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35kV配电线路绝缘子串与多断点灭弧防雷间隙雷电冲击绝缘配合研究
引用本文:孟伟航,王巨丰,黄上师,李籽剑. 35kV配电线路绝缘子串与多断点灭弧防雷间隙雷电冲击绝缘配合研究[J]. 电测与仪表, 2022, 59(5): 109-115. DOI: 10.19753/j.issn1001-1390.2022.05.014
作者姓名:孟伟航  王巨丰  黄上师  李籽剑
作者单位:广西大学电气工程学院,南宁530004
基金项目:国家自然科学基金资助项目(51467002);
摘    要:多断点灭弧防雷间隙能有效降低35 kV配电线路雷击跳闸率,但目前暂无对多断点灭弧防雷间隙和绝缘子的雷电冲击绝缘配合的研究。因此,对35 kV玻璃、复合绝缘子串及不同间隙距离的多断点灭弧防雷间隙进行雷电冲击特性和伏秒特性的实验研究。实验结果表明:多断点灭弧防雷间隙能够在雷击后有效保护绝缘子;有效相同间隙距离下,多断点灭弧防雷间隙的绝缘水平要高于并联间隙;通过实验给出多断点灭弧防雷间隙的有效保护距离。此结论可为安装多断点灭弧防雷间隙的工程提供参考。

关 键 词:绝缘子串  灭弧间隙  雷电冲击  伏秒特性  绝缘配合
收稿时间:2020-01-03
修稿时间:2020-01-03

Lighting Insulating Co-ordination Between Insulator String and Multiple-break Arc-extinguishing Lighting Protection Gap of 35 kV Transmission Line
mengweihang,Wang Jufeng,Huang Shangshi and Li Zijian. Lighting Insulating Co-ordination Between Insulator String and Multiple-break Arc-extinguishing Lighting Protection Gap of 35 kV Transmission Line[J]. Electrical Measurement & Instrumentation, 2022, 59(5): 109-115. DOI: 10.19753/j.issn1001-1390.2022.05.014
Authors:mengweihang  Wang Jufeng  Huang Shangshi  Li Zijian
Affiliation:Guangxi University,Guangxi University,Guangxi University,Guangxi University
Abstract:The simulation results show that multiple-break arc-extinguishing lightning protection gap can effectively reduce the lightning tripping rate of 35 kV transmission lines, but there are few studies on lighting insulating co-ordination between insulator string and multiple-break arc-extinguishing lighting protection gap of 35 kV transmission line. Therefore, the lightning impulse characteristics and voltage-time characteristics of a 35 kV glass insulator string, a 35 kV composite insulator string and their multiple-break arc-extinguishing lighting protection gap with different clearance distances were experimentally studied. The experimental results show that multiple-break arc-extinguishing lightning protection gap can effectively protect insulator after lightning stroke; the insulation level of the multiple-break arc-extinguishing lightning protection gap is higher than that of the parallel gap devices at the same gap distance; the effective gap distance of multiple-break arc-extinguishing lightning protection gap is given by experiment This conclusion can provide reference for the engineering of installing multiple-break arc-extinguishing lightning protection gap.
Keywords:insulator string   arc-extinguishing gap   lightning impulse   voltage-time characteristics   insulating co-ordination
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