auxiliary Feedwater FlowRate11.ReactorCoolantSystemSubcooling MarginMonitor12.PORVPositionIndicator
D.C.COOK.-UNIT 2 B 3/4 3-4 Amendment No.
-LimitSwitches13.PORVBlockValve-PositionIndicator
PLANT SYSTEMS 3/4.7.5 CONTROL ROOM EMERGENCY VENTILATION SYSTEM LIMITING CONDITION FOR OPERATION 3.7.5.1 The control room emergency ventilation system shall be OPERABLE with: a.Two independent heating and cooling systems, b.Two independent pressurization fans, and c.One charcoal absorber and HEPA filter train.APPLICABILITY:
-LimitSwitches14.SafetyValvePositionIndicator
ALL MODES.ACTION: MODES 1, 2, 3, and 4: With one heating and cooling system inoperable, restore the inoperable system to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.b.With one pressurization fan inoperable, restore the inoperable fan to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.c.With the filter train inoperable, restore the filter train to OPERABLE status within 24 hours or be in at least HOT,STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.P MODES 5 and 6: d.With one pressurization fan inoperable, do one of the following:
-AcousticMonitor15.Containment WaterLevel(NarrowRange)16.Containment WaterLevel(WideRange)17.Radiation Monitoring Channels(PerTable4.3-3A)CHANNELCHECKN/AN/ACHANNELCALIBRATION R
(1)restore the inoperable fan to OPERABLE status within 7 days, or(2)initiate and maintain operation of the remaining OPERABLE pressurization fan and the filter train in a recirculation mode, or (3)suspend all operations involving CORE ALTERATIONS or positive reactivity changes.e.With any of the following (1)both heating and cooling systems;(2)both pressurization fans;,(3)the filter train>inoperable, suspend all operations involving CORE ALTERATIONS or positive'reactivity changes.SURVEILLANCE RE UIREMENTS 4.7.5.1 The control room emergency ventilation system shall be demonstrated OPERABLE: a.At least once per 12 hours by verifying that the control room air 0 temperature is<120 F.D.C.COOK-UNIT 2 3/4 7-14 Amendment No.
CONTAINMENT SYSTEMS3/4.6.4COMBUSTIBLE GASCONTROLHYDROGENANALYZERS LIMITINGCONDITION FOROPERATION 3.6.4.1Twocontainment hydrogenanalyzers shallbeOPERABLE.
PLANT SYSTEMS SURVEILLANCE RE UIREMENTS (Continued) b.At least once per 31 days on a STAGGERED TEST BASIS by initiating flow through the HEPA filter and charcoal adsorber train and verifying that the system operates for at least 15 minutes.co At least once per 18 months or (1)after any structural maintenance on the HEPA filter or charcoal adsorber housings, or (2)following painting, fire or chemical release xn any ventilation zone com-municating with the system by: 1.Verifying that the charcoal adsorbers remove>99%of a halogenated hydrocarbon refrigerant test gas when they are tested in-place in accordance with ANSI N510-1975 while operating the ventilation system at a flow rate of , 6000 cfm+10%.2.3.Verifying that the HEPA filter banks remove>99%of the DOP when they are tested in-place in accordance with ANSI.N510-1975 while operating the ventilation system at a flow rate of 6000 cfm+10%.Verifying within 31 days after removal that a laboratory analysis of a carbon sample from either at least one test canister or at least two carbon samples removed from one of the charcoal adsorbers demonstrates a removal efficiency of>90%for radioactive methyl iodide when the sample is tested in accordance with ANSI N510-1975 (130 C, 95%R.H.).The carbon samples not obtained from test canisters shall be prepared by either: a)Emptying one entire bed from a removed adsorber tray mixing the adsorbent thoroughly, and obtaining samples at least two inches in diameter and with a length equal to the thickness of the bed, or b)Emptying a longitudinal sample from an adsorber tray, mixing the adsorbent thoroughly, and obtaining samples at least two inches in diameter and with a length equal to the thickness of the bed.4.Verifying a.system flow rate of 6000 cfm+10%during system operation when tested in accordance with ANSI N510-1975.
APPLICABILITY:
d.After every 720 hours of charcoal adsorber operation by either: D.C.COOK-UNIT 2 3/4 7-15 Amendment.
MODES1and2ACTION:a0Withonehydrogenanalysisdeviceinoperable, restoretheinoperable analysisdevicetoOPERABLEstatuswithin30daysorbeinatleastHOTSTANDBYwithinthenext6hours.b.Withbothhydrogenanalysisdevicesinoperable, restoreatleastoneanalysisdevicetoOPERABLEstatuswithin72hoursorbeinatleastHOTSTANDBYwithinthenext6hours.SURVEILLANCE REUIREMENTS 4.6.4.1Eachhydrogenanalysisdeviceshallbedemonstrated OPERABLEatleastonceper92daysonaSTAGGERED TESTBASISbyperforming aCHANNELCALIBRATION usingafourpercentandfifteenpercentnominalhydrogengas,balancenitrogen.
D.C.COOK-UNIT13/46-23Amendment No.
CONTAINMENT SYSTEMS3/4.6.4COMBUSTIBLE GASCONTROLHYDROGENANALYZERS LIMITINGCONDITION FOROPERATION 3.6.4.1Twocontainment hydrogenanalyzers shallbeOPERABLE.
APPLICABILITY:
Modes1and2.ACTION:a.Withonehydrogenanalysisdeviceinoperable, restoretheinoperable analysisdevicetoOPERABLEstatuswithin30daysorbeinatleastHOTSTANDBYwithinthenext6hours.b.Withbothhydrogenanalysisdevicesinoperable, restoreatleastoneanalysisdevicetoOPERABLEstatuswithin72hoursorbeinatleastHOTSTANDBYwithinthenext6hours.SURVEILLANCE REUIREMENTS 4.6.4.1Eachhydrogenanalysisdeviceshallbedemonstrated OPERABLEatleastonceper92daysonaSTAGGERED TESTBASISbyperforming aCHANNELCALIBRATION usingafourpercentandfifteenpercentnominalhydrogengas,balancenitrogen.
D.C.COOK-UNIT23/46-33Amendment No.
INSTRUMENTATION CHLORINEDETECTION SYSTEMLIMITINGCONDIT1ON FOROPERATION 3.3.3.11Thechlorinedetection system,withitsalarmsetpointadjustedtoactuateatachlorineconcentra'tion oflessthanorequalto5ppm,,shallbeOPERABLE.
APPLICABILIY:
AllMODES.ACTION:a0Withthechlorinedetection systeminoperable, within1hourinitiateandmaintainoperation ofthecontrolroomemergency ventilation systemintherecirculation modeofoperation.
b.Theprovisions ofSpecifications 3.0.4arenotapplicable.
SURVEILLANCE REUIREMENTS 4.3.3.11Thechlorinedetection systemshallbedemonstrated OPERABLEbyperformance ofaCHANNELFUNCTIONAL TESTatleastonceper31daysandaCHANNELCALIBRATION atleastonceper18months.D.C.COOK-UNIT13/43-69Amendment No.
INSTRUMENTATION CHLORINEDETECTION SYSTEMLIMITINGCONDITION FOROPERATION 3.3.3.11Thechlorinedetection system,withitsalarmsetpointadjustedtoactuateatachlorineconcentration oflessthanorequalto5ppm,shallbeOPERABLE.
APPLICABILITY:
ALLMODES.ACTION:a0Withthechlorinedetection systeminoperable, within1hourinitiateandmaintainoperation ofthecontrolroomemergency ventilation systemintherecirculation modeofoperation.
b.Theprovisions ofSpecification 3.0.4arenotapplicable.
SURVEILLANCE REUIREMENTS 4.3.3.11Thechlorinedetection systemshallbedemonstrated OPERABLEbyperformance ofaCHANNELFUNCTIONAL TESTatleastonceper31daysandaCHANNELCALIBRATION atleastonceper18months.D.C.COOK-UNIT23/43-64aAmendment No.
I INSTRUMENTATION BASES3/4'.3.9RADIOACTIVE LIUIDEFFLUENTINSTRUMENTATION Theradioactive liquideffluentinstrumentation isprovidedtomonitorandcontrol,asapplicable, thereleasesofradioactive materials inliquideffluentduringactualorpotential releases.
Thealarm/trip setpoints fortheseinstruments shallbecalculated inaccordance withNRCapprovedmethodsintheODCMtoensurethatthealarm/trip willoccurpriortoexceeding thelimitsof10CFRPart20.TheOPERABILITY anduseofthisinstrumentation isconsistent withtherequirements ofGeneralDesignCriteriaspecified inSection11.3oftheFinalSafetyAnalysisReportfortheDonaldC.CookNuclearPlant.3/4.3.3.10 RADIOACTIVE GASEOUSEFFLUENTINSTRUMENTATION Theradioactive gaseouseffluentinstrumentation isprovidedtomonitoraridcontrol,asapplicable, thereleasesofradioactive materials ingaseouseffluents duringactualorpotential releases.
Thealarm/trip setpoints fortheseinstruments shallbecalculated inaccordance withNRCapprovedmethodsintheODCMtoensurethatthealarm/trip willoccurpriortoexceeding thelimits.Thisinstrumentation alsoincludesprovisions formonitoring theconcentrations ofpotentially explosive gasmixturesinthewastegasholdupsystem.TheOPERABILITY anduseofthisinstru-mentation isconsistent withtherequirements ofGeneralDesignCriteriaspecified inSection11.3oftheFinalSafetyAnalysisReportfortheDonaldC.CookNuclearPlant.3/4.3.3.11 CHLORINEDETECTION SYSTEMTheOPERABILITY ofthedetection systemensuresthatsufficient capability isavailable topromptlydetectandinitiateprotective actionintheeventofanaccidental chlorinerelease.Thiscapability isrequiredtoprotectcontrolroompersonnel andisconsistent withtherecommendations ofRegulatory Guide1.95,"Protection ofNuclearPowerPlantControlRoomOperators AgainstanAccidental ChlorineRelease,"
: February, 1975.D.C.COOK-UNIT1B3/43-5Amendment No.
3/4.3INSTRUMENTATION BASES3/4.3.3.8 FIREDETECTION INSTRUMENTATION OPERABILITY ofthefiredetection instrumentation ensuresthatadequatewarningcapability isavailable forthepromptdetection offires.Thiscapability isrequiredinordertodetectandlocatefiresintheirearlystages.Promptdetection offireswillreducethepotential fordamagetosafety-related equipment andisanintegralelementintheoverallfacilityfireprotection program.Intheeventthataportionofthefiredetection instrumentation isinoperable, theestablishment offrequentfirepatrolsintheaffectedareasisrequiredtoprovidedetection capability untiltheinoperable instrumentation isreturnedtoservice.3/4.3.3.9 RADIOACTIVE LIUIDEFFLUENTINSTRUMENTATZON Theradioactive liquideffluentinstrumentation isprovidedtomonitorandcontrol,asapplicable, thereleasesofradioactive materials inliquideffluents duringactualorpotential releases.
Thealarm/trip setpoints fortheseinstruments shallbecalculated inaccordance withNRCapprovedmethodsintheODCMtoensurethatthealarm/trip willoccurpriortoexceeding thelimits.TheOPERABILITY anduseofthisinstrumentation isconsistent withtherequirements ofGeneralDesignCriteriaspecified inSection11.3oftheFinalSafetyAnalysisReportfortheDonaldC.CookNuclearPlant.3/4.3.3.10 RADIOACTIVE GASEOUSEFFLUENTINSTRUMENTATION Theradioactive gaseouseffluentinstrumentation isprovidedtomonitorandcontrol,asapplicable, thereleasesofradioactive materials ingaseouseffluents duringactualorpotential releases.
Thealarm/trip setpoints fortheseinstruments shallbecalculated inaccordance withNRCapprovedmethodsintheODCMtoensurethatthealarm/trip willoccurpriortoexceeding thelimitsof10CFRPart20.Thisinstrumentation alsoincludesprovisions formonitoring theconcentrations ofpotentially explosive gasmixturesinthewastegasholdupsystem.TheOPERABILITY anduseofthisinstrumentation isconsistent withtherequirements ofGeneralDesignCriteriaspecified inSection11.3oftheFinalSafetyAnalysisReportfor,theDonaldC.CookNuclearPlant.3/4.3.3.11 CHLORINEDETECTION SYSTEMTheOPERABILITY ofthedetection systemensuresthatsufficient capability isavailable topromptlydetectandinitiateprotective actionintheeventofanaccidental chlorinerelease.Thiscapability isrequiredtoprotectcontrolroompersonnel andisconsistent withtherecommendations ofRegulatory Guide1.95,"Protection ofNuclearPowerPlantControlRoomOperators AgainstanAccidental ChlorineRelease,"
: February, 1975.D.C.COOK-UNIT2B3/43-3Amendment No.
3/43.4TURBINEOVERSPEED PROTECTION hThisspecification isprovidedtoensurethattheturbineoverspeed protection instrumentation andtheturbinespeedcontrolvalvesareOPERABLEandwillprotecttheturbinefromexcessive overspeed.
Protection fromturbineexcessive overspeed isrequiredsinceexcessive overspeed oftheturbinecouldgeneratepotentially damagingmissileswhichcouldimpactanddamagesafetyrelatedcomponents, equipment orstructures.
D.C.COOK.-UNIT2B3/43-4Amendment No.
PLANTSYSTEMS3/4.7.5CONTROLROOMEMERGENCY VENTILATION SYSTEMLIMITINGCONDITION FOROPERATION 3.7.5.1Thecontrolroomemergency ventilation systemshallbeOPERABLEwith:a.Twoindependent heatingandcoolingsystems,b.Twoindependent pressurization fans,andc.OnecharcoalabsorberandHEPAfiltertrain.APPLICABILITY:
ALLMODES.ACTION:MODES1,2,3,and4:Withoneheatingandcoolingsysteminoperable, restoretheinoperable systemtoOPERABLEstatuswithin7daysorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.b.Withonepressurization faninoperable, restoretheinoperable fantoOPERABLEstatuswithin7daysorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.c.Withthefiltertraininoperable, restorethefiltertraintoOPERABLEstatuswithin24hoursorbeinatleastHOT,STANDBY withinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.PMODES5and6:d.Withonepressurization faninoperable, dooneofthefollowing:
(1)restoretheinoperable fantoOPERABLEstatuswithin7days,or(2)initiateandmaintainoperation oftheremaining OPERABLEpressurization fanandthefiltertraininarecirculation mode,or(3)suspendalloperations involving COREALTERATIONS orpositivereactivity changes.e.Withanyofthefollowing (1)bothheatingandcoolingsystems;(2)bothpressurization fans;,(3) thefiltertrain>inoperable, suspendalloperations involving COREALTERATIONS orpositive'reactivity changes.SURVEILLANCE REUIREMENTS 4.7.5.1Thecontrolroomemergency ventilation systemshallbedemonstrated OPERABLE:
a.Atleastonceper12hoursbyverifying thatthecontrolroomair0temperature is<120F.D.C.COOK-UNIT23/47-14Amendment No.
PLANTSYSTEMSSURVEILLANCE REUIREMENTS (Continued) b.Atleastonceper31daysonaSTAGGERED TESTBASISbyinitiating flowthroughtheHEPAfilterandcharcoaladsorbertrainandverifying thatthesystemoperatesforatleast15minutes.coAtleastonceper18monthsor(1)afteranystructural maintenance ontheHEPAfilterorcharcoaladsorberhousings, or(2)following
: painting, fireorchemicalreleasexnanyventilation zonecom-municating withthesystemby:1.Verifying thatthecharcoaladsorbers remove>99%ofahalogenated hydrocarbon refrigerant testgaswhentheyaretestedin-placeinaccordance withANSIN510-1975 whileoperating theventilation systemataflowrateof,6000cfm+10%.2.3.Verifying thattheHEPAfilterbanksremove>99%oftheDOPwhentheyaretestedin-placeinaccordance withANSI.N510-1975 whileoperating theventilation systemataflowrateof6000cfm+10%.Verifying within31daysafterremovalthatalaboratory analysisofacarbonsamplefromeitheratleastonetestcanisteroratleasttwocarbonsamplesremovedfromoneofthecharcoaladsorbers demonstrates aremovalefficiency of>90%forradioactive methyliodidewhenthesampleistestedinaccordance withANSIN510-1975 (130C,95%R.H.).Thecarbonsamplesnotobtainedfromtestcanisters shallbepreparedbyeither:a)Emptyingoneentirebedfromaremovedadsorbertraymixingtheadsorbent thoroughly, andobtaining samplesatleasttwoinchesindiameterandwithalengthequaltothethickness ofthebed,orb)Emptyingalongitudinal samplefromanadsorbertray,mixingtheadsorbent thoroughly, andobtaining samplesatleasttwoinchesindiameterandwithalengthequaltothethickness ofthebed.4.Verifying a.systemflowrateof6000cfm+10%duringsystemoperation whentestedinaccordance withANSIN510-1975.
d.Afterevery720hoursofcharcoaladsorberoperation byeither:D.C.COOK-UNIT23/47-15Amendment.
No.
No.
PLANTSYSTEMS3/4.7.5CONTROLROOMEMERGENCY VENTILATION SYSTEMLZMITINGCONDITION FOROPERATION 3.7.5.1Thecontrolroomemergency ventilation systemshallbeOPERABLEwith:aoTwoindependent heatingandcoolingsystems,b.c~Twoindependent pressurization fans,andOnecharcoalabsorberandHEPAfiltertrain.APPLICABILITY:
PLANT SYSTEMS 3/4.7.5 CONTROL ROOM EMERGENCY VENTILATION SYSTEM LZMITING CONDITION FOR OPERATION 3.7.5.1 The control room emergency ventilation system shall be OPERABLE with: ao Two independent heating and cooling systems, b.c~Two independent pressurization fans, and One charcoal absorber and HEPA filter train.APPLICABILITY:
ALLMODES.ACTION:MODES1,2,3,and4:a.Withoneheatingand.coolingsysteminoperable, restoretheinoperable systemtoOPERABLEstatuswithin7daysorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.b.Withonepressurization faninoperable, restoretheinoperable fantoOPERABLEstatuswithin7daysorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.c.Withthefiltertraininoperable, restorethefiltertraintoOPERABLEstatuswithin24hoursorbeinatleastHOTSTANDBYwithinthenext6hoursandinCOLDSHUTDOWNwithinthefollowing 30hours.MODES5and6:d.Withonepressurization faninoperable, dooneofthefollowing:
ALL MODES.ACTION: MODES 1, 2, 3, and 4: a.With one heating and.cooling system inoperable, restore the inoperable system to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.b.With one pressurization fan inoperable, restore the inoperable fan to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.c.With the filter train inoperable, restore the filter train to OPERABLE status within 24 hours or be in at least HOT STANDBY within the next 6 hours and in COLD SHUTDOWN within the following 30 hours.MODES 5 and 6: d.With one pressurization fan inoperable, do one of the following:
(1)restoretheinoperable fantoOPERABLEstatuswithin7days,or(2)initiateandmaintainoperation oftheremaining OPERABLEpressurization fanandthefiltertraininarecirculation mode,or(3)suspendalloperations involving COREALTERATIONS orpositivereactivity changes.e..With,anyofthefollowing (1)bothheatingandcoolingsystems;(2)bothpressurization fans;(3)thefiltertrain;inoperable',.
(1)restore the inoperable fan to OPERABLE status within 7 days, or (2)initiate and maintain operation of the remaining OPERABLE pressurization fan and the filter train in a recirculation mode, or (3)suspend all operations involving CORE ALTERATIONS or positive reactivity changes.e..With, any of the following (1)both heating and cooling systems;(2)both pressurization fans;(3)the filter train;inoperable',.
suspendalloperations involving COREALTERATIONS orpositivereactivity changes.SURVEILLANCE REUIREMENTS
suspend all operations involving CORE ALTERATIONS or positive reactivity changes.SURVEILLANCE RE UIREMENTS~4.7.5.1 The control room emergency ventilation system shall be demonstrated OPERABLE: a.At least once pea'2 hours by verifying that the control room air 0 temperature is<120 F.D.C.COOK-UNIT 1 3/4 7-19 Amendment No.}}
~4.7.5.1Thecontrolroomemergency ventilation systemshallbedemonstrated OPERABLE:
a.Atleastoncepea'2hoursbyverifying thatthecontrolroomair0temperature is<120F.D.C.COOK-UNIT13/47-19Amendment No.}}

Revision as of 06:42, 6 July 2018

Proposed Tech Specs for Compliance w/NUREG-0737 Requirements
ML17334A533
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 07/19/1984
From:
INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:
Shared Package
ML17334A532 List:
References
NUDOCS 8407240188
Download: ML17334A533 (24)


Text

ATTACHMENT NO.2 TO AEP:NRC:0856A DONALD C.COOK NUCLEAR PLANT UNIT NOS.1 AND 2 PROPOSED TECHNICAL SPECIFICATIONS eoR 84o'71 9 ADOCg gg'Ppp~~g t,DR~~.;

ADMINISTRATIVE CONTROLS 6.8.3 a 0 Temporary changes to procedures of 6.8.1 above may be made provided: The intent of the original procedure is not altered.b.The change is approved by two members of the plant management staff, at least one of whom holds a Senior Reactor Operator's License on the unit affected.C~The change is documented, reviewed by the PNSRC and approved by the Plant Manager within 14 days of implementation.

6.8.4 Plant procedures for post-accident sampling shall be established, implemented, and maintained which will ensure the capability to obtain and analyze reactor coolant and containment atmosphere samples and radioactive iodines and particulate samples in plant gaseous effluents under accident conditions.

The program will include the following:

a~Training of personnel, b.Procedures for sampling and analysis, c~Provisions for maintenance of sampling and analysis equipment.

D.C.COOK-UNIT 1 6-14 Amendment No.

6.9 REPORTING RE UIREMENTS ROUTINE REPORTS AND REPORTABLE OCCURRENCES 6.9.1 In addition to the applicable reporting requirements of Title 10, Code of Federal Regulations, the following reports shall be sub-mitted to the Director of the Regional Office of Inspection and Enforcement unless otherwise noted.STARTUP REPORT 6.9.1.1 A summary report of plant startup and power escalation testing shall be submitted following (1)receipt of an operating license, (2)amendment to the license involving a planned increase in power level, (3)installation of fuel that has a different design or has been manufactured by a different fuel supplier, and (4)modifications that may have significantly altered the nuclear, thermal, or hydraulic performance of the plant.6.9.1.2 The startup report shall address each of the tests identified in the FSAR and shall include a description of the measured values of the operating conditions or characteristics obtained during the test program and a comparison of these values with design predictions and specifications.

Any corrective actions that were required to obtain satisfactory operation shall also be described.

Any additional specific details required in license conditions based on other commitments shall be included in this report.D.C.COOK-UNIT 1 6-14a Amendment No.

ADMINISTRATIVE CONTROLS 6.8.3 Temporary changes to procedures of 6.8.1 above may be made provided: a.The intent of the original procedure is not altered.b.The change is approved by two members of the plant management staff, at least one of whom holds a Senior Reactor Operator's License on the unit affected.ce The change is documented, reviewed by the PNSRC and approved by the Plant Manager within 14 days of implementation.

6.8.4 Plant procedures for post-accident sampling shall be established, implemented, and maintained which will ensure the capability to obtain and analyze reactor coolant and containment atmosphere samples and radioactive iodines and particulate samples in plant gaseous effluents under accident conditions.

The program will-include the following:

a~b.c~Training of personnel, Procedures for sampling and analysis, Provision for maintenance of sampling and analysis equipment.

D.C.COOK-UNIT 2 6-14 Amendment No.

6.9 REPORTING RE UIREMENTS ROUTINE REPORTS AND REPORTABLE OCCURRENCES 6.9.1 In addition to the applicable reporting requirements of Title 10, Code of Federal Regulations, the following reports shall be submitted to the Director of the Regional Office of Inspection and Enforcement unless otherwise noted.STARTUP REPORT 6.9.1.1 A summary report of plant startup and power escalation testing shall be submitted following (1)receipt of an operating license, (2)amendment to the license involving a planned increase in power level, (3)installation of fuel that has a different design or has been manufactured by a different fuel supplier, and (4)modifications that may have significantly altered the nuclear, thermal, or hydraulic performance of the plant.6.9.1.2 The startup report shall address each of the tests identified in the FSAR and shall include a description of the measured value of the operating conditions or characteristics obtained during the test program and a comparison of these values with design predictions and specifications.

Any corrective actions that were required to obtain satisfactory operation shall also be described.

'Any additional specific details required in license conditions based on other commitments shall be included in this report.6.9.1.3 Startup reports shall be submitted within (1)90 days following completion of the startup test program, (2)90 days following resumption or commencement of commercial power operation, and (3)9 months following initial criticality, whichever is earliest.If the Startup Report does not cover all three events (i.e., initial criticality, completion of startup test program, and resumption or commencement of commercial D.C.COOK-UNIT 2 6-14a Amendment No.

TABLE 3.3-6A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUM CHANNELS OPERABLE APPLICABLE MODES MEASUREMENT RANGE ACTION l.AREA MONITORS HIGH RANGE Containment Area 11 21 3 1 to 10 rad/hr 7 PHOTON 2.Noble Gas Effluent Monitors a)UNIT VENT i Mid Range*(VRS-1507) 1, 2, 3-2 3 2.5x10 to 10 p Ci/cc ii High Range (VRS-1509) 1I 2I 3 10 to 10 pCi/cc 5 b)Atmospheric Steam Dump Valves Discharge c)Gland Seal (1)Exhaust Mid Range (SRA-1807) d)Condenser Exhaust (1)System Mid Range (SRA-1907) 1/Loop 1, 2, 3 1/2i 3 1, 2, 3 3 to 10 pCi/cc 5-2 3 2.Sxl0 to 10 pCi/cc-2 3 2.5x10 to 10 pCi/cc*Automatic Switchover to High Range only Configuration (Alarm/Trip Setpoint is lxl0~Ci/cc)**Per Requirements of Specification 3.3.3.8 (1)These instruments are under special test operation mode for moisture concern, but are functionally OPERABLE.

TABLE 3.3-6A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION INSTRUMENT MINIMUM CHANNELS OPERABLE APPLICABLE MODES MEASUREMENT RANGE ACTION l.AREA MONITORS HIGH RANGE Containment Area 1I 2I 3 1 to 10 rad/hr 7 PHOTON 2.Noble Gas Effluent Monitors a)UNIT VENT i.Mid Range>>(VRS-2507) 1I 2I 3-2 3 2.5x10 to 10 pCi/cc ii.High Range (VRS-2509)

~1/2/3 10 to 10>Ci/cc 5 b)Atmospheric Steam Dump Valves Discharge c)Gland Seal (1)Exhaust Mid Range (SRA-2807)

(1)d)Condenser Exhaust System Mid Range (SRA-2907) 1/Loop 1, 2, 3 1I 2I 3 1I 2I 3 3 to 10>Ci/cc 5-2 3 2.5x10 to 10>Ci/cc-2 3 2.5x10 to 10~Ci/cc*Automatic Switchover to High Range only Configuration (Alarm/Trip Setpoint is lx10~Ci/cc)**Per Requirements of Specification 3.3.3.6 (1)These instruments are under special test operation mode for moisture concern, but are functionally OPERABLE.

7 TABLE 4.3-3A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS O 0 0 I t3 INSTRUMENT 1.AREA MONITORS CHANNEL CHECK CHANNEL CALIBRATION CHANNEL MODES FOR WHICH FUNCTIONAL SURVEILLANCE IS High Range Containment Area N/A 1I 2I 3 2.Noble Gas Effluent Monitors a)Unit Vent i.Mid'ange (VRS-1507) ii.High Range (VRS-1509)

N/A 1I 2I 3 1, 2, 3 b)Atmospheric Steam Dump Valve Discharge c)Gland Seal Exhaust (1)Mid Range (SRA-1807) d)Condenser Exhaust System (1)Mid Range (SRA-1907)

M R N/A N/A N/A 1, 2, 3 1I 2I 3 1, 2, 3 0*Acceptable criteria for calibration are provided in Table II.F.1-3 of NUREG-0737.

(1)These insgrpnents are undey sp8gjg pgst operation mode for moisture concern, u.are functxona ly-O A O Q I TABLE 4.3-3A POST-ACCIDENT RADIATION MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT CHANNEL CHECK CHANNEL CALIBRATION CHANNEL MODES FOR WHICH FUNCTIONAL SURVEILLANCE IS 1.AREA MONITORS High Range Containment Area N/A 1, 2, 3 2.Nob'le Gas Effluent'onitors a)Unit Vent.i.Mid Range (VRS-2507) ii.High Range (VRS-2509)

N/A 1/2I 3 1I 2I 3 b)Atmospheric Steam Dump Valve Discharge c)Gland Seal Exhaust (1),Mid Range (SRA-2807) d)Condenser Exhaust System (1)Mid Range (SRA-2907)

N/A N/A N/A 1I 2I 3 1I 2I 3 1, 2, 3 0*Acceptable criteria for calibration are provided in Table II.F.1-,3 of NUREG-0737.

(1)These instruments are under special test operation mode for moisture concern, nut are functionally SBPutBFR..

a TABLE 3.3-11-POST-ACCIDENT MONITORING INSTRUMENTATION INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature

-T (Wide Range)3.Reactor Coolant Inlet Temperature

-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.Refueling Water Storage Tank Water Level , 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate ll.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches***

13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic.Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels MINIMUM CHANNELS OPERABLE 2/Steam Generator 1/Steam Generator 1/Steam Generator*

1/Valve 1/Valve 1/Valve Per Table 3.3-6A 0*Steam Generator Water Level Channels can be used as a substitute for the corresponding auxiliary feedwater flow.rate channel instrument.

    • PRODAC 250 subcooling margin readout can be used as a substitute for the subcooling monitor instrument.
      • Acoustic monitoring of PORV position (1 channel per three valves-.headered discharge) can be used as a substitute for the pORV position Indicator-Limit Switches instruments.

A A o O I H INSTRUMENT 1.Containment Pressure TABLE 3.3-10 POST-ACCIDENT MONITORING INSTRUMENTATION MINIMUM CHANNELS OPERABLE 2.Reactor Coolant Outlet Temperature

-T (Wide Range)3.Reactor Coolant Inlet Temperature

-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.Refueling Water Storage Tank Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate 11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches***

13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels 2 2/Steam Generator 1/Steam Generator 1/Steam Generator*

1/Valve 1/Valve 1/Valve Per Table 3.3-6A 0*Steam Generator Water Level Channels can be used as a substitute for the corresponding auxiliary feedwater flow rate channel instrument.

    • PRODAC 250 subcooling margin readout can be used as a substitute for the subcooling monitor instrument.
      • Acoustic monitoring of PORV position (1 channel per three valves-headered discharge) can be used as a substitute for the PORV Position Indicator-Limit Switches instruments.

TABLE 4.3-7 POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature

-T (Wide Range)3 Reactor Coolant Inlet Temperature

-TCOLD (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7.Steam Generator Water Level-Narrow Range 8.RWST Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate/11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches 13.PORV Block Valve Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels (Per Table 4.3-3A)CHANNEL CHECK N/A N/A CHANNEL CALIBRATION R

"TABLE 4.3-10 POST-ACCIDENT MONITORING INSTRUMENTATION SURVEILLANCE RE UIREMENTS INSTRUMENT 1.Containment Pressure 2.Reactor Coolant Outlet Temperature

-T (Wide Range)3.Reactor Coolant Inlet Temperature

-T (Wide Range)4.Reactor Coolant Pressure-Wide Range 5.Pressurizer Water Level 6.Steam Line Pressure 7..Steam Generator Water Level-Narrow Range 8.RWST Water Level 9.Boric Acid Tank Solution Level 10.Auxiliary Feedwater Flow Rate 11.Reactor Coolant System Subcooling Margin Monitor 12.PORV Position Indicator-Limit Switches 13.PORV Block Valve-Position Indicator-Limit Switches 14.Safety Valve Position Indicator-Acoustic Monitor 15.Containment Water Level (Narrow Range)16.Containment Water Level (Wide Range)17.Radiation Monitoring Channels (Per Table 4.3-3A)CHANNEL CHECK N/A N/A CHANNEL CALIBRATION R

CONTAINMENT SYSTEMS 3/4.6.4 COMBUSTIBLE GAS CONTROL HYDROGEN ANALYZERS LIMITING CONDITION FOR OPERATION 3.6.4.1 Two containment hydrogen analyzers shall be OPERABLE.APPLICABILITY:

MODES 1 and 2 ACTION: a 0 With one hydrogen analysis device inoperable, restore the inoperable analysis device to OPERABLE status within 30 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.b.With both hydrogen analysis devices inoperable, restore at least one analysis device to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.SURVEILLANCE RE UIREMENTS 4.6.4.1 Each hydrogen analysis device shall be demonstrated OPERABLE at least once per 92 days on a STAGGERED TEST BASIS by performing a CHANNEL CALIBRATION using a four percent and fifteen percent nominal hydrogen gas, balance nitrogen.D.C.COOK-UNIT 1 3/4 6-23 Amendment No.

CONTAINMENT SYSTEMS 3/4.6.4 COMBUSTIBLE GAS CONTROL HYDROGEN ANALYZERS LIMITING CONDITION FOR OPERATION 3.6.4.1 Two containment hydrogen analyzers shall be OPERABLE.APPLICABILITY:

Modes 1 and 2.ACTION: a.With one hydrogen analysis device inoperable, restore the inoperable analysis device to OPERABLE status within 30 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.b.With both hydrogen analysis devices inoperable, restore at least one analysis device to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.SURVEILLANCE RE UIREMENTS 4.6.4.1 Each hydrogen analysis device shall be demonstrated OPERABLE at least once per 92 days on a STAGGERED TEST BASIS by performing a CHANNEL CALIBRATION using a four percent and fifteen percent nominal hydrogen gas, balance nitrogen.D.C.COOK-UNIT 2 3/4 6-33 Amendment No.

INSTRUMENTATION CHLORINE DETECTION SYSTEM LIMITING CONDIT1ON FOR OPERATION 3.3.3.11 The chlorine detection system, with its alarm setpoint adjusted to actuate at a chlorine concentra'tion of less than or equal to 5 ppm, ,shall be OPERABLE.APPLICABILIY:

All MODES.ACTION: a 0 With the chlorine detection system inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> initiate and maintain operation of the control room emergency ventilation system in the recirculation mode of operation.

b.The provisions of Specifications 3.0.4 are not applicable.

SURVEILLANCE RE UIREMENTS 4.3.3.11 The chlorine detection system shall be demonstrated OPERABLE by performance of a CHANNEL FUNCTIONAL TEST at least once per 31 days and a CHANNEL CALIBRATION at least once per 18 months.D.C.COOK-UNIT 1 3/4 3-69 Amendment No.

INSTRUMENTATION CHLORINE DETECTION SYSTEM LIMITING CONDITION FOR OPERATION 3.3.3.11 The chlorine detection system, with its alarm setpoint adjusted to actuate at a chlorine concentration of less than or equal to 5 ppm, shall be OPERABLE.APPLICABILITY:

ALL MODES.ACTION: a 0 With the chlorine detection system inoperable, within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> initiate and maintain operation of the control room emergency ventilation system in the recirculation mode of operation.

b.The provisions of Specification 3.0.4 are not applicable.

SURVEILLANCE RE UIREMENTS 4.3.3.11 The chlorine detection system shall be demonstrated OPERABLE by performance of a CHANNEL FUNCTIONAL TEST at least once per 31 days and a CHANNEL CALIBRATION at least once per 18 months.D.C.COOK-UNIT 2 3/4 3-64a Amendment No.

I INSTRUMENTATION BASES 3/4'.3.9 RADIOACTIVE LI UID EFFLUENT INSTRUMENTATION The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluent during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.10 RADIOACTIVE GASEOUS EFFLUENT INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor arid control, as applicable, the releases of radioactive materials in gaseous effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits.This instrumentation also includes provisions for monitoring the concentrations of potentially explosive gas mixtures in the waste gas holdup system.The OPERABILITY and use of this instru-mentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.11 CHLORINE DETECTION SYSTEM The OPERABILITY of the detection system ensures that sufficient capability is available to promptly detect and initiate protective action in the event of an accidental chlorine release.This capability is required to protect control room personnel and is consistent with the recommendations of Regulatory Guide 1.95,"Protection of Nuclear Power Plant Control Room Operators Against an Accidental Chlorine Release," February, 1975.D.C.COOK-UNIT 1 B 3/4 3-5 Amendment No.

3/4.3 INSTRUMENTATION BASES 3/4.3.3.8 FIRE DETECTION INSTRUMENTATION OPERABILITY of the fire detection instrumentation ensures that adequate warning capability is available for the prompt detection of fires.This capability is required in order to detect and locate fires in their early stages.Prompt detection of fires will reduce the potential for damage to safety-related equipment and is an integral element in the overall facility fire protection program.In the event that a portion of the fire detection instrumentation is inoperable, the establishment of frequent fire patrols in the affected areas is required to provide detection capability until the inoperable instrumentation is returned to service.3/4.3.3.9 RADIOACTIVE LI UID EFFLUENT INSTRUMENTATZON The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for the Donald C.Cook Nuclear Plant.3/4.3.3.10 RADIOACTIVE GASEOUS EFFLUENT INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in gaseous effluents during actual or potential releases.The alarm/trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20.This instrumentation also includes provisions for monitoring the concentrations of potentially explosive gas mixtures in the waste gas holdup system.The OPERABILITY and use of this instrumentation is consistent with the requirements of General Design Criteria specified in Section 11.3 of the Final Safety Analysis Report for , the Donald C.Cook Nuclear Plant.3/4.3.3.11 CHLORINE DETECTION SYSTEM The OPERABILITY of the detection system ensures that sufficient capability is available to promptly detect and initiate protective action in the event of an accidental chlorine release.This capability is required to protect control room personnel and is consistent with the recommendations of Regulatory Guide 1.95,"Protection of Nuclear Power Plant Control Room Operators Against an Accidental Chlorine Release," February, 1975.D.C.COOK-UNIT 2 B 3/4 3-3 Amendment No.

3/4 3.4 TURBINE OVERSPEED PROTECTION h This specification is provided to ensure that the turbine overspeed protection instrumentation and the turbine speed control valves are OPERABLE and will protect the turbine from excessive overspeed.

Protection from turbine excessive overspeed is required since excessive overspeed of the turbine could generate potentially damaging missiles which could impact and damage safety related components, equipment or structures.

D.C.COOK.-UNIT 2 B 3/4 3-4 Amendment No.

PLANT SYSTEMS 3/4.7.5 CONTROL ROOM EMERGENCY VENTILATION SYSTEM LIMITING CONDITION FOR OPERATION 3.7.5.1 The control room emergency ventilation system shall be OPERABLE with: a.Two independent heating and cooling systems, b.Two independent pressurization fans, and c.One charcoal absorber and HEPA filter train.APPLICABILITY:

ALL MODES.ACTION: MODES 1, 2, 3, and 4: With one heating and cooling system inoperable, restore the inoperable system to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.b.With one pressurization fan inoperable, restore the inoperable fan to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.c.With the filter train inoperable, restore the filter train to OPERABLE status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or be in at least HOT,STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.P MODES 5 and 6: d.With one pressurization fan inoperable, do one of the following:

(1)restore the inoperable fan to OPERABLE status within 7 days, or(2)initiate and maintain operation of the remaining OPERABLE pressurization fan and the filter train in a recirculation mode, or (3)suspend all operations involving CORE ALTERATIONS or positive reactivity changes.e.With any of the following (1)both heating and cooling systems;(2)both pressurization fans;,(3)the filter train>inoperable, suspend all operations involving CORE ALTERATIONS or positive'reactivity changes.SURVEILLANCE RE UIREMENTS 4.7.5.1 The control room emergency ventilation system shall be demonstrated OPERABLE: a.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 the control room air 0 temperature is<120 F.D.C.COOK-UNIT 2 3/4 7-14 Amendment No.

PLANT SYSTEMS SURVEILLANCE RE UIREMENTS (Continued) b.At least once per 31 days on a STAGGERED TEST BASIS by initiating flow through the HEPA filter and charcoal adsorber train and verifying that the system operates for at least 15 minutes.co At least once per 18 months or (1)after any structural maintenance on the HEPA filter or charcoal adsorber housings, or (2)following painting, fire or chemical release xn any ventilation zone com-municating with the system by: 1.Verifying that the charcoal adsorbers remove>99%of a halogenated hydrocarbon refrigerant test gas when they are tested in-place in accordance with ANSI N510-1975 while operating the ventilation system at a flow rate of , 6000 cfm+10%.2.3.Verifying that the HEPA filter banks remove>99%of the DOP when they are tested in-place in accordance with ANSI.N510-1975 while operating the ventilation system at a flow rate of 6000 cfm+10%.Verifying within 31 days after removal that a laboratory analysis of a carbon sample from either at least one test canister or at least two carbon samples removed from one of the charcoal adsorbers demonstrates a removal efficiency of>90%for radioactive methyl iodide when the sample is tested in accordance with ANSI N510-1975 (130 C, 95%R.H.).The carbon samples not obtained from test canisters shall be prepared by either: a)Emptying one entire bed from a removed adsorber tray mixing the adsorbent thoroughly, and obtaining samples at least two inches in diameter and with a length equal to the thickness of the bed, or b)Emptying a longitudinal sample from an adsorber tray, mixing the adsorbent thoroughly, and obtaining samples at least two inches in diameter and with a length equal to the thickness of the bed.4.Verifying a.system flow rate of 6000 cfm+10%during system operation when tested in accordance with ANSI N510-1975.

d.After every 720 hours0.00833 days <br />0.2 hours <br />0.00119 weeks <br />2.7396e-4 months <br /> of charcoal adsorber operation by either: D.C.COOK-UNIT 2 3/4 7-15 Amendment.

No.

PLANT SYSTEMS 3/4.7.5 CONTROL ROOM EMERGENCY VENTILATION SYSTEM LZMITING CONDITION FOR OPERATION 3.7.5.1 The control room emergency ventilation system shall be OPERABLE with: ao Two independent heating and cooling systems, b.c~Two independent pressurization fans, and One charcoal absorber and HEPA filter train.APPLICABILITY:

ALL MODES.ACTION: MODES 1, 2, 3, and 4: a.With one heating and.cooling system inoperable, restore the inoperable system to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.b.With one pressurization fan inoperable, restore the inoperable fan to OPERABLE status within 7 days or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.c.With the filter train inoperable, restore the filter train to OPERABLE status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.MODES 5 and 6: d.With one pressurization fan inoperable, do one of the following:

(1)restore the inoperable fan to OPERABLE status within 7 days, or (2)initiate and maintain operation of the remaining OPERABLE pressurization fan and the filter train in a recirculation mode, or (3)suspend all operations involving CORE ALTERATIONS or positive reactivity changes.e..With, any of the following (1)both heating and cooling systems;(2)both pressurization fans;(3)the filter train;inoperable',.

suspend all operations involving CORE ALTERATIONS or positive reactivity changes.SURVEILLANCE RE UIREMENTS~4.7.5.1 The control room emergency ventilation system shall be demonstrated OPERABLE: a.At least once pea'2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> by verifying that the control room air 0 temperature is<120 F.D.C.COOK-UNIT 1 3/4 7-19 Amendment No.