Abstract:The regulator design of control system dominates the dynamic performance and steady performance of doubly-fed induction generator(DFIG) power generation system, and even dynamic stability of entire power system. Because of its fast dynamic response, wind power systems inner current loop are generally adjusted to type Ⅰ system, but it also has an obvious shortcoming in anti- interference. A design method of inner current loop based on two-degree-of-freedom type Ⅱsystem is proposed in this paper. Under the compromise between the fast response and anti-interference of the system, a simulation analysis is done under different freedom coefficients, through choosing freedom coefficient reasonably, it can not only increase the anti-interference performance, but also reduce the overshoot of the system. Finally, an experiment is carried out in the 11kW wind power generation system platform. The experimental results show that the proposed control strategy based on two-degree-of-freedom can not only improve the anti-interference of the system, but also keep the faster dynamic response, solving the problem of the gird-connected current low frequency oscillation. The effectiveness of the theoretical analysis and the control strategy is verified.
张纯江, 王勇, 柴秀慧, 阚志忠. 基于二自由度的双馈风力发电系统并网控制策略[J]. 电工技术学报, 2012, 27(8): 203-214.
Zhang Chunjiang, Wang Yong, Chai Xiuhui, Kan Zhizhong. Grid-Connected Control Strategy of Double-Fed Wind Power System Based on Two-Degree-of-Freedom. Transactions of China Electrotechnical Society, 2012, 27(8): 203-214.
[1] 梁昌鑫, 贾廷刚, 陈孝祺. 国内外风电的现状和发展趋势[J]. 上海电机学院学报, 2009, 12(1): 73-77. Liang Changxin, Jia Yangang, Chen Xiaoqi. The development status and trend of wind power at home and abroad[J]. Journal of Shanghai Dianji University, 2009, 12(1): 73-77. [2] 李建林, 许洪华. 风力发电中的电力电子变流技术[M]. 北京: 机械工业出版社, 2008. [3] Lei Yazhou, Alan Mullane, Gordon Lightbody, et al. Modeling of the wind turbine with a doubly fed induction generator for grid integration studies[J]. IEEE Transactions on Energy Conversion, 2006, 21(1): 257-260. [4] 林成武, 王凤翔, 姚兴佳. 变速恒频双馈风力发电机励磁控制技术研究[J]. 中国电机工程学报, 2006, 23(11): 122-125. Lin Chengwu, Wang Fengxiang, Yao Xingjia. Study on excitation control of VSCF doubly fed wind power generator[J]. Proceedings of the CSEE, 2006, 23(11): 122-125. [5] Xu Lie. Enhanced control and operation of DFIG based wind fames during network unbalance energy conversion[J]. IEEE Transaction Power Electronics, 2008, 23(4): 1073-1081. [6] 刘其辉, 贺益康, 卞松江. 变速恒频风力发电机空载并网控制研究[J]. 中国电机工程学报, 2007, 4(3): 6-11. Liu Qihui, He Yikang, Bian Songjiang. Study on no-lode current-in control of the variable speed constant frequency wind power generator[J]. Proceedings of the CSEE, 2007, 4(3): 6-11. [7] 刘其辉, 贺益康, 张建华. 交流励磁变速恒频风力发电机的运行控制及建模仿真[J]. 中国电机工程学报, 2006, 26(5): 43-44. Liu Qihui, He Yikang, Zhang Jianhua. Operation control and modeling-simulation of AC-excited variable-speed constant wind power generator[J]. Proceedings of the CSEE, 2006, 26(5): 43-44. [8] Muller S, Deicke M, De Doncker Rik W. Doubly-fed induction generator systems for wind turbines[J]. IEEE Industry Applications Magazine, 2008, 8(3): 26-33. [9] 王卫红, 张井冈, 刘晓星. 基于模糊逻辑的二自由度PID调节器参数整定[J]. 系统工程与电子技术, 2007, 25(7): 845-847. Wang Weihong, Zhang Jinggang, Liu Xiaoxing. Tuning parameter for two-degree-of-freedom PID regulator based on fuzzy logic[J]. Systems Engineering and Electronics, 2007, 25(7): 845-847.