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电工技术学报 2015

混合凇对分裂导线起晕电压影响

, PP. 258-267

张满,蒋兴良,舒立春,胡建林,陈吉,郭裕钧

Keywords: 分裂导线,混合凇覆冰,电晕起始特性,电导率,紫外成像

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Abstract:

我国冬季混合凇冰灾频繁并严重影响输电线路安全运行;覆冰后的导线表面电场发生严重畸变,进而影响导线起晕电压;目前国内外针对导线电晕起始特性进行了大量研究,但大多采用缩比模型来研究实际分裂导线,且尚未深入分析混合凇对导线起晕电压的影响规律;故本文在低温低气压试验室内完成了对同直径的单、双和三分裂导线混合凇覆冰后的交流电晕试验,利用紫外成像仪及曲线拟合法对导线覆冰后的电晕特性进行测量分析,并建立有限元模型进行电场分析以弥补混合凇电晕研究的空缺。结果表明混合凇会降低导线电晕起始电压至未覆冰时的60%以下;随着覆冰程度的增加,导线起晕电压继续跌落,但跌落速度减慢;相同覆冰时间内,分裂数越多的导线起晕电压越高,混合凇对导线表面的场强畸变越小;不同覆冰水电导率对混合凇覆冰形态及导线起晕电压没有明显的影响。本文所得结论可为混合凇地区的输电线路设计及导线起晕电压计算提供理论依据。

References

[1]	杨永全. 近年电网冰灾事故分析及抗防对策[J]. 电力建设, 2008, 29(9): 35-37. Yang Yongquan. Analysis of recent icing-caused grid accidents and its countermeasures[J]. Electric Power Construction, 2008, 29(9): 35-37.
[2]	曾晓毅, 刘军伟, 黄燕. 特高压交流输电意义分析[J]. 工程技术与产业经济, 2009, 8(2): 21-22. Zeng Xiaoyi, Liu Junwei, Huang Yan. Analysis of UHV AC transmission significance[J]. Science & Technology Association Forum, 2009, 8(2): 21-22.
[3]	陈勇, 万启发, 霍锋, 等. 1000 kV 交流输电线路导线的电晕特性[J]. 高电压技术, 2007, 33(11): 43-45. Chen Yong, Wang Qifa, Huo Feng, et al. Corona characteristics of conductors for 1 000kV AC trans- mission lines[J]. High Voltage Engineering, 2007, 33(11): 43-45.
[4]	蒋兴良, 杜珍, 莫文强, 等. 重庆地区输电线路导线覆冰特性[J]. 高电压技术, 2011, 37(12), 3065- 3069. Jiang Xingliang, Du Zhen, Mo Wenqiang, et al. Icing features of wire in chongqing region[J]. High Voltage Engineering, 2011, 37(12), 3065-3069.
[5]	王秀玲, 杨嘉祥, 孙永鑫, 等. 架空线混合凇形成机理的数值解析[J]. 华东电力, 2008, 36(12): 26-29. Wang Xiuling, Yang Jiaxiang, Sun Yongxin, et al. Numerical simulations for formation mechanism of mixed-phase ice on overhead lines[J]. East China Electric Power, 2008, 36(12), 26-29.
[6]	Ndiaye I, Fofana I, Farzaneh M. Contribution to the study of the appearance and development of corona discharges on a surface of ice[C]. Canadian Conference on Electrical and Computer Engineering, 2003, 1: 639-642.
[7]	Liu Yong, Du B X. Recurrent plot analysis of leakage current on flashover performance of rime-iced composite insulator[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2010(s): 465-472.
[8]	刘振亚. 特高压电网[M] . 北京: 中国经济出版社, 2005.
[9]	刘文勋, 赵全江, 张瑚, 等. 1000kV特高压交流输电线路电晕损耗估算方法[J]. 电力建设, 2011, 32(10): 27-29. Liu Wenxun, Zhao Quanjiang, Zhang Hu, et al. Study on the corona loss estimate under the 1 000kV UHVAC transmission line[J]. Electric Power Cons- truction, 2011, 32(10): 27-29.
[10]	Lu Tiebing, Xiong Gaolin, Cui Xiang, et al. Analysis of corona onset electric field considering the effect of space charges[J]. IEEE Transactions on Magnetics, 2011(s): 1390-1393.
[11]	陈健渝, 超高压输电线路的电磁辐射影响综述[J]. 电力环境保护, 1994, 14(4): 30-37. Chen Jianyu. Influence of electromagnetic radiation on the EHV transmission line[J]. Electric Power Enviromental Protection, 1994, 14(4): 30-37.
[12]	Sarma M P, Janischewskyj W. Electrostatic field of a system of parallel cylindrical conductors[J]. IEEE Transactions on Power Apparatus and Systems, 1969, 88(7): 1069-1079.
[13]	刘有为, 李继红, 李斌. 空气密度和湿度对导线电晕特性的影响[J]. 电网技术, 1990, 14(4): 46-50. Liu Youwei, Li Jihong, Li Bin. Influence of air density and humidity on the corona performance of conductor [J]. Power System Technology, 1990, 14(4): 46-50.
[14]	Li Z X, Fan J B, Yin Y, et al. Numerical calculation of the negative onset corona voltage of high-voltage direct current bare overhead transmission condu- ctors[J]. Generation, Transmission & Distribution, IET. 2010(s): 1009-1015.
[15]	Ren Leijian, Liu Yunpeng, Lu jie, et al. Research on method to get corona inception electric-field intensity based on small corona cage[C]. 2009 Asia-Pacific Power and Energy Engineering Conference(APPEEC), 2009: 1-4.
[16]	Bian X M, Chen L, Yu D M, et al. Surface roughness effects on the corona discharge intensity of long-term operating conductors[J]. Applied Physics Letters, 2012, 101(17): 174103-174103-4.
[17]	Gildas H. Theoretical evaluation of Peek’s law[J]. IEEE Transactions. on Industry Applications, 1984, 20(6): 1647-1651.
[18]	聂国一. 海拔高度对超高压送电线路导线截面选择的影响[J]. 电力建设, 1994, 15(3): 18-23. Nie Guoyi. The influence of altitude on choosing insulation of EHV transmission line[J]. Electric Power Construction, 1994, 15(3): 18-13.
[19]	舒立春, 李特, 蒋兴良, 等. 交流电场强度对导线雾凇覆冰特性的影响[J]. 中国电机工程学报, 2012, 32(19): 140-147. Shu Lichun, Li Te, Jiang Xingliang, et al. Influences of AC electric field strength on conductor rime icing performance[J]. Proceedings of the CSEE, 2012, 32(19): 140-147.
[20]	马斌, 周文俊, 汪涛, 等. 基于紫外成像技术的极不均匀电场电晕放电[J]. 高电压技术, 2006, 32(7): 13-16. Ma Bin, Zhou Wenjun, Wang Tao, et al. Corona discharge of the severe non-uniform electric field based on the UV-light imaging technology[J]. High Voltage Engineering, 2006, 32(7): 13-16.
[21]	梁昆淼. 数学物理方法[M]. 3版. 北京: 高等教育出版社, 1998.
[22]	蒋兴良, 易辉. 输电线路覆冰及防护[M]. 北京: 中国电力出版社, 2001.
[23]	胡毅, 胡建勋, 刘庭. 我国南方地区电网大范围覆冰灾害的特点分析与防治措施[J]. 电力设备, 2008, 9(6): 1-4. Hu Yi, Hu Jianxun, Liu Ting. Analysis and counter- measures for large area icing accident on power grid in northern china[J]. Electrical Equipment, 2008, 9(6): 1-4.

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