电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2013年
22期
22-27
,共6页
李晓亮%夏明超%毛彦辉%张文豪
李曉亮%夏明超%毛彥輝%張文豪
리효량%하명초%모언휘%장문호
统一电能质量调节器%电压跌落%非线性负荷%不平衡负荷%分布式电源%功率分配
統一電能質量調節器%電壓跌落%非線性負荷%不平衡負荷%分佈式電源%功率分配
통일전능질량조절기%전압질락%비선성부하%불평형부하%분포식전원%공솔분배
unified power quality conditioner(UPQC)%voltage sags%nonlinear loads%unbalanced loads%distributed generator%power distribution
在电压等级为380 V的微电网应用中,针对主电网三相四线制结构,提出了一种基于改进型统一电能质量调节器(UPQC)结构的微电网控制策略。该策略可以有效补偿主电网电压跌落、过电压和电压畸变,以及由微电网中非线性和不平衡负荷带来的电能质量问题。并网变流器(包括串并联变流器)在补偿电网电压和电流的同时,不仅解决了串并联变流器耦合带来的干扰,而且实现了微电网合理的功率分配。通过改进微电网公共连接点的UPQC结构,提出了改进型最小能量电压跌落补偿法,克服了传统补偿算法的缺陷,确保负载电压不会发生相位突变,不仅提高了分布式电源补偿电压的能力和范围,而且降低了变流器的容量和成本。通过MATLAB/Simulink 仿真验证了所述控制策略的有效性。
在電壓等級為380 V的微電網應用中,針對主電網三相四線製結構,提齣瞭一種基于改進型統一電能質量調節器(UPQC)結構的微電網控製策略。該策略可以有效補償主電網電壓跌落、過電壓和電壓畸變,以及由微電網中非線性和不平衡負荷帶來的電能質量問題。併網變流器(包括串併聯變流器)在補償電網電壓和電流的同時,不僅解決瞭串併聯變流器耦閤帶來的榦擾,而且實現瞭微電網閤理的功率分配。通過改進微電網公共連接點的UPQC結構,提齣瞭改進型最小能量電壓跌落補償法,剋服瞭傳統補償算法的缺陷,確保負載電壓不會髮生相位突變,不僅提高瞭分佈式電源補償電壓的能力和範圍,而且降低瞭變流器的容量和成本。通過MATLAB/Simulink 倣真驗證瞭所述控製策略的有效性。
재전압등급위380 V적미전망응용중,침대주전망삼상사선제결구,제출료일충기우개진형통일전능질량조절기(UPQC)결구적미전망공제책략。해책략가이유효보상주전망전압질락、과전압화전압기변,이급유미전망중비선성화불평형부하대래적전능질량문제。병망변류기(포괄천병련변류기)재보상전망전압화전류적동시,불부해결료천병련변류기우합대래적간우,이차실현료미전망합리적공솔분배。통과개진미전망공공련접점적UPQC결구,제출료개진형최소능량전압질락보상법,극복료전통보상산법적결함,학보부재전압불회발생상위돌변,불부제고료분포식전원보상전압적능력화범위,이차강저료변류기적용량화성본。통과MATLAB/Simulink 방진험증료소술공제책략적유효성。
A control strategy based on improved structure of unified power quality conditioner(UPQC)is proposed for 380 V three-phase four-wire microgrids.The strategy can effectively compensate voltage sags,voltage swells and voltage distortion, as well as voltage power quality problems caused by nonlinear and unbalanced loads in the microgrid.Grid-side converters (including series converter and parallel converter) can compensate grid voltage and current,which not only solves the coupling interference from series and parallel converters,but also achieves proper load power distribution in the microgrid.An improved minimum-energy compensation method is proposed by improving the UPQC structure at the point of common coupling, overcoming the disadvantages of traditional compensation algorithm and ensuring no phase mutation of load voltage.It not only improves voltage compensation ability and range of distributed generators,but also reduces the capacity and cost of converters. MATLAB/Simulink simulation results verify the effectiveness of the proposed method.
