ML17157A219
| ML17157A219 | |
| Person / Time | |
|---|---|
| Site: | Susquehanna  |
| Issue date: | 05/03/1990 |
| From: | ARUS J P PENNSYLVANIA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML17157A218 | List: |
| References | |
| SEA-EE-184, SEA-EE-184-R01, SEA-EE-184-R1, NUDOCS 9006290161 | |
| Download: ML17157A219 (21) | |
Text
~~~ENGINEERING STUOIES,ANALYSES, ANOEVALUATIONS COVERSHEET OUALITYLEVELSAFETYASHEO'THERHOHOUALITYER!CTHHO.SEAHO.SEA-EE-184 OCPHO.PAQE1OF11EVALUATION OFUNIT1ANNUNCIATOR CLASS1E-NON-CLASS 1EINTERFACES 90062901&i 900619PDRADOCK05000387PPDCoIIIg~//'.REVISIONNO.OATEPREPAREOBYREVIEWEOBYAPPROVEO5
~l~0 SEA-EE-184 Rev.1Page2of11EVALUATION OFUNIT1ANNUNCIATOR CLASSlE-NONCLASS1EINTERFACES TABLEOFCONTENTSPAGE1.02.03.04.05.06.0SCOPECONCLUSIONS ANDRECOMMENDATIONS INPUTSANDASSUMPTIONS METHODRESULTSREFERENCES APPENDIXA-ANNUNCIATOR INPUTDATA.APPENDIXB-ANNUNCIATOR POINTS-INTERFACE DEVICESUSEDFORCLASS1ECIRCUITS.
APPENDIXC-ANNUNCIATOR POINTS-INTERFACE DEVICESUSEDFORALARMANDINDICATION ONLY.APPENDIXD-ANNUNCIATOR POINTS-CUTLER-HAMMER ARMEDPUSHBUTTON.APPENDIXE-ANNUNCIATOR POINTS-AFFILIATED CIRCUITS.
Pg]y~gyHQ-6+)-IFc75y~pHV-8'kl-IFo79fN@k~wp2-gtgcc,A,uu.cjei7SWI~4-h'<gRrKGNorgxpND7c'oiPgTgycKF-<Dluypgg~<g/UoggyaplyeiLIa/H.-gREVly~ogD~5c-R<pT~~M J~f~01C 1.0SCOPESEA-EE-184 Rev.1Page3of11ThepurposeofthisSEAistodetermine thefailuremodesoftheClass1E-nonClass1Einterface devicesusedasUnit1annunciator inputsandevaluatetheaffectsofthesefailuresontheClasslEcircuitsconnected totheinterface devices.TheconcernisthatthefailureoftheClass1E-nonClass1Einterface devicescouldpreventtheClass1Ecircuitsfrommeetingtheirminimumperformance requirements.
2.0CONCLUSION
S ANDRECOMMENDATIONS
2.1CONCLUSION
S TheopencontactsofallClasslE-nonClass1EUnit1annunciator interface devicesareabletowithstand thespecified impressed voltageacrossthecontactwithoutcausinglossofoperability ofthedevices.Inotherwords,,theseinterface deviceswillnotfailinsuchamannerastopreventtheClasslEcircuitsfrommeetingtheirminimumperformance requirements if120VACor250VDCisspuriously impressed ontheopencontactsutilizedintheAnnunciator System.However,thespecified impressed voltagesacrossannunciator inputclosedcontactscouldweldcontactsclosedifsufficient currentflowedforasufficient duration.
AnalysisoftheClass1E-nonClasslEUnit1annunciator interface devices,exceptfortheHV-151-F007A andHV-151-F007B limitswitches, showsthatthesedeviceswillmeettheirminimumperformance requirements eveniftheannunciator inputcontactshouldperhaps,weldshut.Thisconclusion isbasedupontheevaluation oftheinstalled Class1E-nonClass1Edevicesthatshows:Theinterface deviceschangepositionandmeettheirminimumperformance requirements beforetheannunciator co'ntacts areexposedtopotential contactwelding.OR-Theinterface devicesareusedforalarmandindication onlyandcontactsfromthesedevicesarenotused.inClass1Ecircuits.
OR--Theinterface devicesmeettheirminimumperformance requirements evenwithannunciator inputcontactsweldedshut.
Il~1t ORSEA-EE-184 Rev.1Page4of11--Theinterface devicesareinaffiliated (associated) circuitsandcontactsfromthesedevicesarenotusedinClasslEcircuits.
2.2Intheeventannunciator inputlimitswitchesforHV-151-F007A andHV-151-F007B weldshut,thelimitswitchmaindriveshaftscouldperhapsbreaklooseinternaltothevalvescausingthevalvestojam,thuspotentially preventing fullclosureofthevalves.Morethanlikelytheweldedshutlimitswitcheswouldcausedamagetothelimitswitchgearing,butwouldnotpreventthesubjectvalvesfromclosing.RECOMMENDATION ToassurethattheHV-151-F007A andHV-151-F007B valveannunciator inputlimitswitchesdonotweldshut,qualified ClasslE-nonClass1Eisolation devicesaretobeinstalled intheannunciator inputlimitswitchcircuitsfromthesevalves.Thecircuitdesignshouldbes'uchthatthelimitswitchesactuatetheClasslE-nonClass1Eisolation deviceswithcontactsfromthesedevicesusedasannunciator inputs.Thispreventstheannunciator inputlimitswitchesfromweldingshutforthespecified impressed voltagesontheannunciator inputcables.ThisactionwillbetrackedbyNCR87-0021.Inordertoprecludetheneedforfutureengineering analysisandmaintaincompliance withRegulatory Guide1.75,gualified Electrical Isolators, capableofwithstanding 120VACand250VDC,shouldbeinstalled fornewly-engineered annunciator inputsdeveloped fromClass1Edevices.Alsogualified Electrical Isolators shouldbeinstalled forexistingannunciator inputswhenmodifications toexistingClass1E-nonClass1Eannunciator interface devicesareperformed.
Thisrecommendation isin-linewithNPE-Electrical Groupstrategyofeliminating potential pitfallsformaintaining compliance totheplantlicensing commitments.
Thisrecommendation willbeincludedintheDesignDescription Manual,Chapter29fortheComputer/ACR andE1012,"Specification ofElectrical Separation."
3.0 INPUTSANDASSUMPTIONS
3.1INPUTSAtSusquehanna SES,allannunciator inputcircuitsarenonClass1E.Alargenumberoftheseinputsaredeveloped fromClasslEdevices.
~II~l4
~I~ISEA-EE-184 Rev.1Page5of11Anexception toRegulatory Guide1.75,whichendorsesIEEE384-1974, andasdiscussed inFSARSection8.1.6.1q(7),allowstheconnection oflow-energy nonClass1EcircuitstoClass1Edevicesprovidedananalysishasbeenperformed todemonstrate thattheClass1Ecircuitsarenotdegradedbelowanacceptable levelforfaultsonthenonClass1Ecircuits.
Annunciator cablesareroutedinnonClass1Eracewayswhichalsocontain120VAC,125VDCand250VDCcables.Potential damagetocablesinnonClasslEracewaysmaycauseaccidental imposition
.of120voltsACor250voltsDConannunciator inputwire(s),andthroughthesewirestotheClass1Edevice(s).
BothopencontactsandclosedcontactsoftheClass1E-nonClass1Eannunciator interface devicesaretobeevaluated.
Thestudyislimitedtodigitalannunciator inputsintheUnit1AlarmResponseProcedures listedinTableA.3.2ASSUMPTIONS Thestudywasbasedonas-builtdrawingsandthedocuments-issuedasofthedateoftaskinitiation.
Affiliated circuitsinthisstudyweretreatedthesameasClasslEcircuits.
4.0 METHODAchangeinstateofaannunciator
inputcontactwhilethereisanimpressed voltagewasnotconsidered.
Onlythecontactintheopenorclosedpositionwasanalyzed.
Allannunciator inputslistedinthe"TableA,Unit1AlarmResponseProcedures" wereexaminedto,identify thesystemdrawingsanddocuments requiredfordetailreview.Allofthesedrawingsanddocuments werereviewedtodetermine whichannunciator inputsarederivedfromtheClasslEdevicesandwhicharederivedfromnonClass1Edevices.TheresultsofthisreviewarelistedintheAnnunciator InputDataTablesshowninAppendixA.Thetablesalsoincludetheinformation onrelatedrefere'nce
- drawings, devicetagnumbersandlocations.
TheClass1Edevicesweresortedtodetermine identical devicessuchasrelays,limitswitches, contactors, etc.Eachdevicerating,type,manufacturer andmodelnumberwasidentified anddocumented intheAnnunciator InputDatatable.Thefunctionandoperation ofallClass1Edevices.was analyzedinordertoevaluatetheimpactofpossibledevicefailureonClasslEcircuits.
SEA-EE-184 Rev.1Page6ofll5.0Evaluation ofthefailuremodeswasperformed foreachClass1Edevice,basedonthepossibility ofaccidental imposition of120VACor250VDConannunciator inputwires.TheClass1E-nonClass1Einterface deviceswerereviewedtodetermine ifthecontactsfromthesedevicescouldperhapsweldshutduringimpressed voltagefaults.FortheClass1E-nonClass1Einterface devicesthatmayweldshut,evaluations wereperformed toassurethatthese'devicescanmeettheirminimumperformance requirements.
RESULTSReviewoftheUnit1AlarmResponseProcedure inTableArevealedthattherearethefollowing twenty-nine (29)specifictypesofClass1E-nonClasslEannunciator inputinterface devices:1.Westinghouse MOCAuxiliary Switch.2.Limitorque LimitSwitch.3.NAMCOLimitSwitch.4.GECR105MagneticContactor.
5.GEHFA51Relay.6.GEHMA11Relay.7.Cutler-Hammer Reversing Contactor.
8.Cutler-Hammer Type"M"Relay.9.AgastatEGPRelay.10.AgastatE7024TimingRelay.11.Westinghouse HighSpeedARRelay.12.Magnetrol Model751LevelSwitch.13.FCIModel8-'66LiquidLevelController.
14.Riley86T/CMonitor.15.Potter5Brumfield KH-4690Relay.16.Bailey745AlarmUnit.17.GETypeCR2940.18.AGATypeTR.19.Cutler-HammerType10250TP.B.20.Potter5Brumfield TypeMDR.21.GEType2820.22.Westronics Recorder.
23.Barkadale PressureSwitch.24.StaticInc.PressureSwitch.25.Barton-Pressure Switch.26.SquareDPressureSwitch.27.SquareDLevelSwitch.28.Balsbaugh-Conductivity TI29.Potter8Brumfield TypeKRPAllannunciator points,relatedreference
- drawings, devicetagnumbersandlocations, deviceratings,type,manufacturer andmodelnumbersarelistedinAppendixA.
If~PUI'Ih'I'0l SEA-EE-184 Rev.1Page7ofllInthecaseofaccidental imposition of120VACor250VDConannunciator inputwiresduetopossiblecablefailure,opencontactsofalltheidentified Class1E-nonClass1Einterface devicescanwithstand theseimpressed voltages.
Impressed voltagesacrossclosedcontactsoftheseClass1E-nonClasslEinterface devicescouldcausecontactstoweldshutifsufficient currentflowedforasufficient duration.
However,theseClass1Edevices,exceptforHV-151-F007A andHV-15/-F007B limitswitches, willstillmeettheirminimumperformance requirements withtheannunciator inputcontactsweldedshut;EventheWestinghouse MOCauxiliary switchesandtheNamcolimitswitchesusedforannunciator inputcouldweldshutforthespecified impressed voltagessincethe814AWGcopperconductors usedtoconnecttheseswitchestotheannunciator maynotmeltopenbeforetheswitchesweldshut.Thisisduetothefactthatthecontinuous thermalcapability oftheseswitchesapproachthatofthe014AWGconductors.
Theannunciator pointsinAppendixBareinitiated byClass1E-nonClasslEinterface deviceswhichalsoinitiateClass1Ecircuits.
Duringnormalplantoperation, opencontactsfromthesedevicesprovidetheannunciator inputs.Fortheannunciator inputcontactstoclosetheClasslE-nonClasslEinterface deviceshavetochangethestateoftheircontacts.
Oncethecontactstatehaschanged,thesedeviceshavemettheirminimumperformance requirements.
Therefore, theClass1E-nonClasslEinterface devicesmeettheirminimumperformance requirements beforethecomputerinputcontactsareexposedtopotential welding.Theannunciator pointsinAppendixCareinitiated byClasslE-nonClasslEinterface deviceswhichareusedforalarmandindication only.ContactsfromthesedevicesarenotusedinClasslEcircuits.
Therefore, weldedannunciator inputcontactsdonoteffectClasslEcircuits.
Theannunciator pointsinAppendixDareinitiated byClasslECutler-Hammerarmedpush-button switchesusedtomanuallyinitiatesafetysystems.Whentheseswitchesarechangedtothearmedpositions, theannunciator contactsclose,however,thesafetysystemshavenotbeeninitiated.
Thepotential weldingshutoftheseannunciator inputcontactsdonotpreventtheseswitchesfrommeetingtheirminimumperformance requirements sincethecontactsinitiating thesafetysystemsareactuatedbyapushbuttonratherthantherotocammechanisms usedfortheannunciator contacts.
Thepush-button actionisindependent fromtherotocamaction.Theannunciator pointsinAppendixEareinitiated frominterface devicesinaffiliated circuits.
ThesedevicesarepoweredfromClasslEsources;however,contactsfromthesedevicesarenotusedinClass1Ecircuits.
Therefore, weldingcomputerinputcontactsdonoteffectClasslEcircuits.
l)p, SEA-EE-184 Rev.1Page8of11TheClasslELimitorque limitswitchesthatprovideannunciator inputsarepartofmotor-operated valveswhichareinoneofthefollowing groups:1.Requirenoautomatic operation.
2.Requireautomatic closure.3.Requireautomatic opening.4.Requireautomatic operation.
TheClass1Emotor-operated valvesinGroups1,2and3are:NoAutomatic 0erationAutomatic ClosureAutomatic
~0enHV-E11-1F004A HV-E11-1F004B HV-E11-1F004C HV-E11-1F004D HV-C41-1F006 HV-11215A HV-11215BHV-151-F006A HV-151-F0068 HV-151-F006C HV-151-F006D HV-149-F060 HV-E51-1F059 HV-E21-1F001B HV-149-F062 HV-15703HV-149-F084 HV-15705HV-E41-1F002 HV-15711HV-E41-1F003 HV-15713HV-E41-1F066 HV-E41-1F075 AHV-E41-1F079 Thesevalveshaveopenlimitswitchesforannunciator inputsduringnormalplantline-up.Theselimitswitchesarenotexposedtopotential welding.Intheeventthenormalplantline-upischanged,thevalveschangetotheirnewpositions beforethecomputerinputlimitswitchesareexposedtopotential welding.Therefore, weldingofthecomputerinputlimitswitchesdoesnotpreventthemotor-operated valvesfrommeetingtheirminimumperformance requirements.
TheGroup4valvesaretheRHRPumpMinimumFlowValvesHV-151-F007A andHV-151-F007B.
Thesevalvesarerequiredtoautomatically openand/orclose,however,theannunciator inputlimitswitchesfromthesevalvescouldbeclosedbeforetheirautomatic operations arerequired.
Intheeventtheannunciator inputlimitswitchesweldshut,thelimitswitchmaindriveshaftscouldperhapsbreaklooseinternaltothevalvescausingthevalvestojam,thuspotentially preventing fullclosureofthevalves.PerDanWarsingofLimitorque Corp.,thisisveryunlikely.
Morethanlikely,theweldedshutlimitswitchwillcausedamagetothelimitswitchgearing,butwillnotpreventthevalvesfromclosing.ToassurethattheHV-151-F007A andHV-151-F0075 valveannunciator inputlimitswitchesdonotweldshut,qualified Class1E-nonClass1Eisolation devicesaretobeinstalled intheannunciator inputlimitswitchcircuitsfromthesevalves.ThecircuitdesignshouldbesuchthatthelimitswitchesactuatetheClass1E-nonClasslEisolation deviceswithcontactsfromthesedevicesusedasannunciator inputs.Thispreventstheannunciator inputlimitswitchesfromweldingshutforthespecified impressed voltagesontheannunciator inputcables.ThisactionwillbetrackedbyNCR87-0021.
EI SEA-EE-184 Rev.1Page9of11Thesuppression poolvacuumreliefvalvesuseNamcolimitswitchesforannunciator inputs.Theseaffiliated valvesarepoweredfromClass1Esources.However,thesevalvesandtheirlimitswitchesarenotusedinClass1Ecircuits.
Therefore, weldinganannunciator limitswitchdoesnoteffectClass1Ecircuits.
'.0REFERENCES 6.1SEA-EE-183, Rev.0.6.2IEEE279-1971.
6.3IEEE384-1974.
6.4Regulatory Guide1.75,Rev.0.jpa/msk018i (18)
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