Analysis of a back flashover across insulator strings on a 115 kV transmission line tower by PSCAD

Worakit Anekthanasuwan, Pongsit Jumrain, Tanoot Junpradit, N. Petcharaks
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引用次数: 3

Abstract

Lightning striking on a transmission tower induces high ground potential rise and high voltage at tower arms in which potential is normally at ground level, and subsequently causes overvoltage across an insulator string. If this overvoltage is higher than the withstanding voltage of the insulator string according to the v-t (voltage-time) curve, back flashover phenomena will occur and this event may cause outage. The main objective of this paper is to study the factors influencing the back flashover phenomena. The computer program PSCAD/EMTDC (Power System Computer Aided Design/Electromagnetic Transients including DC) is used to simulate lightning striking on a transmission tower 115kV. Lightning current, transmission towers, ground resistance, insulator strings and back flashover phenomena are modeled. Main simulations are lightning striking on different towers, different soil resistivity, different lightning current magnitudes and wave shapes, different locations, and different phase angles of source voltage. Simulation results show that the higher tower encounters higher induced voltage. A back flashover occurs at the top tower arm easier than at the middle and lower arms. The higher soil resistivity induces higher voltage. The larger lightning current magnitude impacts on higher induced voltage. The longer rise time of lightning current generates lower induced voltage. Lightning strikes directly on tower generate higher voltage than that of striking on overhead ground wires.
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用PSCAD分析115 kV输电线路塔架绝缘子串反闪络
雷击在输电塔上引起地面电位升高和杆塔臂上的高压,而杆塔臂上的电位通常处于地面水平,随后导致绝缘子串上的过电压。如果该过电压高于v-t(电压-时间)曲线上绝缘子串的承受电压,则会产生反闪络现象,可能造成停电。本文的主要目的是研究影响反闪络现象的因素。计算机程序PSCAD/EMTDC(电力系统计算机辅助设计/包括直流在内的电磁瞬变)用于模拟115kV输电塔的雷击。对雷电电流、输电塔、接地电阻、绝缘子串和反闪络现象进行了建模。主要模拟了不同的雷击塔、不同的土壤电阻率、不同的雷击电流大小和波形、不同的位置、不同的源电压相角。仿真结果表明,塔越高,感应电压越高。塔顶臂较中下臂容易发生反闪络。土壤电阻率越高,电压越高。雷电电流大小越大,感应电压越高。雷击电流上升时间越长,感应电压越低。雷击在塔上产生的电压要高于雷击在架空地线上产生的电压。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Engineering and Applied Science Research
Engineering and Applied Science Research Engineering-Engineering (all)
CiteScore
2.10
自引率
0.00%
发文量
2
审稿时长
11 weeks
期刊介绍: Publication of the journal started in 1974. Its original name was “KKU Engineering Journal”. English and Thai manuscripts were accepted. The journal was originally aimed at publishing research that was conducted and implemented in the northeast of Thailand. It is regarded a national journal and has been indexed in the Thai-journal Citation Index (TCI) database since 2004. The journal now accepts only English language manuscripts and became open-access in 2015 to attract more international readers. It was renamed Engineering and Applied Science Research in 2017. The editorial team agreed to publish more international papers, therefore, the new journal title is more appropriate. The journal focuses on research in the field of engineering that not only presents highly original ideas and advanced technology, but also are practical applications of appropriate technology.
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