《电力自动化设备》

引用本文:	郑涛,魏旭辉,李娟,李菁,王燕萍,杨国生,王增平,李霞.PI控制参数对双馈风电机组短路电流特性的影响分析[J].电力自动化设备,2016,36(7):
	ZHENG Tao,WEI Xuhui,LI Juan,LI Jing,WANG Yanping,YANG Guosheng,WANG Zengping,LI Xia.Influence of PI control parameters on short circuit current characteristics of DFIG[J].Electric Power Automation Equipment,2016,36(7):

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PI控制参数对双馈风电机组短路电流特性的影响分析
郑涛¹, 魏旭辉¹, 李娟¹, 李菁¹, 王燕萍¹, 杨国生², 王增平¹, 李霞³
1.华北电力大学新能源电力系统国家重点实验室，北京 102206;2.中国电力科学研究院，北京 100192;3.国网冀北电力有限公司承德电力经济研究所，河北承德 067000

摘要:

在机端电压跌落程度不深的情况下，双馈风电机组（DFIG）不投入撬棒，而是通过改变转子侧控制策略的方法抑制转子侧过电流，此时定子短路电流中会产生衰减暂态电流分量，而DFIG控制系统的PI参数是影响该衰减暂态电流分量的主要因素。以机端发生对称故障的情况为例，针对机端电压跌落程度不深时撬棒保护未投入的情况，推导了DFIG短路电流的表达式，从理论上分析了PI参数对其短路电流特性的影响，并且辅以PSCAD仿真验证分析了在机端电压跌落轻微的情况下DFIG的短路电流特性。

关键词: 双馈风电机组风电对称故障转子侧变频器定子电流短路电流 PI参数仿真

DOI：

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基金项目:国家电网公司科技项目（JB17201300189）

Influence of PI control parameters on short circuit current characteristics of DFIG

ZHENG Tao¹, WEI Xuhui¹, LI Juan¹, LI Jing¹, WANG Yanping¹, YANG Guosheng², WANG Zengping¹, LI Xia³

1.State Key Laboratory for Alternate Electrical Power System with Renewable Energy Sources，North China Electric Power University，Beijing 102206，China;2.China Electric Power Research Institute，Beijing 100192，China;3.Chengde Power and Economic Research Institute，State Grid Jibei Electric Power Company Limited，Chengde 067000，China

Abstract:

During a mild terminal voltage dip，DFIG（Doubly Fed Induction Generator） may not put the Crowbar protection into operation but change its rotor-side control strategy to suppress the rotor-side overcurrent，which may induce decaying transient components in the short circuit current of stator. The PI parameters of DFIG control system are the main influencing factors of the induced transient components. A symmetrical fault of stator terminal，when the Crowbar protection is not put into operation during the mild terminal voltage dip，is taken as an example to deduce the DFIG short circuit current expression for theoretically analyzing the influence of PI parameters of rotor-side converter control system on the characteristics of DFIG short circuit current，which are further verified by the PSCAD simulation.

Key words: doubly fed induction generators wind power symmetrical fault rotor-side converter stator current short circuit currents PI parameters computer simulation

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