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电网技术 2015

近海风电场接入城市电网规划原则

DOI: 10.13335/j.1000-3673.pst.2015.08.011, PP. 2135-2140

管霖,陈沛东,李峰,杨继旺

Keywords: 近海风电场,接入电网,电压波动,规划原则

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Abstract:

围绕近海风电场群接入电网的规划原则开展研究。系统总结了近海风电场接入电网的输电模式、并网电压等级、升压站无功补偿配置等规划方案选择问题。重点针对多个海上风电场接入同一区域电网时公共连接点(pointofcommoncoupling,PCC)点的选择问题进行了研究,通过理论模型分析了影响多个风电场接入后系统电压波动幅度的关键因素和电压波动的计算方法,并提出了PCC点选择的基本原则。通过珠海近海风电场群接入方案规划为实例,对比理论计算和数值仿真分析的结果,验证了所提测算方法的正确性。

References

[1]	Stolten D,Scherer V．Transition to renewable energy systems [M]．Wiley-VCH Verlag GmbH & Co.,2013．
[2]	陈惠粉,乔颖,闵勇,等．风电场动静态无功补偿协调控制策略[J]．电网技术,2013,37(1)：248-254．Chen Huifen,Qiao Ying,Min Yong,et al．Study on coordinated control strategy of dynamic and static reactive compensation in wind farm[J]．Power System Technology,2013,37(1)：248-254(in Chinese)．
[3]	迟永宁,刘燕华,王伟胜,等．风电接入对电力系统的影响[J]．电网技术,2007,31(3)：77-81．Chi Yongning,Liu Yanhua,Wang Weisheng,et al．Study on impact of wind power integration on power system[J]．Power System Technology,2007,31(3)：77-81(in Chinese)．
[4]	侯佑华,房大中,齐军,等．大规模风电入网的有功功率波动特性分析及发电计划仿真[J]．电网技术,2010,34(5)：60-66．Hou Youhua,Fang Dazhong,Qi Jun,et al．Analysis on active power fluctuation characteristics of large-scale grid-connected wind farm and generation scheduling simulation under different capacity power injected from wind farms into power grid[J]．Power System Technology,2010,34(5)：60-66(in Chinese)．
[5]	张丽英,叶廷路,辛耀中,等．大规模风电接入电网的相关问题及措施[J]．中国电机工程学报,2010,30(25)：1-9．Zhang Liying,Ye Tinglu,Xin Yaozhong,et al．Problems and measures of power grid accommodating large scale wind power[J]．Proceedings of the CSEE,2010,30(25)：1-9(in Chinese)．
[6]	刘巨,姚伟,文劲宇,等．大规模风电参与系统频率调整的技术展望[J]．电网技术,2014,38(3)：638-646Liu Ju,Yao Wei,Wen Jinyu,et al．Prospect of technology for large-scale wind farm participating into power grid frequency regulation [J]．Power System Technology,2014,38(3)：638-646(in Chinese)．
[7]	朱星阳,刘文霞,张建华．考虑大规模风电并网的电力系统随机潮流[J]．中国电机工程学报,2013,33(7)：77-85．Zhu Xingyang, Liu Wenxia, Zhang Jianhua． Probabilistic load flow method considering large-scale wind power integration[J]．Proceedings of the CSEE,2013,33(7)：77-85(in Chinese)．
[8]	张海峰,高峰,吴江,等．含风电的电力系统动态经济调度模型[J]．电网技术,2013,37(5)：1298-1303．Zhang Haifeng,Gao Feng,Wu Jiang,et al．A dynamic economic dispatching model for power grid containing wind power generation system[J]．Power System Technology,2013,37(5)：1298-1303(in Chinese)．
[9]	徐耀乾,康重庆,张宁,等．海上风电出力特性及其消纳问题探讨[J]．电力系统自动化,2011,35(22)：54-59．Xu Yaoqian,Kang Chongqing,Zhang Ning,et al．A discussion on off-shore wind power output characteristics and its accommodation[J]．Automation of Electric Power Systems,2011,35(22)：54-59(in Chinese)．
[10]	Breuer W,Christl L．大容量陆地和海上风电场的电网接入方案[J]．中国电力,2007,40(3)：74-78．Breuer W,Christl L．Grid access solutions for large scale on-/offshore wind park installations to the power grids[J]．Electric Power,2007,40(3)：74-78(in Chinese)．
[11]	王锡凡,王碧阳,王秀丽,等．面向低碳的海上风电系统优化规划研究[J]．电力系统自动化,2014,38(17)：4-13．Wang Xifan,Wang Biyang,Wang Xiuli,et al．Study of optimal planning methods for offshore wind power system oriented low-carbon13 ．Automation of Electric Power Systems,2014,38(17)：4-13(in Chinese)．
[12]	赵健康,陈铮铮．国外跨海输电工程综述[C]//苏州：2010电力电缆状态检修技术交流会议,2010．
[13]	王锡凡,卫晓辉,宁联辉,等．海上风电并网与输送方案比较[J]．中国电机工程学报,2014,34(31)：5459-5466．Wang Xifan,Wei Xiaohui,Ning Lianhui,et al．Integration techniques and transmission schemes for off-shore wind farms[J]．Proceedings of the CSEE,2014,34(31)：5459-5466(in Chinese)．
[14]	GB/T 19963—2011,风电场接入电力系统技术规定[S]．北京：中国电力出版社,2012．
[15]	Mabel M C,Raj R E,Fernandez E．Analysis on reliability aspects of wind power[J]．Renewable and Sustainable Energy Reviews,2011,15(2)：1210-1216．

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