摘要
根据我国颁布的风电并网标准,将电压跌落深度区域划分为三个,讨论了在不同区域内DFIG实现低电压穿越的方法,并且在Matlab/simulink环境下进行了仿真验证。仿真结果表明:装设有撬棒和chopper保护的DFIG在实现低电压穿越问题上相比于只有主动式撬棒保护的DFIG更有优势,并且可以保护双馈风电机组在电压跌落深度在80%以内的情况下不被切机。因此,含有撬棒和chopper保护的DFIG在较多情况下已经具备低电压穿越能力。
According to China's wind power integration standards, the paper divides the sag depth of the area into three different voltage areas, and discusses different DFIG LVRT method in each area, and simu- lates it in Matlab/simulink environment to verify the conclusion. Simulation results show that: DFIG e- quipped with crowbar and chopper protection has advantage of DFIG only with active crowbar protection on achieving low voltage ride through, and can protect the doubly fed wind turbine not be cut under cir- cumstances of below 80 % voltage drop depth. Therefore, DFIG contains crowbar and chopper protection in most cases already have low voltage ride--through capability.
出处
《湖北工业大学学报》
2014年第1期1-6,11,共7页
Journal of Hubei University of Technology
基金
国家重点基础研究发展计划(973计划)资助项目(2012CB215100-G)
关键词
双馈感应发电机
低电压穿越
并网标准
保护装置
doubly fed induction generator
low voltage ride through
integration standards
protectiondevices
