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Electric Power Construction ›› 2017, Vol. 38 ›› Issue (7): 59-.doi: 10.3969/j.issn.1000-7229.2017.07.008
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HE Ping, SHI Feng, YAO Yilin, QU Zhongjie, GENG Sihan
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2017-07-01
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HE Ping, SHI Feng, YAO Yilin, QU Zhongjie, GENG Sihan . Review on Power System Probabilistic Small Signal Stability with High Wind Power Integration [J]. Electric Power Construction, 2017, 38(7): 59-.
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[1]Global wind energy outlook 2016 [EB/OL]. [2017-06-28]. http://www. gwec.net/publications/global-wind-energy-outlook/global-w-ind-energy-outlook-2016/
[2]FRERIS L, INFIELD D. Renewable energy in power systems[M]. New York: Wiley, 2008.
[3]王仲颖. 中国风电发展路线图2050 [R]. 北京: 国家发改委能源研究所, 2011.
[4]国家能源局.可再生能源发展“十二五”规划[EB/OL]. http://www.nea.gov.cn/2012-08/08/c_131767651.html,2012-08-08.
[5]Global wind statistics 2014[R]. Brussels: Global Wind Energy Council, 2015.
[6]商立峰.中国风电发展路径研究[D].天津:天津大学,2013. SHANG Lifeng,Research developmet path windpower China[D]. Tianjin: Tianjin University, 2013.
[7]SU C, HU W H, CHEN Z, et al. Mitigation of power system oscillation caused by wind power fluctuation [J]. IET Renewable Power Generation, 2013, 7(6):639-651.
[8]余贻鑫. 智能电网的核心理念[C]// 2014年第四届北京国际储能大会. 北京, 2014.
[9]朱方, 赵红光, 刘增煌, 等.大区电网互联对电力系统动态稳定性的影响[J].中国电机工程学报, 2007, 27(1): 1-7. ZHU Fang, ZHAO Hongguang, LIU Zenghuang, et al.The influence of large power grid interconnected on power system dynamic stability[J]. Proceedings of the CSEE, 2007, 27(1): 1-7.
[10]GNTHER B, DUSAN P, DIETMAR R, et al. 全球大停电的经验教训[J]. 中国电力, 2007, 40(10): 75-81. GNTHER B, DUSAN P, DIETMAR R, et al. Lessons from the global blackout[J]. Electric Power, 2007, 40(10): 75-81.
[11]ARULAMPALAM A, TAPAN K. Power system blackouts-literature review[C]//Fourth International Conference on Industrial and Information Systems(ICIIS 2009). Sri Lanka, 2009: 460-465.
[12]中国电力企业联合会. 全国电力工业统计快报(2011 年) [EB/OL]. (2012-01-13) [2017-03-27]. http://www.cec.org.cn/xinxifabu/2012-01-13/78769. html.
[13]贺德馨.中国风能发展战略研究[J].中国工程科学, 2011,13(6):95-100. HE Dexin. Research on Chinas wind energy development strategy [J]. Engineering Science,2011,13(6):95-100.
[14]WANG Z, QIN H, LEWIS JI. Chinas wind power industry: policy support, technological achievements, and emerging challenges [J]. Energy Policy, 2012, 51(C):80-88.
[15]费智,符平.我国风电发展的态势分析与对策建议[J].科技进步与对策,2011, 28(10):65-68. FEI Zhi, FU Ping.The status quo and future policy of Chinese wind power development[J]. Science & Technology Progress and Policy,2011, 28(10):65-68.
[16]LIU Y, KOKKO A. Wind power in China: Policy and development challenges [J].Energy Policy,2010, 38(10): 5520- 5529.
[17]2014中国风电发展报告[R].北京:中国循环经济协会可再生能源专业委员会,2014.
[18]李俊峰.2012中国风电发展报告[R].北京:中国风能协会,2012.
[19]International Energy Agency. Variability of wind power and other renewables:management options and strategies[R]. Paris: International Energy Agency, 2005.
[20]周双喜,朱凌志,郭锡玖,等.电力系统电压稳定性及其控制[M].北京:中国电力出版社,2003.
[21]ECHAVARREN F M, LOBATO E, ROUCO L, et al. Formulation, computation and improvement of steady state security margins in power systems. Part I: Theoretical framework [J]. International Journal of Electr Power Energy Systems,2011,33( 2): 340-346.
[22]毛安家,张戈力,吕跃春,等. 2011年9月8日美墨大停电事故的分析及其对我国电力调度运行管理的启示[J]. 电网技术,2012,36(4):74-78. MAO Anjia, ZHANG Geli, LYU Yuechun, et al.Analysis on large-scale blackout occurred in south America and North Mexico interconnected power grid on Sept. 8, 2011 and lessons for electric power dispatching in China[J]. Power System Technology, 2012,36(4):74-78.
[23]汤涌,卜广全,易俊. 印度“7.30”、“7.31”大停电事故分析及启示[J]. 中国电机工程学报,2012,32(25):167-174, 23. TANG Yong, BU Guangquan, YI Jun.Analysis and lessons of the blackout in Indian power grid on July 30 and 31[J]. Proceedings of the CSEE, 2012,32(25):167-174, 23.
[24]唐斯庆,张弥,李建设,等. 海南电网“9·26"大面积停电事故的分析与总结[J]. 电力系统自动化,2006,30(1):1-7, 16. TANG Siqing, ZHANG Mi,LI Jianshe, et al. Review of blackout in Hainan on September 26th causes and recommendations[J]. Automation of Electric Power Systems, 2006,30(1):1-7, 16.
[25]李春艳,孙元章,陈向宜,等. 西欧“11.4”大停电事故的初步分析及防止我国大面积停电事故的措施[J]. 电网技术,2006,30(24):16-21. LI Chunyan, SUN Yuanzhang, CHEN Xiangyi, et al.Preliminary analysis of large scale blackout in Western Europe power grid on November 4 and measures to prevent large scale blackout in China[J]. Power System Technology, 2006,30(24):16-21.
[26]林伟芳,汤涌,孙华东,等. 巴西“2·4”大停电事故及对电网安全稳定运行的启示[J]. 电力系统自动化,2011,35(9):1-5. LIN Weifang, TANG Yong, SUN Huadong, et al. Blackout in Brazil power grid on February 4, 2011 and inspration for stable operation of power grid[J]. Automation of Electric Power Systems,2011,35(9):1-5.
[27]林伟芳,孙华东,汤涌,等. 巴西“11·10”大停电事故分析及启示[J]. 电力系统自动化,2010,34(7):1-5. LIN Weifang, SUN Huadong, TANG Yong , et al.Analysis and lessons of the blackout in Brazil power grid on November 10, 2009[J]. Automation of Electric Power Systems, 2010,34(7):1-5.
[28]KUNDUN P, PASERBA J, AJJARAPU V, et al. Definition and classification of power system stability[J]. IEEE Transactions on Power Systems,2004,19(2):1387-1401.
[29]范伟,赵书强. 考虑风力发电的电力系统小干扰稳定性分析[J]. 华北电力大学学报(自然科学版), 2009, 36(2): 23-27, 32. FAN Wei, ZHAO Shuqiang.Small signal stability analysis of power system considering wind farm[J]. Journal of North China Electric Power University(Natural Science Edition), 2009,36(2):23-27, 32.
[30]王克文,钟志勇,谢志棠,等.混合使用中心矩与累加量的电力系统概率特征根分析方法[J].中国电机工程学报,2000,20 (5):37-41. WANG Kewen, ZHONG Zhiyong, XIE Zhitang, et al. A hybird algorithm using moment and cumulant for power system probabilistic eigenvalue analysis[J].Proceedings of the CSEE, 2000,20 (5):37-41.
[31]BURCHETT R C, HEYDT G T. Probabilistic methods for power system dynamic stability studies[J].IEEE Transactions on Power Apparatus and Systems,1978,97(3):695-702.
[32]胡金磊,张尧,陈延秋,等. 基于解析法的概率暂态稳定扰动后初值计算[J]. 电力自动化设备,2008,28(11):17-21. HU Jinlei, ZHANG Yao, CHEN Yanqiu, et al.Calculation of post disturbance initial value for probabilistic transient stability analysis based on multi operating conditions[J]. Electric Power Automation Equipment, 2008,28(11):17-21.
[33]LI Wenyuan. Risk assessment of power systems: models, methods, and applications[J]. Interfaces, 2005, 36(2):179-180.
[34]XU Z, DONG Z Y, ZHANG P. Probabilistic small signal analysis using Monte Carlo simulation[C]// Proceedings of IEEE Power Engineering Society General Meeting, San Francisco: IEEE, 2005: 1658-1664.
[35]雷桂媛. 关于蒙特卡罗及拟蒙特卡罗方法的若干研究[D].杭州:浙江大学,2003. LEI Guiyuan. Studies on Monte Carlo and Quasi-Monte Carlo methods[D]. Hangzhou: Zhejiang University, 2003.
[36]朱辉,刘义保,游运. 蒙特卡罗方法与拟蒙特卡罗方法的历史、现状及展望[J]. 东华理工大学学报(自然科学版),2010,33(4):357-362. ZHU Hui, LIU Yibao, YOU Yun.Monte Carlo method and quasi-Monte Carlo method[J]. Journal of East China Institute of Technology(Natural Science Edition), 2010,33(4):357-362.
[37]侯雨伸,王秀丽,刘杰,等. 基于拟蒙特卡罗方法的电力系统可靠性评估[J]. 电网技术,2015,39(3):744-750. HOU Yushen, WANG Xiuli, LIU Jie, et al.A quasi-Monte Carlo method based power system reliability evaluation[J]. Power System Technology, 2015,39(3):744-750.
[38]张建华,王昕伟,蒋程,等. 基于蒙特卡罗方法的风电场有功出力的概率性评估[J]. 电力系统保护与控制,2014,42(3):82-87. ZHANG Jianhua, WANG Xinwei, JIANG Cheng, et al. Probabilistic assessment of wind farm active power based on Monte-Carlo simulation[J]. Power System Protection and Control, 2014,42(3):82-87.
[39]于晗, 钟志勇, 黄杰波, 等. 采用拉丁超立方采样的电力系统概率潮流计算方法[J]. 电力系统自动化, 2009, 33(21):32-36. YU Han, ZHONG Zhiyong, HUANG Jiebo, et al.A probabilistic load flow calculation method with Latin Hypercube sampling[J]. Automation of Electric Power Systems, 2009, 33(21):32-36.
[40]吴义纯, 丁明. 基于蒙特卡罗仿真的风力发电系统可靠性评价[J]. 电力自动化设备, 2004, 24(12): 70-73. WU Yichun, DING Ming. Reliability assessment of wind power generation system based onMonte Carlo simulation[J]. Electric Power Automation Equipment, 2004, 24(12): 70-73.
[41]李媛媛,邱跃丰,马世英,等.风电机组接入对系统小干扰稳定性的影响研究[J].电网技术,2010,36(8):50-55. LI Yuanyuan, QIU Yuefeng, MA Shiying, et al.Impact of grid-connected wind turbine generators on small signal stability of power grid[J]. Power System Technology, 2010,36(8): 50-55.
[42]HE Ping, WEN Fushuan, GERARD L, et al. Investigations on the impacts of various types of wind turbine generators on power system stability[J]. Journal of Energy Engineering, 2015, 141(3):1-10.
[43]和萍, 文福拴, 薛禹胜, 等. 风电场并网对互联系统小干扰稳定及低频振荡特性的影响[J]. 电力系统自动化, 2014,38(22):1-10. HE Ping, WEN Fushuan, XUE Yusheng, et al. Impact of wind power integration on small signal stability and low frequency oscillation characteristics of interconnected power systems[J]. Automation of Electric Power Systems, 2014,38(22):1-10.
[44]孙延昭.永磁直驱风电变流系统控制策略研究[D].长沙:湖南大学,2009. SUN Yanzhao.The research on control strategies in permanent-magnet direct-driven wind power conversion system[D]. Changsha: Hunan University, 2009.
[45]WANG Chen, SHI Libao, WANG Liming, et al. Modelling analysis in power system small signal stability with grid-connected wind farms of DFIG type[J].Wind Engineering,2008, 32(3): 243-264.
[46]伍红,赵霞,周家启.电力系统小扰动概率稳定性的蒙特卡罗仿真[J].电力系统自动化,2009,33(11):8-12. WU Hong, ZHAO Xia, ZHOU Jiaqi.Monte Carlo simulation of probabilistic small disturbance stability[J]. Automation of Electric Power Systems, 2009,33(11):8-12.
[47]史文丽.风电接入的电力系统静态安全概率分析[J].电气开关,2013,51(5):48-51. SHI Wenli.Static security probability analysis for the power system with wind power[J]. Electrical Switch, 2013,51(5):48-51.
[48]边晓燕,李广跃,王克文,等.多运行方式下含风电场电力系统的小干扰概率稳定性研究[J].电网技术,2013,37(11): 3046- 3054. BIAN Xiaoyan, LI Guangyue, WANG Kewen, et al.Probabilistic small signal stability analysis of power system integrated with large-scale wind farm considering multi operating conditions[J]. Power System Technology, 2013,37(11): 3046-3054.
[49]杜文娟,卜思齐,王海风. 考虑并网风电随机波动的电力系统小干扰概率稳定性分析[J].中国电机工程学报, 2011,31(s1):7-11. DU Wenjuan, BU Siqi, WANG Haifeng.Effect of stochastic variation of grid-connected wind generation on power system small-signal probabilistic stability[J]. Proceedings of the CSEE, 2011,31(s1):7-11.
[50]BU S Q, DU W, WANG H F, et al. Probabilistic analysis of small-signal stability of large-scale power systems as affected by penetration of wind generation[J].IEEE Transactions on Power Systems,2012, 27(2): 762-770.
[51]黄海煜,于文娟.考虑风电出力概率分布的电力系统可靠性评估[J].电网技术.2013,37(9):2586-2591. HUANG Haiyu, YU Wenjuan.Power grid reliability assessment considering probability distribution of wind farm power output[J]. Power System Technology, 2013,37(9): 2586-2591.
[52]GAUTAM D, VITTAL V, HARBOUR T. Impact of increased penetration of DFIG-based wind turbine generations on transient and small signal stability of power systems[J]. IEEE Transactions on Power Systems, 2012, 24(3): 1426-1434.
[53]ABDELHALIM H, FARID A M, ADEGBEGE A A, et al. Small-signal stability effects of turbine governors on power systems with high penetrations of integrated wind power[C]//Innovative Smart Grid Technologies (ISGT) . IEEE, 2013:1-6.
[54]ISWADI H R, MORROW D J, BEST R J. Small signal stability performance of power system during high penetration of wind generation[C]//Power Engineering Conference (UPEC), 2014 49th International Universities. 2014:1-6.
[55]李军军, 吴政球, 谭勋琼. 下垂特性对直驱永磁风电系统的小扰动稳定影响[J]. 中国电机工程学报, 2011, 31(3): 52-59. LI Junjun, WU Zhengqiu, TAN Xunqiong.Droop characteristics effect on small signal stability of directly driven permanent magnet wind power system[J]. Proceedings of the CSEE, 2011, 31(3): 52-59.
[56]李辉, 张志科, 杨超, 等. 双馈风电机组参数及运行状态的小干扰稳定性分析[J]. 电机与控制学报, 2013, 17(2): 14-21. LI Hui, ZHANG Zhike, YANG Chao, et al.Analysis of parameter and operation state on small-signal stability of doubly-fed wind turbine generation system[J]. Electric Machines and Control, 2013, 17(2): 14-21.
[57]石佳莹, 沈沉, 刘锋. 双馈风电机组动力学特性对电力系统小干扰稳定的影响分析[J]. 电力系统自动化, 2013, 37(18): 7-13. SHI Jiaying, SHEN Chen, LIU Feng. Analysis on impact of DFIG wind turbines dynamic characteristics on power systems small signal stability[J]. Automation of Electric Power Systems, 2013, 37(18): 7-13.
[58]VITTAL E, OMALLEY M, KEANE A. Rotor angle stability with high penetrations of wind generation[J]. IEEE Transactions on Power Systems , 2012, 27(1): 353-362.
[59]和萍, 文福拴, LEDWICH G,等. 附加阻尼控制静止无功补偿器对含风电互联系统阻尼特性的影响[J]. 华北电力大学学报, 2014, 41(2):6-14. HE Ping, WEN Fushuan, LEDWICH G, et al. Impacts of ADC-SVC on damping characteristics of interconnected power systems with wind farms[J]. Journal of North China Electric Power University, 2014, 41(2):6-14.
[60]关宏亮, 迟永宁, 戴慧珠, 等. 并网风电场改善系统阻尼的仿真[J]. 电力系统自动化, 2008, 32(13): 81-85. GUAN Hongliang, CHI Yongning, DAI Huizhu, et al.A simulation on wind farm integration in improving power system damping[J]. Automation of Electric Power Systems, 2008, 32(13): 81-85.
[61]云雷, 刘涤尘, 廖清芬, 等. 基于功率分布法分析和控制区间联络线功率振荡[J]. 电力系统自动化, 2012, 36(10): 7-13. YUN Lei, LIU Dichen, LIAO Qingfen, et al. Analysis and control of interval tie line power oscillations based on power distribution method[J]. Automation of electric power systems, 2012, 36(10): 7-13.
[62]王成福, 梁军, 张利, 等. 基于静止同步补偿器的风电场无功电压控制策略[J]. 中国电机工程学报, 2010, 30(25): 23-28. WANG Chengfu, LIANG Jun, ZHANG Li, et al.Reactive power and voltage control strategy for wind farm based on STATCOM[J]. Proceedings of the CSEE, 2010, 30(25): 23-28.
[63]JAUCH C, CRONIN T, SORENSEN P, et al. A fuzzy logic pitch angle controller for power system stabilization[J]. Wind Energy, 2007, 10(1): 19-30.
[64]YANG L, YANG G Y, XU Z, et al. Optimal controller design of a doubly-fed induction generator wind turbine system for small signal stability enhancement[J]. IET Generation, Transmission and Distribution, 2010, 4(5): 579-597.
[65]WU F, ZHANG X P, GODFREY K, et al. Small signal stability analysis and optimal control of a wind turbine with doubly fed induction generator [J]. IET Generation, Transmission and Distribution, 2007, 1(5): 751-760.
[66]KASSEM A M, HASANEEN K M, YOUSEF A M. Dynamic modeling and robust power control of DFIG driven by wind turbine at infinite grid [J]. International Journal of Electrical Power & Energy Systems, 2013, 44(1): 375-382.
[67]李国庆,马建功,裴建楠.基于拉丁超立方采样的含风电小干扰稳定概率分析[J].黑龙江电力,2015, 37(1):5-9. LI Guoqing, MA Jiangong, PEI Jiannan.Probabilistic analysis of small signal stability with wind power based on Latin Hypercube sampling[J]. Heilongjiang Electric Power, 2015, 37(1):5-9.
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