棒-板短空气间隙淋雨交流放电特性及电压校正

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摘要

国内的运行经验和研究表明, 强降雨条件下输电线路绝缘性能会有一定程度的降低, 而实际工程在对外绝缘进行设计时很少考虑降雨的影响;同时, 在目前的IEC标准中, 对降雨条件下空气间隙放电电压的校正也没有做出相关规定。为此, 选择0.2～0.6m的棒-板空气间隙, 在人工气候室和雪峰山自然试验站分别进行了模拟和自然条件下的淋雨交流放电试验, 分析了淋雨强度对棒-板间隙交流放电电压的影响, 提出了淋雨条件下棒-板空气间隙交流放电电压的校正公式并进行了验证。结果表明:棒-板空气间隙交流击穿电压将随淋雨强度的增加而降低, 最大降低幅度为10.32%;根据试验数据提出的校正方法不仅适用于0.2～0.6m的间隙, 而且还适用于0.7m的空气间隙。

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	蒋兴良
	袁耀
	杜勇
	马建国
	毕茂强

关键词 ：淋雨强度, 空气间隙, 击穿电压, 校正

Abstract：

According to the operation experience and investigation in China, the insulation performance of transmission line will be decreased due to the strong rain effect, which has not been concerned in the external insulation design. Meanwhile, there is no correction method concerning the discharge voltage of air gap under rain conditions in the IEC standards. Therefore, a series of experimental tests in the artificial climate chamber and Xuefeng Mountain Natural Site were conducted with the use of rod-plane air gap to analyze the relationship between the AC discharge voltage and the rain intensity. According to the test results, the correction formula of AC discharge voltage of rod-plane air gap under rain condition is proposed and verified by experimental results. It is shown that: with the increase of rain intensity, the discharge voltage of air gap will decrease and the maximum decreased percentage is 10.32%; the corrected method is applied not only to the distance of 0.2～0.6 meters but also to the distance of 0.7 meter.

Key words： Rain intensity air gap discharge voltage correction

收稿日期: 2011-11-08 出版日期: 2014-03-20

PACS:

TM852

基金资助:

国家重点基础研究计划(973计划)资助项目(2009CB724501/502)。

作者简介: 蒋兴良男, 1961年生, 教授, 博士生导师, 从事高电压与绝缘技术、输电线路覆冰及防护研究工作。袁耀男, 1987年生, 博士研究生, 主要从事复杂环境中输电线路外绝缘研究。

引用本文:

蒋兴良, 袁耀, 杜勇, 马建国, 毕茂强. 棒-板短空气间隙淋雨交流放电特性及电压校正[J]. 电工技术学报, 2012, 27(12): 36-42. Jiang Xingliang, Yuan Yao, Du Yong, Ma Jianguo, Bi Maoqiang. AC Discharge Characteristic and Voltage Correction of Rod-Plane Short Air Gap Under Rain Conditions. Transactions of China Electrotechnical Society, 2012, 27(12): 36-42.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2012/V27/I12/36

[1] 胡毅. 输电线路运行故障的分析与防治[J]. 高电压技术, 2007, 33(3): 1-8.

Hu Yi. Analysis on operation faults of transmission line and counter measures[J]. High Voltage Engineering, 2007, 33(3): 1-8.

[2] Rizk F A M. Electrical resistance of an insulating surface under artificial rain [J]. Proceedings of the IEE, 1974, 121(3): 154-160.

[3] Rizk FA M. Influence of rain on switching impulse sparkover voltage of large-electrode air gaps[J]. IEEE Transactions on Power Apparatus and System, 1976, 95(4): 1394-1402.

[4] Yoshibumi Yamagata, Akio Oe, Kunihiko Miyake, et al. Phase-to-ground and phase-to-phase sparkover characteristics of external insulation at the entrance of a UHV substation[J]. IEEE Transactions on Power Delivery, 2002, 17(1): 223-232.

[5] 胡毅, 王力农, 邵瑰玮, 等. 风雨对导线-杆塔空气间隙工频放电特性的影响[J]. 高电压技术, 2008, . 34(5): 845-850.

Hu Yi, Wang Linong, Shao Guiwei, et al. Influence of rain and wind on power frequency discharge characteristic of conductor-to-tower air gap[J]. High Voltage Engineering, 2008, 34(5):845-850.

[6] 蒋兴良, 刘伟, 奚思建, 等. 降雨对“棒-板”短空气间隙正极性直流放电特性的影响[J]. 高电压技术, 2011, 37(2): 261-267.

Jiang Xingliang, Liu Wei, Xi Sijiang, et al. Influence of rain on positive DC discharge characteristic of rod-plane short air gap[J]. High Voltage Engineering [J]. 2011, 37(2): 261-267.

[7] 中华人民共和国电力行业标准 GB/T 16927.1—1997(eqv IEC60—1—1989), 高电压实验技术—第一部分:一般实验要求[S].

[8] 中华人民共和国电力行业标准 DL/T 620—1997, 交流电气装置的过电压保护和绝缘配合[S].

[9] 孙利朋. 棒-板空气间隙淋雨操作冲击放电特性的研究[D]. 重庆: 重庆大学, 2008.

[10] Ziomek W, Kuffel E. Activity of moving metallic particles in prebreakdown state in gas[J]. IEEE Transactions. Dielectr. Electr. Insul.1997, 4(1): 39-43.

[11] TB1849—1987. 隧道内接触网绝缘间隙(Insulation gaps of tunnel touch net)[S]. 中华人民共和国铁道部部标准.