有源电力滤波器英文文献和中文翻译教学提纲.docx
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有源电力滤波器英文文献和中文翻译教学提纲.docx
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有源电力滤波器英文文献和中文翻译教学提纲
附录
附录一:
英文文献
A10KVShuntHybridActiveFilterforaPowerDistribution
System
Abstract—thispaperanalyzesthecompensationperformanceofashunthybridactivepowerfilter.Thehybridactivepowerfilter,whichcombinespassivefilterandactivepowerfilter,hasbothrespectivemerits,andisanimportantdevelopingtrendoffilteringdevice.Thehybridactivepowerfiltercanreducethecapacityofactivepowerfiltereffectivelyandismoresuitablefortheengineeringapplicationforhighvoltagenonlinearloads.Thecompensationperformanceofhybridactivepowerfilterisanalyzedbyestimatingtheeffectofdifferentactivepowerfiltergainandparameterschange.Then,aconclusionhasbeenobtainedthattheharmonicattenuationrateisinsensitivetothevariationofpassiveparameterswhentheactivepowerfilterwithanenoughfeedbackgainiscombined.Finally,thefeasibilityandvalidityofproposedschemeisverifiedbySimulationusingMatlabandahybridshuntactivepowerfilterprototype.
IndexTerms:
Currentharmonicscompensation,activepowerfilter,passivefilter,generalizedintegrators.
I.INTRODUCTION
Inthedevelopmentofpowerelectronicsbringsconveniencetoenergyconversionandutilizationandalsocausespowerqualityproblems.Asoneofthekeytechnologiesincombatingpowergridpollutionandimprovingthepowerquality,activepowerfilter(APF)hasbecomeanewresearchemphasisinpowerelectronicstechnology[1]-[5].Becauseofhighinitialcost,thefurtherapplicationofactivepowerfilterisrestricted.TheHAPF(HybridActivePowerFilter),combinationofAPFandpassivefilter(PF),canreducethecapacityofAffectivelyandismoresuitablefortheengineeringapplicationofAPFforhighvoltagenonlinearloads.
Traditionally,Passivefilterhasbeenusedtoeliminatetheharmonicinpowersystemduetohislowcostandhighefficiency.Apassivefiltershowsthelowimpedanceattunedfrequencytoabsorbcurrentharmonicandhasagoodcompensationperformance.However,passivefilterhasthedisadvantageofdependingontheparametersofpowersystem,susceptibletotheloadandpowersystemresonantandthecharacteristicchangeduetoaging.Inaddition,passivefilterusuallyisdesignedwithfixedparameters,whichcannotbelightlyadaptedforthevariationoperationcondition.
Activepowerfilterhasbeendevelopedtoovercomeofdisadvantagesofpassivefilterandcanprovideflexibleandreliablecompensation,butisnotacost-effectivesolutionduetthehighoperationcost.
Becauseofthedrawbacksofpassivefilterandactivepowerfilter,theresearchonhybridactivepowerfilterhasbecomemoreattractive[6]-[9].Hybridactivepowerfiltercomposedofpassivefilterconnectedinseriestoanactivepowerfilterimprovesthecompensationperformanceofpassivefilterremarkably,givemoreflexibilityandreliabilitytofilterdevice,andredoundtotheuseofactivepowerfilterinhigh-powersystemavoidingtheexpensiveinitialcost.
Inthispaper,thecompensationperformanceofhybridactivepowerfilterinanindustrialpowerdistributionsystemisanalyzedbyestimatingtheeffectofdifferentactivepowerfiltergainandparameterschange.Finally,thecompensationofhybridactivepowerfilterisverifiedbysimulationandalaboratoryprototype.Thepassivefilterofprototypewastunedattheseventhharmonicandthegeneralizedintegratorsareusedtoeliminatethe5th,11thand13thharmoniccurrent[10].
II.PRINCIPLESOFCURRENTHARMONICCOMPENSATION
ThehybridactivepowerfiltertopologyisshowninFig.1,whichconsistsofathree-phasepulsewidthmodulation(PWM)voltage-sourceinverter(activepowerfilter,APF)andthepassivefilterconnectedinseriestoAPFthroughcouplingtransformer.Generally,theactivepowerfilteractsasacontrolledvoltagesourceandforcetheharmoniccurrentintothehybridactivepowerfilter.Theprincipleofoperationofcurrentharmonicisexplainedbythesingle-phaseequivalentcircuitshowninFig.2whenthefeedbackcontrolisappliedtotheactivepowerfilter.Inthecurrentharmoniccompensationstrategy,theactivepowerfilterisconsideredasacontrolledvoltagesourceVAPF,andZFistheimpedanceofpassivefilter,ILhistheloadharmoniccurrent,ZSisthesystemimpedance.
Inordertoeliminateharmonicofthesystemcurrent,theactivepowerfilteriscontrolledasacurrentcontrolledvoltagesource.TheactivepowerfilterimposesavoltagesignalVAPFthatforcesloadharmoniccurrentflowintothepassivefilter,thusimprovingitscompensationperformanceindespiteofthevariationinthetunedfrequencyofthepassivefilter.Thevoltagereferenceofactivepowerfilterisequalto
VAPF=K⋅Ish
(1)
Where,Kistheharmoniccompensationgain.Supposingutilityvoltageispuresinusoidal,therationbetweentheutilityharmoniccurrentandtheloadharmoniccurrentisobtained,whichcanbeusedtodenotethefilteringcharacteristicsofhybridactivepowerfilter.
Otherwise,KactsasaresistancetodampresonancebetweenZSandZF.ThelargerKisselected,thelowertheharmoniccontentsintheutilitycurrent.Butthiswillincreasetherequiredpowerratingoftheactivepowerfilter.Inrealcondition,Kisfinite.Otherwise,closedloopcontrolsystemwillbecomeunstable.
Fig.1hybridactivepowerfilterconfiguration.
Fig.2Single-phaseequivalentcircuitofthehybridactivepowerfilterscheme.
III.ANALYSISOFTHEHYBRIDFILTERPERFORMANCEINADISTRIBUTIONSYSTEM
Thissectionwillshowthecompensationperformanceofhybridactivepowerfilterthroughanexample.Thepowerdistributionenergizesthesixmediumfrequencyfurnace,eachof300KWratepower.Themediumfrequencyfurnacesenergizedbysixpulseuncontrolledrectifiers.ThesinglephasediagramofthepowerdistributionisshowninFig.3onlyconsideringhybridactivepowerfilterandmediumfrequencyfurnace.
Fig.3Single-phaselinediagramofthepowerdistributionsystem
ThesystemharmoniccontentandharmoniccriterionareshowninTableIandthe5th,7thand11thfrequencyharmonicsexceedthecriterion.So,thepassivefiltersaretunedatthe5th,7thand11thfrequencyharmonicandtherateofreactivepowercompensationis500kVar.ThesysteminductanceandtheparametersofpassivefiltersareshowninTableII.
TABLEI
POWERSYSTEMANDPASSIVEFILTERPAREMETERS
5th
7th
11th
Harmoniccontent(A)
62
28
14
Harmoniccriterion(A)
26.5
19.8
12.3
TABLEII
POWERSYSTEMANDPASSIVEFILTERPAREMETERS
L(mh)
C(uf)
R(mΩ)
KVAR
System
2.4
5thharm.filter
36.57
11.08
957
348
7thharm.filter
57.86
3.57
2120
112
11thharm.filter
66.46
1.26
3826
39.6
Inthiscase,therateofactivepowerfilteris25KVAsinceitwouldonlycompensatecurrentharmonicandthecouplingtransformersturnsratioisequalto2.
Fig.4(a)showstheharmonicattenuationrateofpassivefilterandhybridactivepowerfilter.Thehybridactivepowerfilterischaracterizedbyusingthreesingleresonantfiltertunedatthe5th,7thand11thharmonicfrequencyasshowninFig.3.Therefore,thepassivefilterpresentslowimpedanceatthe5th,7thand11thharmonicfrequencyandtheirneighborhood.Whennoactivepowerfilterisconnectedinserieswiththepassivefilter,theharmonicamplifyingphenomenonappearinthefrequencyrangeof200-240Hz,300-340Hzand500-640Hz.Whentheactivepowerfilterwithafeedbackgainof20iscombined,noharmonicamplifyingphenomenaoccurs.Meanwhile,onlyadaptingthepassivefilter,thefilteringcharacteristicisunsatisfactoryevenatthe5th,7thand11thharmonicfrequency.Whentheactivepowerfilterwithafeedbackgainof20iscombined,theharmonicattenuationrateisincreasedandthefilterperformanceofthehybridactivepowerfilterissatisfactoryatthe5th,7thand11thharmonicfrequency.
Fig.4(b)showstheharmoniccontentofpowersystemindifferentcondition.Whennofilterisconnectedinparallelwiththeutility,the5th,7thand11thharmoniccurrentexceedthecriterionseriously.Afteronlyadaptingthepassivefilter,theharmoniccurrentofutilityisweakenedbutunsatisfactoryadequately.Whentheactivepowerfilterwithafeedbackgainof20iscombined,mostof5th,7thand11thharmoniccurrentisforcedflowingintothehybridactivepowerfilter.
Fig.5showshowtheactivepowerfiltergainKchangestheharmonicattenuationrateofsystemcurrent.LargevalueofKimprovesthehybridactivepowerfiltercompensationperformancebyincreasetheharmonicimpedanceofpowersystem.
Inaddition,Fig.5showsthatthelowvaluesofpassivefilterqualityfactorQwillincreasestheimpedanceattheresonantfrequencyandweakenthecompensationperformanceofhybridactivepowerfilter.ThepassivefilterqualityfactorQdecidesthepassivefilterbandwidth.ThoughincreasingthevalueofactivepowerfiltergainKcancompensatetheadverseeffectoflowvalueofQ,whichwouldresultsintheincreaseofactivepowerfilteroutputvoltagerequiredtokeepthesamecompensationperformance,thusincreasingtheactivepowerfilterratedpower.
Fig.4HybridactivepowerfilterfrequencyresponseandHarmonicContent.
FromFig.5,aconclusioncanbereceivedthatthequalityfactorofpassivefilterandtheactivepowerfiltergaindirectlyaffectthecompensationperformanceofhybridactivepowerfilterwhenthetunedfrequencyisfixed.Ifthequalityfactorofpassivefilterisnotproperlyselected,theactivepowerfiltergainKmustbeenincreasedtoobtainthesatisfyingcompensationperformance.
Fig.5HybridactivepowerfilterfrequencyresponsefordifferentvaluesofpassivefilterqualityfactorQ.
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