频监控和控制在基于广域测量系统的电力系统恢复毕业论文外文翻译.docx
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频监控和控制在基于广域测量系统的电力系统恢复毕业论文外文翻译.docx
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频监控和控制在基于广域测量系统的电力系统恢复毕业论文外文翻译
外文资料翻译
FrequencyMonitoringandControlduringPowerSystemRestorationBasedonWideAreaMeasurementSystem
Frequencycontrolduringpowersystemrestorationhasnotbeenstronglyaddressed.Operatorsareoftenconcernedwiththeofflinesizingofloadandgenerationsteps,but,nowadays,theintroductionofWideAreaMeasurementSystem(WAMS)makesitpossibletomonitorthestabilityofpowersystemonline.TheconstraintsofWAMSoperationresultinsomechangesinpowersystemfrequencycontrol.ThispaperproposesanovelmethodologyforfrequencycontrolandmonitoringduringtheearlystepsofpowersystemrestorationbasedonWAMS.Detailedloadmodelingisachievedbasedonthestaticloadmodelingapproach.Powergenerators’modelingisalsoaccomplishedutilizingthesinglemachineequivalentofthepowersystembasedonPMUmeasurements.Simulationresultsofthepresentedmethodologyonthe39busNewEnglandpowersystemclearlyshowtheeffectivenessandapplicabilityoftheproposedmethod.Thesimulationresultsshowthatthepresentedapproachhasacompletelyacceptableprecisionandanoutstandingspeedwithlessthan0.05%error.Theoutstandingspeedofthepresentedapproachalongwiththeresultprecisionwillresultinagreatpromotioninpowersystemrestorationmethodologies.
1.Introduction
Theproblemofrestoringpowersystemsafteracompleteorpartialblackoutisasoldasthepowerindustryitself.Restorationofapowersystemafterasystemblackoutisacomplex,delicate,andtime-consumingproblem[1].
Systemrestorationaftertotalblackoutrequirescoordinationofunits,loadsandtransmissionsystem,andtheassociatedcharacteristics.Furthermore,variousconstraintsimposedingeneratingrestorationplansmustbeconsidered[2].
Nowadays,newtechnologiesprovidepowerfulnewcapabilitiesinareassuchaslarge—scalesystemanalysis,communicationandcontrol,datamanagement,artificialintelligence,andallieddisciplines.Planningofpowersystemrestorationisacombinationalproblem[2].Thisissuealsoinvolvesrestrictionsandconditionsthatmakeitmorecomplicatedforoperatorstojudgerenderingit.Asystemtoprovideanswerstothisissuewithsufficientspeedwhichisappropriateforpracticalapplicationshasnotbeendevelopedwithsuchconventionaltechniquesasoptimizationalgorithms.
Quickrestorationofpowersystemafterablackoutisasignificantpartofsystemoperation.Intheearlystagesofpowersystemrestoration,theblackstartunitsareofthegreatestinterestbecausetheywillproducepowerfortheauxiliariesofthethermalunitswithoutblackstartcapabilities.Theblackstartunitsareusuallythosewithcombustionturbinesorhydroelectricunits[3–6].
Frequencyisanimportantparameterinpowersystems,andaccuratereal-timemeasuredfrequencyishighlydesirabletounderstandthedynamicsofpowersystems.Throughoutthepowersystemrestoration,verylargestepsofpowergenerators’loadingarepronetoresultinfrequencyprotectiontripsandconsequently,prolongthewholeprocessofpowersystemrestoration.
Operatorsareoftenconcernedwiththesizeofloadingstepsofpowergeneratorsbutnowadays,theintroductionofWideAreaMeasurementSystem(WAMS)whichutilizespharosmeasurementunits(PMUs)leadstoonlinepowersystemmonitoringandcontrol.Severalmajorutilitieshaveshownaninterestinthesynchronousphasormeasurementtechnologyapplication.TheseincludeHydro-Québec,AmericanElectricPower,theNewYorkPowerAuthority,´Electricit´edeFrance(EDF),andmanyutilitiesoftheWesternSystemsCoordinatingCouncil(WSCC)suchasBonnevillePowerAdministration(BPA)andSouthernCaliforniaEdisonCompany[7,8].
BasedontheconstraintsofWAMSoperation,powersystemfrequencycontroldiffersfromthoseoftheoldergenerationsofpowersystemoperationandcontrol.ThemaintaskswhichcanbefullyaccomplishedthroughWAMSincludeearlyrecognitionoflargeandsmallsignalinstabilitiesandmaximizationofloadrestorationamount[9].
Itisnecessarytomakethefrequencycontrolsystemduringpowersystemrestorationbemoreeffective,whichrequiresthelocationandthemagnitudeofallgenerationsandloads.Duringpowersystemrestoration,bothgenerationandloadprofilesareconstantlychanginghowevertheconventionalapproachesforfrequencycontrolandprotectionhaveonlyonesetpointforallscenarios.Offlinepowergenerators’loadingoptimizationisacommonpracticeforelectricpowerutilitiesinordertopreventdangerousimbalancebetweenloadandgenerationandstrongfrequencydeviationsduringpowersystemrestorations.Majordrawbackofconventionalapproachesforfrequencycontrolduringpowersystemrestorationisthatlocalprotectiondevicesdonothaveasystemview,and,therefore,theyarenotabletotakeoptimizedandcoordinatedactions.Eveninthecaseoffrequencycontrolandmonitoring,inwhichthefrequencyitselfisasystemindex,theactionsaretakenlocallyonpredefineddesignrules.Carryingoutimproperactionsduringpowersystemrestoration,especiallyintheearlystages,willprolongtheoverallprocess.Generators’loadingisoneofthemostimportantparametersshouldbemanagedconsideringpowersystemoperationalconstraints,loadcharacteristics,andsoforth.Offlineschedulingofgenerators’loadpickupcouldnotguaranteethattheactionswillnotcausefurtherproblems.
AnecessityexiststodevelopafrequencycontrolandmonitoringapproachduringpowersystemrestorationbasedonWAMSthatcancustomizefrequencycontrolalgorithmsdynamicallyinresponsetoanysystemcondition.Propercoordinationofpowersystemoperationcharacteristics,especiallyWAMScharacteristicsencounteringpowersystemfrequencycontrolandmonitoring,andpowersystemrestorationplanningisthemainobjectiveofthepaper.
ThispaperpresentsasystematicmethodforpowersystemfrequencymonitoringandcontrolduringpowersystemrestorationbasedonWAMS.Thepresentedapproachwhichconsistsofdetailedloadmodelingandpowergenerators’loadingoptimizationistopreventdangerousimbalancebetweentheloadandgenerationandstrongfrequencydeviationsthroughpowersystemrestorationswithapracticallyacceptablespeedandaccuracy.Comparedwiththeconventionalpowersystemrestorationapproacheswhichutilizeofflinepowergenerators’loadingoptimization,thepresentedapproachoptimizesthegeneratorsloadingjustbasedonthecurrentstateofpowersystemwhichresultsinasafe,smooth,andquickrestoration.
UtilizationofWAMSprovidestheoperationsystempredictionofapracticallypreciseloadandgenerationmodeling;inordertoachievedetailedloadmodel,staticloadmodelingapproachisutilized.Powergenerators’modelingisalsoaccomplishedutilizingthesinglemachineequivalentofthepowersystembasedonPMUmeasurements.SuchahighdegreeofprecisioninloadandpowergenerationmodelingcouldnotbeachievedwithoutusingWAMS.
Propercoordinationofloadandpowergenerationmodelsleadstoareasonableestimationoftheactivepowerimbalanceandthesteady-statefrequency.Usingthesamemodel,theamountofloadpickuporgenerationincreaserequiredtokeepthefrequencywithintheallowablerangescanbecalculated.Powergeneratorsarestudiedbasedontheassociatedclassicalmodels.Thegenerators’internalvoltage,reactanceandrotorphaseangleareestimatedusingPMUmeasurements.Themechanicalpower,inertiaconstant,anddampingconstantcanbeobtainedbyaleastsquareerrorfittingonswingequationsofthemultimachinesystem.
TheproposedapproachforfrequencycontrolandmonitoringduringtheearlystagesofpowersystemrestorationconsideringWAMSapproachconsistsofacoupleofsteps:
preparationofthesinglemachineequivalentmodelbasedonPMUmeasurementsandestimationoftheactivepowerimbalanceandpredictingthesteady-statefrequency.Thesameapproachcanbesuccessfullyutilizedtodeterminetheamountofloadpickuporgenerationincreaserequiredtomaintainthefrequency.Themodelishighlyapplicabletoassessfrequencydeviationsduringpowersystemrestorationplanningwhenthereisnotenoughtimetousedetailedpowersystemfrequencycontrolmodeling.
Theproposedapproachforpowersystemfrequencymonitoringandcontrolduringpowersystemrestorationassistspowersystemoperatorduringtherestorationprocess.Sincetherestorationshouldbesafe,smooth,andquick,suchanapproachshouldbeabletoquicklyandpreciselypredictfrequencyoscillationsandadjustgenerators’loadingsothattheoperationalrisksbeasminimumaspossible.Withintheearlystagesofpowersystemrestoration,inwhichthereareafewonlinepowergenerators,subsystemsarepronetobeunstable.Improperpowersystemfrequencymonitoringandcontrol,especiallywithinsuchstages,willprolongtheoverallprocessofpowersystemrestoration.
Simulationresultsofthepresentedmethodologyonthe39busNewEnglandpowersystem[10]clearlyshowtheeffectivenessandapplicabilityoftheproposedmethod.Itisnoteworthythattheresultsshowthatthepresentedapproachhasacompletelyacceptedprecisionandanoutstandingspeed.Comparedwiththewell-knownpowersystemmodelingsoftwarepackages,powersystemfrequencypredictionisaccomplishedwithlessthan0.05%error.Theoutstandingspeedofthepresentedapproachalongwiththeresultprecisionwillresultinagreatpromotioninpowersystemrestorationmethodologies.
Therestofthepaperisorganizedasfollows.Section2describestheconceptsandbasicformulationoffrequencymonitoringandcontrol.Section3presentstheresultofpowersystemparallelrestoration
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