OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

电网技术 2015

复合材料杆塔输电线路接地方式优化研究

DOI: 10.13335/j.1000-3673.pst.2015.09.037, PP. 2621-2626

雷梦飞,赵淳,苏杰,任华,王佩,张伟

Keywords: 复合材料杆塔,接地,雷击跳闸率,优化,技术经济性

Full-Text Cite this paper Add to My Lib

Abstract:

在运复合材料杆塔线路笼统采用逐基杆塔引下线接地的方式,增加投资费用,防雷性能裕度过大,而完全取消引下线又难以保障杆塔的安全运行,为此提出一种优化接地方式的方法。在计算杆塔耐雷水平和雷击跳闸率后,以雷击跳闸考核指标为参考依据,提出考虑杆塔地形环境、雷电活动等因素的接地方式配置实施流程,在保证技术性的前提下,提高经济性,确定合理的接地杆塔数量。对实际线路中的3个典型区段的配置结果表明,优化的方法较全线逐基接地分别减少使用1/2、2/3、1/3的接地引下线,同时满足考核指标,对工程应用具有较大的参考价值。

References

[1]	夏开全．复合材料在输电杆塔中的研究与应用[J]．高科技纤维与应用,2005,30(5)：19-23．Xia Kaiquan．Application of fiber reinforced polymer in overhead transmission pole and tower[J]．Hi-Tech Fiber & Application,2005,30(5)：19-23(in Chinese)．
[2]	唐波,迟兴江,姚磊．新型绝缘输电杆塔的发展及展望[J]．电力学报,2010,25(4)：325-327．Tang Bo,Chi Xingjiang,Yao Lei．Development and prospect new type electric power tower made in FRP[J]．Journal of Electric Power,2010,25(4)：325-327(in Chinese)．
[3]	Sarmento M,Lacoursiere B．A state of the art overview：composite utility poles for distribution and transmission applications//Transmission & Distribution Conference and Exposition：Latin America． Caracas,IEEE/PES,2006：1-4．
[4]	DL/T620—1997,交流电气装置的过电压保护和绝缘配合[S]．
[5]	陈维江,陈家宏,谷山强,等．中国电网雷电监测与防护亟待研究的关键技术[J]．高电压技术,2008,34(10)：2009-2015．Chen Weijiang,Chen Jiahong,Gu Shanqiang,et al．Key technologies of lightning detection and protection in China power grid[J]．High Voltage Engineering,2008,34(10)：2009-2015(in Chinese)．
[6]	陈家宏,冯万兴,王海涛,等．雷电参数统计方法[J]．高电压技术,2007,33(10)：6-10．Chen Jiahong,Feng Wanxing,Wang Haitao,et al．Statistical method of lightning parameters[J]．High Voltage Engineering,2007,33(10)：6-10(in Chinese)．
[7]	赵淳,雷梦飞,苏杰,等．基于ATP的110 kV复合材料杆塔防雷优化设计研究[J]．电气应用,2014,33(21)：85-88．Zhao Chun,Lei Mengfei,Su Jie,et al．Research on the optimum design of 110 kV composite material pole in lightning protection based on ATP[J]．Electrotechnical Application,2014,33(21)：85-88(in Chinese)．
[8]	李志军,陈维江,张彤,等．110 kV双回线路格构式复合材料杆塔电气结构设计[J]．电网技术,2015,39(2)：536-542．Li Zhijun,Chen Weijiang,Zhang Tong,et al．Electrical structure design of lattice composite material tower of 110 kV double circuit transmission line[J]．Power System Technology,2015,39(2)：536-542(in Chinese)．
[9]	张弓达,张宏宇,胡建勋．复合材料杆塔线路电场分析[J]．东北电力技术,2012(2)：41-42,52．Zhang Gongda,Zhang Hongyu,Hu Jianxun．Electric field analysis on composite material tower line[J]．Northeast Electric Power Technology,2012(2)：41-42,52(in Chinese)．
[10]	邓世聪,刘庭,李汉明．110 kV架空输电线路复合材料杆塔的材料、电气和机械特性试验[J]．南方电网技术,2011,5(3)：36-40．Deng Shicong,Liu Ting,Li Hanming．Material,electrical and mechanical characteristics tests of composite pole for 110 kV overhead transmission lines[J]．Southern Power System Technology,2011,5(3)：36-40(in Chinese)．
[11]	胡毅,刘庭,刘凯,等．110 kV输电线路复合材料杆塔特性试验研究[J]．高电压技术,2011,37(4)：801-808．Hu Yi,Liu Ting,Liu Kai,et al．Experimental research on performance of composite materials pole of 110 kV transmission line[J]．High Voltage Engineering,2011,37(4)：801-808 (in Chinese)．
[12]	Hintamai S,Hokierti J．Lightning surge response analysis of concrete pole using the electromagnetic field method[C]//Transmission and Distribution Conference and Exposition．Dallas,USA：IEEE/PES,2003,2：568-573．
[13]	谷山强,陈家宏,陈维江,等．输电线路防雷性能时空差异化评估方法[J]．高电压技术,2009,35(2)：294-298．Gu Shanqiang,Chen Jiahong,Chen Weijiang,et al．Evaluation method of the time-space-difference of lightning protection performance of transmission lines[J]．High Voltage Engineering,2009,35(2)：294-298(in Chinese)．
[14]	阮羚,谷山强,赵淳,等．鄂西三峡地区220 kV线路差异化防雷技术与策略[J]．高电压技术,2012,38(1)：157-166．Ruan Ling,Gu Shanqiang,Zhao Chun,et al．Technology and strategy of differentiated lightning protection for 220 kV transmission line in Three Gorges area of western Hubei[J]．High Voltage Engineering,2012,38(1)：157-166(in Chinese)．
[15]	赵淳,阮江军,李晓岚,等．输电线路综合防雷措施技术经济性评估[J]．高电压技术,2011,37(2)：290-297．Zhao Chun,Ruan Jiangjun,Li Xiaolan,et al．Technology and economy evaluation of comprehensive transmission line lightning protection measures[J]．High Voltage Engineering,2011,37(2)：290-297(in Chinese)．
[16]	曾嵘,何金良,陈水明．输电线路雷电防护技术研究(二)：分析方法[J]．高电压技术,2009,35(12)：2910-2916．Zeng Rong,He Jinliang,Chen Shuiming．Lightning protection study of transmission line,part Ⅱ：analysis methods[J]．High Voltage Engineering,2009,35(12)：2910-2916(in Chinese)．
[17]	张永记,司马文霞,张志劲,等．防雷分析中杆塔模型的研究现状[J]．高电压技术,2006,32(7)：93-97．Zhang Yongji,Sima Wenxia,Zhang Zhijin,et al．Summary of the study of tower models for lightning protection analysis[J]．High Voltage Engineering,2006,32(7)：93-97(in Chinese)．
[18]	Armstrong H R,Whitehead E R．A lightning stroke pathfinder[J]．IEEE Transactions on Power Apparatus and System,1964,83(12)：1223-1230．
[19]	Armstrong H R,Whitehead E R．Field and analytical studies of transmission line shielding[J]．IEEE Transactions on Power Apparatus and System,1968,87(1)：270-281．
[20]	李晓岚,尹小根,余仁山,等．基于改进电气几何模型的绕击跳闸率的计算[J]．高电压技术,2006,32(3)：42-44．Li Xiaolan,Yin Xiaogen,Yu Zhanshan,et al．Calculation of shielding failure flashover rate for transmission line based on revised EGM[J]．High Voltage Engineering,2006,32(3)：42-44(in Chinese)．

Full-Text

comments powered by Disqus

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133

WeChat 1538708413