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| Analysis on Commutation Failures in Shandong Multi-Infeed HVDC System |
| Li Gang1, Li Shipeng2, Ji Xiaojie3 |
1. Liaocheng Power Supply Company, Liaocheng, Shandong 252000;
2. Shandong Electric Power Engineering Consulting Institute CORP, Ltd, Ji’nan 250061;
3. Juancheng Power Supply Company, Juancheng, Shandong 274600 |
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Abstract Based on the winter peak load operation mode data in one year, in PSASP, dynamic equivalence of Shandong power grid is made according to the research question. In PSCAD/EMTDC, the model of Shandong AC/DC hybrid power system including ±660kV Yindong HVDC project and ±800kV Humeng UHVDC project is made. In the model established, the response characteristics of HVDC system are simulated and analyzed under faults at AC side. And then the response characteristics is simulated and analyzed after the installation of SVC devices on converter bus. Research results show that most of the 500kV line faults in Shandong power grid will cause at least one HVDC project commutation failure and part of them will cause both of the two HVDC projects commutation failure. Equipped with a certain amount of reactive power compensation device in converter bus of inverter side can effectively inhibit the occurrence of commutation failure.
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Published: 26 February 2016
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| Cite this article: |
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Li Gang,Li Shipeng,Ji Xiaojie. Analysis on Commutation Failures in Shandong Multi-Infeed HVDC System[J]. Electrical Engineering, 2016, 17(2): 36-41.
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| URL: |
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http://dqjs.cesmedia.cn/EN/Y2016/V17/I2/36
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[1] 邵瑶, 汤涌. 多馈入交直流混合电力系统研究综述[J]. 电网技术, 2009, 33(17): 24-30.
[2] 林凌雪, 张尧, 钟庆, 等. 多馈入直流输电系统中换相失败研究综述[J]. 电网技术, 2006, 30(17): 40-46.
[3] 浙江大学发电教研组直流输电科研组. 直流输电[M]. 北京: 电力工业出版社, 1982.
[4] 荆勇, 欧开健, 任震. 交流单相故障对高压直流输电换相失败的影响[J]. 高电压技术, 2004, 30(3): 60-62.
[5] 于光涛, 李刚, 侯昆明, 等. ±660kV银东直流输电系统逆变站换相失败分析[J]. 电力与能源, 2014, 35(3): 305-310.
[6] 郝跃东, 倪汝冰. HVDC换相失败影响因素分析[J]. 高电压技术, 2006, 32(9): 38-41.
[7] 刘建, 李兴源, 傅孝韬, 等. 多馈入短路比及多馈入交互作用因子与换相失败的关系[J]. 电网技术, 2009, 33(12): 20-25.
[8] Paulo F T, Jiuping P, Kailash S, et al. Case study of a multi-infeed HVDC system[C]. Power System Techno- logy and IEEE Power India Conference, 2008.
[9] 邵瑶, 汤涌. 采用多馈入交互作用因子判断高压直流系统换相失败的方法[J]. 中国电机工程学报, 2012, 32(4): 108-114.
[10] 金小明, 周保荣, 管霖, 等. 多馈入直流交互影响强度的评估指标[J]. 电力系统自动化, 2009, 33(15): 98-102.
[11] 戚庆茹, 焦连伟, 严正, 等. 高压直流输电动态相量建模与仿真[J]. 中国电机工程学报, 2003, 23(12): 28-32.
[12] 许烽, 翁华, 徐政, 等. 基于PSCAD/EMTDC的大规模交直流系统快速建模及有效性分析[J]. 高电压技术, 2013, 39(11): 2762-2772.
[13] 徐政, 杨靖萍, 段慧. 一种适用于电磁暂态仿真的等值简约方法[J]. 南方电网技术, 2007, 1(1): 37-40.
[14] 杨福, 梁军, 牛庆达. 一种适用于交直流互联系统电磁暂态仿真的动态等效方法[J]. 电力系统保护与控制, 2012, 40(16): 70-76.
[15] 王晶芳, 王智冬, 李新年, 等. 含特高压直流的多馈入交直流系统动态特性仿真[J]. 电力系统自动化, 2007, 31(11): 97-102.
[16] 周长春, 徐政. 联于弱交流系统的HVDC故障恢复特性仿真分析[J]. 电网技术, 2003, 27(11): 18-21.
[17] 邵瑶, 汤涌, 郭小江, 等. 2015年特高压规划电网华北和华东地区多馈入直流输电系统的换相失败分析[J]. 电网技术, 2011, 35(10): 9-15.
[18] 杨秀, 陈鸿煜, 靳希. 高压直流输电系统动态恢复特性的仿真研究[J]. 高电压技术, 2006, 32(9): 11-14.
[19] 谢惠藩, 张尧, 夏成军, 等. SVC对特高压紧急直流功率支援的影响[J]. 电力自动化设备, 2009, 29(1): 6-10.
[20] 熊红德, 钟庆, 杨煜, 等. 特高压直流输电换流站SVC与滤波器投切协调控制仿真分析[J]. 电力系统保护与控制, 2012, 40(10): 144-148. |
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2016, Vol. 17 
