to Operator Replacement Training Program

ML17334A383
Person / Time
Site:	Cook
Issue date:	02/03/1980
From:	LANGE D J, LEASE R S, NELSON D D INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:
Shared Package
ML17334A381	List: ML17334A380 ML17334A383
References
RTR-NUREG-0737, RTR-NUREG-737 NUDOCS 8205040789
Download: ML17334A383 (13)
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j4~~iI'I~'Ij/IIJ',O.C.COOY.HUCL"=ARPt~tlTTPAIi'tii>CPCGGR~it5RE'lI=M'HQ'RO'liCi'-'c=74ToPcol4C"-'tc~(T7%4T."TT>tt-'Frograni'lama):'OATS,PREPARcDGRR-'fISc,0:ORcPAR~D3'('-'fI=".f""93'l:,~a@tic=-biaQep".HaiP.in';-t;r.;)cA>A'cd/4zKA.AP9RG~fc3~~?lane'terna~r8~08040789'P0yggPDRADOCK05000315PDRR<sz/3/so OPERATORREPLACEMENTTRAININGPROGRAMTheOperatorReplacementTrainingProgramsuppliesselectedoper--atingpersonnelwiththebackgroundandexperiencenecessaryforsafeand4reliableoperationoftheplantcontrolsandpreparesthemfortheNRCReactorOperator1icensingexaminations.Priortoselectiontotheprogram,thelicensecandidatesshallhavebeenworkinginthecontrolroomunderthedirectionofqualifiedlicensedoperators.'llcontrolroominstruction,includingcontrolmanipulations,shallbedocumentedonformOHI-2070Attachment5(attached}untilthetraineeislicensedbytheNRC.FormalclassroominstructionwillbegivenintheareasandsubjectslistedintheNon-licensedOperatorTrainingProgramasnecessarytoensurethoroughtraineecomprehension.Inaddition,formalclassroominstructionwillbegiveninthefollowingsubjects:A.NeutronBehavior1.NicroscopicCrossSection.2.NeutronEnergyvs.CrossSection.3.DopplerBroadening.,4.tlacroscopicCrossSection.5.NeutronDensity.6.NeutronFlux.Page1of11Rev12/3/80

.7.ReactionRateCalculations;--.8.EnergyDependence'ofReactionRate.9.NeutronReactions.a.ControlMaterials.b.Water.c.DensityEffects.d.StructuralMaterials.10.PowerandPowerDensity.11.NeutronScattering.12.ModeratorProperties.a.SlowingDownPower.b.ModeratingRatio.c.Non-NuclearFactors.13.NeutronDensi.tyEnergySpectrum.14.NeutronFluxEnergySpectrum.15.NeutronDiffusion.16.NeutronReflection.I.NeutronBalanceEquations.2.MultiplicationFactors.3.TheNeutronCycle.4.FastNeutrons.5.EpithermalNeutrons.6.NeutronLeakage.Page2of11Rev12/3/80 ThermalAbsorption-Fuel.8.FastFission.9.EpithermalResonanceCapture.10.ThermalAbsorption-NotFuel.ll.NeutronCycleCalculations.12.CalculatingtheReproductionFactor.13.TheFastFissionFactor.14.15.TheResonanceEscapeProbability.CalculatingtheThermalUtilizationFactor.16.TheFourFactorFormula-TheInfiniteMultiplicationFactor.17.EnrichmentEffectsontheFourFactors.18.PoisonEffectsontheFourFactors.19.Moderator-to-FuelRatioEffectsontheFourFactors.20.CoreLifeEffectsontheFourFactors.21.ThermalNeutronLeakageCalculations.22.FastNeutronLeakageCalculations.23.Hoderator-to-FuelRatioEffectsonLeakage.24.EnrichmentEffectsonLeakage.25.PoisonEffectsonLeakage.26.CoreLifeEffectsonLeakage.27.TheSixFactorFormula-TheEffectiveMultiplicationFactor.28.NeutronFluxOistribution.29.NeutronReflection.30.CoreZoning.31..Power-FluxRelationship.Page3ofllRev>2/3/80

32.PowerDistribution.33..PeakingFactors.34.RadialNuclearFactor.35.AxialNuclearFactor.36.LocalNuclearFactor.37.TotalNuclearFactor.38.NeutronProduction.39.PromptNeutrons.40.DelayedNeutrons.41.DelayedNeutronEmissions.42.TheDelayedNeutronFraction.43.TheDelayedNeutronFractionChangeOverCoreLife.44.TheEffectiveDelayedNeutronFraction.45.NeutronLifetimeandGenerationTime.46.DelayedNeutronEffects.47.Reactivity.48.ReactorPeriod.49.ThePowerLaw.50.StartupRate.51.DoublingTime.52.TheInhourEquation.53.ReactorControlSystemEffects.a.Short-Term.b.Intermediate-Term.c.Long-Term.Page4ofllRev12/3/00

~54.TypicalAbsorberHaterials.-----55.EffectofControlPoisonsontheEffectiveHultiplicationFactor.56.ControlPoisonForms.57.BlackandGrayPoisons.58.EffectsofControlSystemsonFluxShape.a..ControlRods.b.SolublePoison.c.BurnablePoisons.59.Differential.RodNorth.60.IntegralRod!lorth.61.DifferentialBoronWorth.62.TheDopplerCoefficient.63.TheHoderatorTemperatureCorefficient.64.Undermoderation...65.Overmoderation.66.ThePressureCoefficient.67.TheVoidCoefficient.68.TheIsothermalHoderatorTemperatureCoefficient.69.ThePowerCoefficient.70.CalculationsofReactivityChanges.'71.VariationsintheDopplerCoefficient.72.VariationsintheHoderatorTemperaturCoefficienta.EffectofFuelTemperatureChanges.b.EffectofChangesinHoderatorDensity.c.EffectofPoisonDensity.d.EffectofCoreAge.Page5ofllRevI2/3/80 73.ReactivityDefects.74.ThePower.Defect.75.NeutronCompetitionandShadowing.76.ConditionsAffectingControlRodMorth.77..CoefficientsandControlinaPressurizedMaterReactor.78.FissionProductFormation.79.'XenonProductionandRemoval.80.EquilibriumXenon..81.StartupXenonTransients.82.ShutdownXenonTransients.83.RestartXenonTransients.84.PowerChangeXenonTransients.85.XenonOscillations.86.EquilibriumSamarium.87.SamariumTransients.88.CoreReactivityRequirements-ExcessReactivity.89.CoreNuclearReactions.90.FuelDepletionEffectsonReactivity.a.U-235Burnout.b.FissionProductPoisonBuildup.c.Pu-239Buildup.d.BurnablePoisonsDepletion.e.TotalCoreLifeEffect.f.Refueling.91.OtherFuelDepletionEffects.Page6of11Rev12/3/80

~o~a~b.EffectsonFlux.EffectsontheSixFactors.c.EffectsontheEffectiveOelayedNeutronFraction.d.EffectsontheReactivityCoefficients.92.NeutronSources.94.1/HPlots.95.FuelLoading.96.TheApproachtotheCriticalCondition.97.PredictionsofCriticality.98.PhysicsTesting.a.Rod>lorthMeasurement.b.CoefficientHorthMeasurement.c.ReactivityFollow.99.PowerChanges.100.EndofCoreLife.101.ReactorCoastdown.102.TurbineRunback.103.PlannedShutdown.104.ReactorTrip.105.ShutdownCoolingRequirements.106.FuelManagement.107.Pefueling.Toenhancethetheoryphaseofinstruction,thetraineeswillparticipateinatrainingprogramataresearchreactor.OuringthisPage7of11Rev12/3/80 programtheywillperformexperimentstoexhibitandmeasurereactivityeffects.Thetraineeswillgainhands-onexperiencebyperformingstartupsaridshutdownsofthereactor.Plantsystemswillbetaughtindepththroughformalclassroominstructionandin-plantstudy.Normal,Abnormal,andEmergencyOperatingProcedureswillbeemphasized.Controls,instrumentation,setpoints,auto-maticactions,differencesbetweentheunits,systeminterfaces,andTechnicalSpecificationslimitationswillbestressed.Thesystemscoveredare:1.'eactorCore.2.ReactorCoolantSystem.3.4.PressurizerandPressureReliefSystem.IRodControlSystem.5.'hemicalandVolumeControlSystem.6.ResidualHeatRemovalSystem.7~8.ExcoreNuclearInstrumentationSystem.IncoreHuclearInstrumentationSystem.9.ReactorProtectionSystem.10.EmergencyCoreCoolingSystem.ll.ContainmentSystem.12.IceCondenserSystem.13.ContainmentSprayandHydrogenRecombinerSystem.14.FuelHandlingSystem.15.PrimarySamplingSystem.16.ComponentCoolingWaterSystem.ll.EssentialServiceMaterSystem.Page8of11Rev>2/3/80 18.19.20.,t(on-EssentialServiceMaterSystem.DemineralizedMaterSystem.SpentFuelPitSystems.21.MasteDisposalVentandDrainSystem.22.LiquidMasteDisposalSystem.I~/~~23.GaseousMasteDisposalSystem.24.SolidMasteDisposalSystem.25.ContainmentVentilationSystem.26.AuxiliaryBuildingVentilationSystem.27.ControlRoomVentilationSystem.28.EmergencyDieselGeneratorSystems.29.AuxiliaryFeedwaterSystem.30.CompressedAirSystem.31.LubeOilCleanupSystem.32.SecondarySamplingSystem.33.SecondaryChemicalFeedSystems.34.PrimaryMaterSystem.35.PrimaryGasSystem.36.MaterFireProtectionSystem.37.CarbonDioxideandHalonFireProtectionSystem.38.HiscellaneousFireProtectionSystems.39.PlantComputer.40.RadiationthonitoringSystem.41.PortableRadiationInstruments.42.SteamGeneratorandSteamGeneratorSlowdownSystem.43.MainSteamSystem.Paqe9of11Rev~2/3/80 45.AuxiliarySteamSystem..46.PlantHeatingBoiler.47.MainTurbineandControlSystem.48.SteamSealSupplyandExhaustSystem.49.MainTurbineLubeOilSystem.50.BleedSteamSystem.51.MoistureSeparator/ReheaterandFeedwaterHeaterDrains.52.CirculatingWaterSystem.53.ChlorinationSystem.54.MiscellaneousSealingandCoolingWaterSystem.55.VacuumPrimingSystem.56.CondensateSystem.57.FeedwaterSystem.58.SteamGeneratorLevelControlSystem.59.SteamDumpSystem.60.MainGeneratorandAuxiliarySystems.61.4160KYElectricalDistribution.62.600YACElectricalDistribution.63.120YACElectricalDistribution.64.250VDCElectricalDistribution.ThetraineesvIillbeinstructedinthePlantTechnicalSpecif-cationsSafetyLimits,LimitingSafetySystemSettings,LimitingConditionsforOperationandBasesfortheselimits.TheywillbeheldresponsibleforknowingallActionStatementsofonehourorless.Page10of11Rev>2/3/80 FurtherintensivetraininginInstrumentationandControlsystemsCandinRadiationControlandProtectionwillbegiven.PeriodicwrittenandoralexaminationswillbegiventhroughouttheprogramtoevaluatetraineeperformanceandtopreparethemfortakingtheNRCwrittenandoralexaminations.Plantoperatingcharacteristicsandresponsestotransientswillbetaught.Accidentdiagnosisandcorrectiveactionswillbeemphasized.Thetraineeswillattendasimulatortrainingprogramwheretheywillperformplantevolutionsandcasualties.AnNRCapprovedsimulatorcertificationprogramwillbeutilizedforthedemonstrationportionoftheReactorOperatorlicensingexaminationatthistime.SimulatedNRCwrittenandoralexaminationswill'eadministeredtothelicensecandidatestoaudittheirpreparationfortheNRCReactor0)eratorlicensingexaminations.ThisauditwillbeaninputindeterminingwhichcandidateswillberecommendedfortheNRCexaminationandwillbeusedtoidentifyweakareasneedingfurtherstudy.Aftertheauditexamination,a'minimumtwoweekreviewseries,willbeconductedinfinalpreparationfortheNRCexamination.Meakareasandoverallplantoperationwillbestressed,Pagellof11ReyI2/3/80~~'ve'%A-~%N~'Ll*Sly,"'>>++~i".~~~~A'.i~~"<<~ir~>>*-

~~r-2070Attachment;-5No.ofHourstothenearestl/10hourDateShiftREACTI~IiT.'lAHLPULATIGHControlBoardTimeTobecomoletedbyHotLicensecandidates(ReplacementReac.orOperatorStudents}workingunderinstructionintheControlRoam,orbyanyindividualAuxiliaryequipmentoperatorthatisworkingunderinstructionintheControlRoom.Name-Prin.SignatureControllhnipulations,Oral"-xams(Maikthrough},etc.BeSpe"ific:~Iame-Print(RG,SRO)Slgnatule'"-r~ardim.diatelytotheTrainingDepar=..entacnandeveryimeastudentwor4sinheControlRoom.pageloflRev12/3/80>>