Effect of Pollution Distribution Scenarioes on Flashover Characteristics on Outdoor Insulators

2020 IEEE Student Conference on Research and Development (SCOReD) Pub Date : 2020-09-27 DOI:10.1109/SCOReD50371.2020.9250959

A. Salem, R. Abd-Rahman, S. Al-Ameri, M. S. Kamarudin, N. Jamail, N. Hussin, Hidayat Zainuddin, D. Soomro, M. Mizad

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引用次数: 2

Abstract

Distribution of the contamination on insulators is often irregular, which threatens the reliability of outdoor insulation. This work aimed to study the influence of pollution distribution, humidity and dry band location with various scenarioes on flashover characteristic of insulators. Flashover tests of cup-pin glass polluted insulators were conducted. Findings indicated the difference between the flashover performances of insulators under different pollution distribution. The flashover characteristics like voltage and current are greatly affected by salt deposit density (SDD), distribution modes, and distribution area. The relation between U50 and SDD has positive power function with more contrast in distribution. Insulators with more regular distribution have lowest flashover voltage and highest critical leakage current. Different distribution modes lead to the change of the conductivity of the contamination layer and the uneven distribution of the current density, which is the main cause that the characteristics of pollution flashover are directly related to the pollution modes.

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污染分布场景对室外绝缘子闪络特性的影响

绝缘子上的污染分布往往是不规则的，威胁着室外绝缘的可靠性。本研究旨在研究污染分布、湿度和不同场景下干带位置对绝缘子闪络特性的影响。对杯销玻璃污染绝缘子进行了闪络试验。结果表明，不同污染分布下绝缘子的闪络性能存在差异。电压、电流等闪络特性受盐层密度、分布方式和分布区域的影响较大。U50与SDD呈正幂函数关系，在分布上有较大反差。绝缘子分布越规则，闪络电压越低，临界泄漏电流越高。不同的分布模式导致污染层电导率的变化和电流密度分布的不均匀，这是污染闪络特性与污染模式直接相关的主要原因。

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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2020 IEEE Student Conference on Research and Development (SCOReD)

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