简介:分析了电流型AC/DC变流器交流侧产生暂态振荡的原因,提出了电流型AC/DC变流器的线性二次型(LQ)最优控制策略,并给出了实验验证。结果表明,将LQ控制应用到电流型AC/DC变流器中,能够实现变流器网侧的单位功率因数和直流侧的恒流源特性。
简介:Chinaisanimportantcountryinironandsteelindustry.Powerelectronicsconvertersarewidelyused.Forthecoldrollingmillsofhighspeed,AC-DC-ACconvertersshouldbeused.Inthepaper,thedesignandthecontrolsystemofthelargepowerthree-levelAC-DC-ACconverterwithIGCTsisinvestigated,andaback-to-backlargepowerthree-levelAC-DC-ACconverterwithIGCTshasbeengot.Withaseriesexperiments,theperformanceoftheconverterisexamined.Theexperimentresultindicatestheconverterreachesthedesignrequirementanditshowsexcellentperformance.Theconvertersystemhasbeenputintousesafely.ItisestimatedthattheAC-DC-ACconvertersystemwillbeusedinthedrivesystemsforrollingmillsinthenearfuture.
简介:本文系统及深入分析了单级与双级功率因数校正AC/DC变流器的性能特征,并指出各自存在的优缺点.在此基础上,结合软开关技术的特点,提出了一种基于集成化设计的功率因数校正AC/DC开关变流器电路,此类变流器克服了传统单级及双级变流器存在的不足,具有直接功率转换概念的新型功率因数校正电路的特点,它综合具有传统反激式升压转换器的功率传输特性,具有高效、高功率因数、成本低的特点;文中对新拓扑与传统拓扑在效率、功率因数以及直流输出电压等方面进行了比较,并通过一个150W/28V的电路模块进行了实验验证,并给出了实验结果,结果表明,新型PFC拓扑电路能显著地提高变流器的转换效率,比传统PFC电路转换器效率要高出5%.
简介:Inordertorealizethemodulardesignofthemicrogrid,thispaperproposedanewmodulartopologyfortheAC-DCmixedmicrogrid.Inthattopology,theACmicrogridunitandtheDCmicrogridunitwerepackagedtogetherbytheback-to-backconverter.Thebattery-supercapacitorhybridenergystoragesystemwasconnectedtotheDCbusofback-to-backconverter.Bythereasonabledesignonthebattery-supercapacitorhybridsystem,theenergystoragesystemcouldsupplytherapidpowerandenergysupportforthemicrogridspontaneously.Themathematicalmodelandthecontrolalgorithmofthatmicrogridtopologywerestudied.Bythesimulationanalysis,itcanbeconcludedthatAC-DCmixedmodularmicrogridtopologycouldoperatesteadilyonboththegrid-connectedmodeandtheisolatedmode.Furthermore,wecanconcludebythesimulationthatthedesignedmodularmicrogridcouldoperateuninterruptedwhenthemicrogridtopologyswitchedfromthegrid-connectedmodetotheisolatedmode.Theseamlessswitchingbecamethenaturalpropertyforthemodularmicrogrid.Asaresult,themodularmicrogridtopologycanbeconsideredasausualpower/loadmoduletorealizethefriendlypowerinteractionwiththepowergrid.
简介:摘要:AC/DC功率变换器是关键设备,将交流电转换为直流电,应用广泛。然而,目前存在输入电流谐波、效率和稳定性等问题。本研究旨在通过分析研究AC/DC功率变换器,深入了解其原理和特点,并探索优化设计方法,提高效率和稳定性。通过实验和模拟评估其性能,并讨论其在电力系统中的应用前景。这项研究将为AC/DC功率变换器的研究和应用提供参考,推动其在各领域的广泛应用,并为未来研究提供指导。
简介:Acomparativestudyoftheneedle-to-liquidplasmainthecontinuousmodewithDCandACexcitationsisdetailedinthispaper.Allplasmasstudiedhereareshowntobeglowdischarges.Thisstudyisbasedonmeasurementsofseveralkeyparameters,includingelectricalenergy,opticalemissionintensitiesofactivespecies,rotationalandvibrationaltemperatures,andtemperaturesoftheneedleandliquidelectrodes.ACplasmascanproduce1.2~5timeshigherexcitedstateactivespeciesthanDCplasmasunderthesamedissipatedpower.ACexcitedliquidplasmashavethehighestenergyutilizationefficiencyamongthethreesystems(ACexcitedplasmas,DCexcitedplasmaswithwateranodeandDCexcitedplasmaswithwatercathode);mostoftheenergyisusedtoproduceusefulspeciesratherthantoheattheelectrodesandplasmas.
简介:AdesignofthemainAC/DCconvertersystemforITERisdescribedandthecon-figurationofthemainAC/DCconvertersispresented.Toreducethereactivepowerabsorbedfromtheconverterunits,themainAC/DCconvertersaredesignedtobeseries-connectedandworkinasequentialmode.Thestructureoftheregulatoroftheconvertersystemisdescribed.AsimulationmodelwasbuiltupforthePSCAD/EMTDCcode,andthedesignwasvalidatedaccordingly.Harmonicanalysisandreactivepowercalculationoftheconvertersunitsarepresented.Theresultsrevealtheadvantageofsequentialcontrolinreducingreactivepowerandharmonics.
简介:<正>ChinaSouthernPowerGridisauniqueEHVAC/DChybridtransmissionnetworkthatoperatesinChina.Initsservicearea,thedistributionofenergyresourcesandthedevelopmentofeconomyareextremelyunbalanced,solong-distanceandbulkpowertransmissionareneeded;besides,thegeographyandclimateconditionsareserious,rains,fogs,lightningandtyphoonaswellashightemperaturearecommonalltheyearround.Facingthesechallenges,thepowergridenhancedstabilitycontrol,improvedtheequipmentandstrengthenthenetworkstructure.Inthefuture,thepowergridplanstooptimizethedispositionofpowersourcesandbuilddigitalizedpowersystem.
简介:摘要:针对郑州地铁十号线医学院站DC1500V负极柜电流型框架保护跳闸,结合电流型框架保护原理和跳闸数据,进行故障分析。
简介:摘要窃电一直是困扰电力企业的重要问题,尤其是一些用电大户,这些用电大户不仅用电量大,而且存在较大的窃电风险,且大都以电流型窃电为主。因而本文正是基于这一背景,结合笔者的工作实践,对大用户电流型的窃电方式进行了总结,并如何防止大用户电流型窃电的技术措施进行了研究,尤其是在当前无法难以实施监控和防范大用户电流型窃电的行为,而对于电压和相角窃电的方式已经能够很好的处理,所以在本文提出的技术措施中,主要是结合时代发展的需要,在当前的信息化时代,提出了一种基于防大用户电流型窃电的在线监测系统,从而更好地对此类窃电进行监测,最终为防窃电成效的提升奠定坚实的技术基础。希望通过本文的论述,更好地避免大用户电流型窃电行为的出现,确保电力企业利益的同时保证整个供电过程的安全性和高效性。
简介:Inresponsetothecurrentimbalancephenomenonanditsharmfulness,acurrentsharingcircuitmodelisbuiltup,whichrevealstheunderlyingcausesforthecurrentimbalancethroughaquantitativeanalysis.Then,afeasibleapproachofimprovement,namelyenlargementofthelengthofconnectionbusbars,isproposed.Aftertheamendment,itcanbeseenthatthecurrentsharingcoefficientisalmostunityunderratedorfaultcurrentconditions.