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335201210PowerCapacitor&ReactivePowerCompensationVol.33No.5Oct.2012檶檶檶檶檶檶檶檶檶檶檶檶檶檶殞殞殞殞2012-03-0635kVSVG1231.0630002.7100753.114051、、35kVSVG。35kVSVG。SVGTM711A1674-1757201205-0001-05ApplicationofContainerType35kVStraightHangingSVGtoPowerSystemQULei1YANGXiao-dong2LIUYU31.TangshanPowerSupplyCompanyTangshan063000China2.Xi'anElectricEngineeringCo.Ltd.Xi'an710075China3.RongxinPowerElectronicCo.Ltd.Anshan114051ChinaAbstractThepresentdevelopmentstatusofstaticreactivepowercompensationtechnologyinpowersys-temisdescribedtheprincipleadvantagesanddisadvantagesonseveralkindsofstaticreactivepowercompensationtechnologiesareanalyzedandthepresentapplicationstatusof35kVstraighthangingSVGinpowersystemisproposed.Itispointedoutthatcontainertype35kVstraighthangingSVGisanewdevelopmentdirectioninthefieldofreactivecompensationtechnologywhichprovidesanewideainthefieldsofreactivepowercompensation.KeywordscontainerstraighthangingSVGpowersystem050、、IGBT。MCRmagneticcon-trolreactorTCRthyristorcontrolreactorSVCstaticvarcompensator。SVGstaticvargeneratorSVCIGBT、IEGTSVC。1TCRSVCTCRSVC。TCRSVC1。1QRTCRQC·1·DOI:10.14044/j.1674-1757.pcrpc.2012.05.007FCQLQN。。1TCRSVCFig.1WorkingprinciplediagramoftypeTCR-SVCTCRSVC、、。TCRSVC1。2。3。4SVG。5、、。2MCRSVCMCRSVCMCR。MCRSVC2。2QRTCRQCFCQLQN。。2MCRSVCFig.2WorkingprinciplediagramoftypeMCR-SVCMCRSVC。MCRSVC1MCRSVC35711。2TCRSVC0.1~0.3s。3SVG。4、、。SVG。3SVGSVG。SVG。SVGSVG。SVG·2·2012533。3.13aSVG。USUISVGXULSVGSVGSVGI。SVGSVGSVG。ab3SVGFig.3EquivalentcircuitandworkingprincipleofSVGwithouttakingthelossintoaccountSVG4。4Fig.4Equivalentcircuitofvargeneratorfordccurrentcontrol.41ISILIC。ILILfq+ILfp+、ILf-ILh2。IS=IL+IC1IL=ILfp++ILfq++ILf-+ILh2ISSVGIC34。IC=-ILfq+ILf-3IS=ILfp+ILh4SVGIC3。1-3SVG。SVG4-5。3.2SVG1≥10msSVG<5ms。22∶1SVG5∶1。3SVG。SVG。4SVGSVG、。5。435kVSVGSVG35kV。35kV。。SVG5±200Mvar6±25Mvar、、、、6。·3·20125··35kVSVG1431。35kVIG-BTIGBTIGBTIGBT。2。35kV。IGBT3。IGBT。3。35kV。4。35kVSVG5。2%8%SVG。10kVSVG3.5。6。SVG。SVG。7。35kVSVGIGBTIEGT。7、、。IEGT、、。8。35kVSVG9。51SVG10-11。2SVGFC12-14。TCRSVCMCRSVC。3SVG。±100%60s20%。4SVG。5SVG、、、。6SVG。735kVSVG。1.ASVG·4·2012533J.199919976-80.LIXiao-luDUANXian-zhongHEYang-zan.DynamicmodelofASVGinunbalancedsystemJ.ProceedingsoftheCSEE199919976-80.2.ASVGJ.19962015-10.SUNYuan-zhangLIUJian-zhengYANGZhi-pingetal.DynamicmodelingandtransientsimulationforadvancedstaticvargeneratorJ.AutomationofElectronicPowerSystems19962015-10.3.ASVGJ.199737755-58.4.100kvarGAFJ.199717528-34.JIYan-chaoDAIKe-jianLIUQing-guoetal.Simula-tionandexperimentofgeneralizedactivepowerfilterJ.ChineseSocietyforElectricalEngineering199717528-34.5.J.200028973-76.XIEYun-xiangZHULi-xinTANGZhong-qi.SelectionofoutputinductancevalueofactivepowerfilterJ.JournalofSouthChinaUniversityofTechnologyNaturalScience200028973-76.6.35kVSVGP.201220026989.X.7.35kVSVGP.201220026892.9.8.SVGC//2008146.9.C//2009381-387.10.±200MVASTATCOMJ.20111246-49.YANGChengLIKuangZHANGHai-tao.Themaincircuit'sconnectionmodeof±200MVAchainedSTAT-COMJ.ElectricalEngineering20111246-49.11.PWMMVASTATCOMJ.20111220-23.WANGYong-yuanLIKuangZHANGHai-tao.TheDC-capacitorsvoltagebalancingschemebasedoncarrierphase-shiftPWMof±200MVAchainedSTATCOMJ.ElectricalEngineering20111220-23.12KIMHSULSK.Compensationvoltagecontrolindy-namicvoltagerestorersbyuseroffeedforwardandstatefeedbackschemeJ.IEEETransactionsonPowerElec-tronics20052051169-1177.13LEESJKIMHSULSK.AnovelcontrolmethodforthecompensationvoltagesindynamicvoltagerestorersC//IEEEAnnualAppliedPowerElectronicsConfer-enceandExposition20041614-620.14KIMHKIMJHSULSK.AdesignconsiderationofoutputfiltersfordynamicvoltagerestorersC//IEEEAnnualPowerElectronicsSpecialistsConference200464268-4272.1971—。1961—。1981—檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪檪。“”—±800kV8.53。—±800kV、“”。265、、、、、62207800kW20132014。·5·20125··35kVSVG143
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本文标题:集装箱式35kV直挂SVG在电力系统中的应用-曲雷
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