中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2012年
6期
121-130
,共10页
姚骏%廖勇%李辉%陈西寅
姚駿%廖勇%李輝%陳西寅
요준%료용%리휘%진서인
风力发电%双馈感应发电机%电网电压不平衡%串联网侧变换器%改进控制
風力髮電%雙饋感應髮電機%電網電壓不平衡%串聯網側變換器%改進控製
풍력발전%쌍궤감응발전궤%전망전압불평형%천련망측변환기%개진공제
wind-power generation%doubly fed induction generator(DFIG)%unbalanced grid voltage%series grid-side converter(SGSC)%improved control
为进一步提高电网电压不平衡下采用串联网侧变换器的双馈感应发电机(doubly fed induction generator,DFIG)风电系统的运行性能,研究了适用于该系统的改进运行控制策略。提出电网电压不平衡下采用串联网侧变换器的DFIG系统的3种可选运行方案,以此为基础提出串联网侧变换器与并联网侧变换器的协调控制策略,并建立了在双同步dq旋转坐标轴系下两者的控制模型。所提系统协调控制方案无需改变电网电压不平衡下转子侧变换器的控制策略,在实现发电机输出功率无二倍频波动、电磁转矩无二倍频波动以及定、转子三相电流平衡的同时,可实现电网电压不平衡下整个系统或总输出有功功率无二倍频波动(同时可实现直流链电压无二倍频波动)或总输出无功功率无二倍频波动或整个系统无负序电流注入电网的不同运行功能,进一步增强了不平衡电压下DFIG风电系统的运行能力。对一台采用串联网侧变换器的DFIG风电模拟系统在不平衡电压条件下的运行进行了相关实验,实验结果验证了该文所提改进控制策略的可行性。
為進一步提高電網電壓不平衡下採用串聯網側變換器的雙饋感應髮電機(doubly fed induction generator,DFIG)風電繫統的運行性能,研究瞭適用于該繫統的改進運行控製策略。提齣電網電壓不平衡下採用串聯網側變換器的DFIG繫統的3種可選運行方案,以此為基礎提齣串聯網側變換器與併聯網側變換器的協調控製策略,併建立瞭在雙同步dq鏇轉坐標軸繫下兩者的控製模型。所提繫統協調控製方案無需改變電網電壓不平衡下轉子側變換器的控製策略,在實現髮電機輸齣功率無二倍頻波動、電磁轉矩無二倍頻波動以及定、轉子三相電流平衡的同時,可實現電網電壓不平衡下整箇繫統或總輸齣有功功率無二倍頻波動(同時可實現直流鏈電壓無二倍頻波動)或總輸齣無功功率無二倍頻波動或整箇繫統無負序電流註入電網的不同運行功能,進一步增彊瞭不平衡電壓下DFIG風電繫統的運行能力。對一檯採用串聯網側變換器的DFIG風電模擬繫統在不平衡電壓條件下的運行進行瞭相關實驗,實驗結果驗證瞭該文所提改進控製策略的可行性。
위진일보제고전망전압불평형하채용천련망측변환기적쌍궤감응발전궤(doubly fed induction generator,DFIG)풍전계통적운행성능,연구료괄용우해계통적개진운행공제책략。제출전망전압불평형하채용천련망측변환기적DFIG계통적3충가선운행방안,이차위기출제출천련망측변환기여병련망측변환기적협조공제책략,병건립료재쌍동보dq선전좌표축계하량자적공제모형。소제계통협조공제방안무수개변전망전압불평형하전자측변환기적공제책략,재실현발전궤수출공솔무이배빈파동、전자전구무이배빈파동이급정、전자삼상전류평형적동시,가실현전망전압불평형하정개계통혹총수출유공공솔무이배빈파동(동시가실현직류련전압무이배빈파동)혹총수출무공공솔무이배빈파동혹정개계통무부서전류주입전망적불동운행공능,진일보증강료불평형전압하DFIG풍전계통적운행능력。대일태채용천련망측변환기적DFIG풍전모의계통재불평형전압조건하적운행진행료상관실험,실험결과험증료해문소제개진공제책략적가행성。
In order to improve the operational performance of the doubly fed induction generator(DFIG) wind turbine with a series grid-side converter(SGSC) under unbalanced grid voltage conditions,the improved control strategies for the system were investigated in this paper.According to the different operation commands,three selective control schemes for the DFIG system with SGSC were proposed.Furthermore,the coordinated control strategies for the SGSC and parallel grid-side converter(GSC) were proposed,and the control models for the two converters were established under dual synchronous dq rotating frames respectively.With the proposed control scheme,the control strategy of the rotor-side converter(RSC) would not be changed during network unbalance conditions.While achieving the goal that eliminating the double supply frequency oscillations in generator’s power output and electromagnetic torque and balancing the stator and rotor currents,the pulsations of the total active power output(also the pulsations of the DC-link voltage) or the pulsations of the total reactive power output or the total negative sequence currents of the system could be restrained.The operational performance of the DFIG system can be further improved with the proposed scheme.The experimental results of a DFIG test rig with SGSC under unbalanced voltage conditions are used to verify the proposed improved control strategies.
