双馈风电场孤岛经模块化多电平换流器直流输电并网系统小信号稳定性分析与振荡抑制方法

doi:10.19595/j.cnki.1000-6753.tces.181981

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Abstract The grid integration of islanded double fed induction generator (DFIG)-based wind farms by modular multilevel converter based HVDC (MMC-HVDC) has become an important solution for large-scale wind power transmission and consumption. The islanded wind farm has many different power operating points, which leads to oscillation instability when the MMC with complex internal dynamic characteristics is integrated to the power grid. Firstly, a small-signal model of the integrated system is developed in Matlab, and is validated by the detailed electromagnetic transient simulation in PSCAD/EMTDC. Then, the eigen-analysis is used to study the small-signal stability of the integrated system with the output power of wind farm changes. Based on the participation factor method, the dominate mode and the key parameters leading to the system instability are revealed. The results show that the parameters of circulating current suppression controller (CCSC) have great influence on the stability of the integrated system. If the parameters of CCSC are unreasonable, with the increase of the output power of the wind farm, the system appears oscillation instability. Finally, considering the dynamic characteristics of the CCSC and the constraints of the stability of the whole integrated system, a method is proposed to effectively suppress the small signal instability of the system of DFIG-based wind farms via the MMC-HVDC integrated system.

Key words： Double fed induction generator (DFIG) islanded system modular multilevel converter (MMC) circulating current suppression controller (CCSC) small-signal stability optimization of parameters

Received: 23 January 2019 Published: 29 May 2019

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TM731

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	Wang Yifan
	Zhao Chengyong
	Guo Chunyi

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Wang Yifan,Zhao Chengyong,Guo Chunyi. Small Signal Stability and Oscillation Suppression Method for Islanded Double Fed Induction Generator-Based Wind Farm Integrated by Modular Multilevel Converter Based HVDC System[J]. Transactions of China Electrotechnical Society, 2019, 34(10): 2116-2129.

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https://dgjsxb.ces-transaction.com/EN/10.19595/j.cnki.1000-6753.tces.181981 OR https://dgjsxb.ces-transaction.com/EN/Y2019/V34/I10/2116

[1] Trinh N T, Zeller M, Wuerflinger K, et al.Generic model of MMC-VSC-HVDC for interaction study with AC power system[J]. IEEE Transactions on Power Systems, 2015, 31(1): 27-34.
[2] 赵成勇, 许建中, 李探. 模块化多电平换流器直流输电建模技术[M]. 北京: 中国电力出版社, 2017.
[3] 徐殿国, 刘瑜超, 武健. 多端直流输电系统控制研究综述[J]. 电工技术学报, 2015, 30(17): 1-12.
Xu Dianguo, Liu Yuchao, Wu Jian.Review on control strategies of multi-terminal direct current transmission system[J]. Transactions of China Elec- trotechnical Society, 2015, 30(17): 1-12.
[4] 李文锋, 张健, 卜广全, 等. 抽蓄电站和经多端柔性直流电网接入的大规模新能源间的协调互补优化控制方案[J]. 电力系统保护与控制, 2017, 45(23): 130-135.
Li Wenfeng, Zhang jian, Bu Guangquan. A coor- dinate complementary optimization control scheme between pumped storage station and large-scale new renewable integrated through VSC-MTDC[J]. Power System Protection and Control, 2017, 45(23): 130-135.
[5] 岳雨霏, 徐千鸣, 马伏军, 等. 基于子模块电压波动估计的MMC双环二倍频环流抑制策略[J]. 电工技术学报, 2017, 32(10): 24-36.
Yue Yufei, Xu Qianming, Ma Fujun, et al.Dual-loop 2nd circulating current strategy based on estimated capacitor voltage fluctuation of sub-module for modular multilevel converter[J]. Transactions of China Electrotechnical Society, 2017, 32(10): 24-36.
[6] Li Tan, Gole A M, Zhao Chengyong.Harmonic instability in MMC-HVDC converters resulting from internal dynamics[J]. IEEE Transactions on Power Delivery, 2016, 31(4): 1738-1747.
[7] 胡畔, 陈红坤, 陈孟忻, 等. 基于动态相量法的改进多端模块化多电平换流器HVDC小信号稳定模型[J]. 电工技术学报, 2017, 32(24): 193-204.
Hu Pan, Chen Hongkun, Chen Mengxin, et al.Advanced small-signal stability model for multi- terminal modular multilevel converter-HVDC systems based on dynamic phasors[J]. Transactions of China Electrotechnical Society, 32(24): 193-204.
[8] Lü Jing, Dong Peng, Shi Gang, et al.Subsynchronous oscillation of large DFIG-based wind farms integration through MMC-based HVDC[C]//International Con- ference on Power System Technology, Chengdu, China, 2014, DOI: 10.1109/POWERCON.2014.6993945.
[9] Liu Hanchao, Sun Jian.Voltage stability and control of offshore wind farms with AC collection and HVDC transmission[J]. IEEE Journal of Emerging & Selected Topics in Power Electronics, 2014, 2(4): 1181-1189.
[10] Amin M, Lyu J, Molinas M.Oscillatory phenomena between wind farms and HVDC systems: the impact of control[C]//2015 IEEE 16th Workshop on Control and Modeling for Power Electronics (COMPEL), Vancouver, BC, Canada, 2015, DOI: 10.1109/ COMPEL.2015.7236513.
[11] Amin M, Molinas M.Understanding the origin of oscillatory phenomena observed between wind farms and HVDC systems[J]. IEEE Journal of Emerging & Selected Topics in Power Electronics, 2016, 5(1): 378-392.
[12] Hu Jiabing, Yuan Hao, Yuan Xiaoming.Modeling of DFIG-Based WTs for small-signal stability analysis in DVC timescale in power electronics dominated power systems[J]. IEEE Transactions on Energy Conversion, 2017, 32(3): 1151-1165.
[13] 杨悦, 李国庆. 基于VSC-HVDC的海上风电小信号稳定控制[J]. 电工技术学报, 2016, 31(13): 101-110.
Yang Yue, Li Guoqing.The small signal stability control of offshore wind farm based on VSC- HVDC[J]. Transactions of China Electrotechnical Society, 2016, 31(13): 101-110.
[14] 孙焜, 姚伟, 文劲宇. 双馈风电场经柔直并网系统次同步振荡机理及特性分析[J]. 中国电机工程学报, 2018, 38(22): 6520-6533.
Sun Kun, Yao Wei, Wen Jinyu.Mechanism and characteristics analysis of subsynchronous oscillation caused by DFIG-based wind farm integrated into grid through VSC-HVDC System[J]. Proceedings of the CSEE, 2018, 38(22): 6520-6533.
[15] Jing Lyu, Cai Xu.Impact of controller parameters on stability of MMC-based HVDC systems for offshore wind farms[C]//IET International Conference on Renewable Power Generation, 2015: 1-6.
[16] Jing Lyu, Cai Xu, Molinas M.Frequency domain stability analysis of MMC-based HVDC for wind farm integration[J]. IEEE Journal of Emerging & Selected Topics in Power Electronics, 2016, 4(1): 141-151.
[17] 吕敬, 蔡旭. 提高风场柔直并网系统稳定性的控制器参数优化设计[J]. 中国电机工程学报, 2018, 38(2): 431-443.
Lü Jing, Cai Xu.Controller parameters optimization design for enhancing the stability of wind farm with VSC-HVDC system[J]. Proceedings of the CSEE, 2018, 38(2): 431-443.
[18] Jing Lyu, Cai Xu, Molinas M.Optimal design of controller parameters for improving the Stability of MMC-HVDC for wind farm integration[J]. IEEE Journal of Emerging & Selected Topics in Power Electronics, 2018, 6(1): 40-53.
[19] Fan Lingling, Kavasseri R, Miao Zhixin Lee, et al.Modeling of DFIG-based wind farms for SSR analysis[J]. IEEE Transactions on Power Delivery, 2010, 25(4): 2073-2082.
[20] 贺益康, 胡家兵, 徐烈. 并网双馈异步风力发电机运行控制[M]. 北京: 中国电力出版社, 2012.
[21] 徐政. 柔性直流输电系统[M]. 2版. 北京: 机械工业出版社, 2017.
[22] Kundur P.Power system stability and control[M]. New York, USA: McGraw-Hill, 1993.
[23] Zhou Yuebin, Jiang Daozhuo, Guo Jie, et al.Analysis and control of modular multilevel converters under unbalanced conditions[J]. IEEE Transactions on Power Delivery, 2013, 28(4): 1986-1995.
[24] Bacha S, Munteanu I, Bratcu A I.Power electronic converters modeling and control-with case studies[J]. Advanced Textbooks in Control & Signal Processing, 2014(1-2): 35-45.
[25] 苑宾, 许建中, 赵成勇, 等. 模块化多电平换流器PR环流抑制器优化设计[J]. 中国电机工程学报, 2015, 35(10): 2567-2575.
Yuan Bin, Xu Jianzhong, Zhao Chengyong, et al.Optimal design of PR circulating current suppressing controllers for modular multilevel converters[J]. Proceedings of the CSEE, 2015, 30(10): 2567-2575.