安阳工学院学报
安暘工學院學報
안양공학원학보
JOURNAL OF ANYANG INSTITUTE OF TECHNOLOGY
2015年
2期
1-4
,共4页
DER%MT%PQ控制%模型
DER%MT%PQ控製%模型
DER%MT%PQ공제%모형
DER%MT%PQ control%model
结合单轴结构微型燃气轮机的动态特性建立PSCAD/EMTDC模型,同时给出了电力电子装置的拓扑结构及逆变器的PQ控制策略。仿真结果表明,整个微型燃气轮机发电系统与实际相符,单轴结构微型燃气轮机具有较好的动态特性,辅以电力电子装置后能够实现电能的并网输出,且有功功率与无功功率独立可控。
結閤單軸結構微型燃氣輪機的動態特性建立PSCAD/EMTDC模型,同時給齣瞭電力電子裝置的拓撲結構及逆變器的PQ控製策略。倣真結果錶明,整箇微型燃氣輪機髮電繫統與實際相符,單軸結構微型燃氣輪機具有較好的動態特性,輔以電力電子裝置後能夠實現電能的併網輸齣,且有功功率與無功功率獨立可控。
결합단축결구미형연기륜궤적동태특성건립PSCAD/EMTDC모형,동시급출료전력전자장치적탁복결구급역변기적PQ공제책략。방진결과표명,정개미형연기륜궤발전계통여실제상부,단축결구미형연기륜궤구유교호적동태특성,보이전력전자장치후능구실현전능적병망수출,차유공공솔여무공공솔독립가공。
combined with the dynamic characteristics of single shaft structure of microturbine, The model of mi?croturbine is established based on PSCAD/EMTDC in this paper. The thetopological structure of power electron?ic device and the PQ control strategy of inverter are given. Simulation results show that microturbine generation system consistent with the actual, and single shaft microturbine has better dynamic characteristics. The power electronic devices can provide power on grid, and the active power and reactive power are independently control?lable.
