| [1]VAN HERTEM D, GHANDHARI M. Multi-terminal VSC HVDC for the European Supergrid[J]. Renewable and Sustainable Energy Reviews, 2010, 14(9):3156-3163.
[2]黄仁乐,程林,李洪涛.交直流混合主动配电网关键技术研究[J].电力建设,2015,36(1):46-51.
HUANG Renle, CHENG Lin, LI Hongtao. Research on key technology of AC/DC hybrid active distribution network[J]. Electric Power Constructure,2015,36(1):46-51.
[3]黄华. 柔性直流输电在城市电网中应用的可行性[J].电气技术,2011(8):29-32.
HUANG hua. The application of VSC-HVDC in urban power grid [J]. Electrical Engineering,2011(8):29-32.
[4]曾嘉思,徐习东,赵宇明. 交直流配电网可靠性对比[J].电网技术,2014,38(9):2582-2589.
ZENG Jiasi, XU Xidong, ZHAO Yuming. Reliability comparision of AC and DC distribution network[J]. Power System Technology,2014,38(9):2582-2589.
[5]马为民,吴芳劼,杨一鸣,等.柔性直流输电技术的现状及应用前景分析[J].高电压技术,2014,40(8):2429-2439.
MA Weimin, WU Fangjie, YANG Yiming, et al. Flexible HVDC transmission technology’s today and tomorrow [J].High Voltage Engineering,2014,40(8):2429-2439.
[6]汤广福,罗湘,魏晓光. 多端直流输电与直流电网技术[J].中国电机工程学报,2013,33(10):8-17.
TANG Guangfu, LUO Xiang, WEI Xiaoguang. Multi-terminal HVDC and DC-grid technology[J]. Proceeding of the CSEE,2013,33(10):8-17.
[7]丁明,李小燕,毕锐,等. 含VSC-HVDC的交直流混合发输电系统可靠性评估[J].电网技术,2008,32(16):53-58.
DING Ming, LI Xiaoyan, BI Rui, et al. Reliability assessment of Hybrid AC/DC power system containing VSC-HVDC[J]. Power System Technology,2008,32(16):53-58.
[8]丁明,王京景,宋倩.基于k/n(G)模型的柔性直流输电系统换流阀可靠性建模与冗余性分析[J],电网技术,2008,32(21):32-36,41.
DING Ming,WANG Jingjing,SONG Qian. Reliability modeling and redundancy analysis of converter values for VSC-HVDC power transmission system based on k-out-of-n: G model [J], Power System Technology,2008,32(21):32-36,41.
[9]丁明,毕锐,王京景.基于FD法和模型组合的柔性直流输电可靠性评估[J].电力系统保护与控制,2008,36(21):33-37.
DING Ming, BI Rui, WANG Jingjing. FD method and combined model for reliability assessment of HVDC flexible[J]. Power System Protection and Control,2008,36(21):33-37.
[10]孙宇斌,刘文霞,裘剑明,等.计及备用元件的柔性直流输电系统可靠性评估方法[J].现代电力,2013,30(1):8-12.
SUN Yubin, LIU Wenxia, QIU Jianming, et al. The reliability evaluation method for VSC-HVDC system by considering of standby components[J]. Modern Electric Power,2013,30(1):8-12.
[11]任震,黄雯莹,冉立.高压直流输电可靠性评估[M].北京:中国电力出版社,1996: 44-60.
[12]GREINER C J, LANGELAND T, SOLVIK J. Reliability evaluation of multi-terminal DC networks with DC circuit breakers[C]//IEEE Trondheim Power Tech. Trondheim,Norway:IEEE,2011: 1-8.
[13]XIE Kaigui, CAO Kan, YU D C. Reliability evaluation of electrical distribution network containing multiple overhead feeders on a same tower[J]. IEEE Transactions on Power Systems,2011,26(4):2518-2525.
[14]WANG Z, SHOKOOH F, QIU J. An efficient algorithm for assessing reliability indexes of general distribution systems[J]. IEEE Transactions on Power Systems, 2002, 17(3):608-614.
[15]程林,何剑.电力系统可靠性原理和应用[M].北京:清华大学出版社,2015:320-333.
[16]谢翔,袁越,李振杰.含微网的新型配电网供电可靠性分析[J].电力系统自动化,2011,35(9):67-72.
XIE Xiang, YUAN Yue, LI Zhenjie, Reliability analysis of a novel distribution network with microgrid[J]. Automation of Electric Power Systems, 2011,35(9):67-72.
[17]王守相,王成山.现代配电系统分析[M].北京:高等教育出版社,2014:193-196.
[18]GUO Jingli, WANG Xiuli, BIE Zhaohong, et al. Reliability modeling and evaluation of VSC-HVDC transmission systems[C]//PES General Meeting/Conference & Exposition. Washington, USA:IEEE, 2014.
[19]GUPTA N, SWARN A, NIAZI K R. A modified branch-exchange heuristic algorithm for large-scale distribution networks reconfiguration[C]//2012 Power and Energy Society General Meeting. San Diego, USA: IEEE, 2012. |
