Dry band formation on HV insulators polluted with different salt mixtures

M. M. Hussain, S. Farokhi, S. McMeekin, M. Farzaneh
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引用次数: 13

Abstract

Pollution flashover on high voltage insulators is a major problem for power transmission lines. It is a very complex issue due to many factors i.e. modelling and design difficulties, unknown environmental stress, non-uniform distribution of pollution on insulator surface and different pollution levels in different regions. The deposition of pollution layers on high-voltage (HV) insulator surface is the first stage of pollution flashover. The aim of this paper is to investigate the influence of dry band formation and its characteristics on HV insulators with different salt mixtures and variable pollution layer thickness. The non-uniformity of the contaminant distribution, wetting and drying process leads to the development and formation of multiple dry bands on the insulator surface. From the test results it is clear that the dry band formation is not uniform with different salt mixtures. COMSOL Multiphysics™ has been used to simulate an insulator surface to find the variation of dry band formation with applied voltage. In particular, this paper aims to obtain a better reproduction method of pollution layers deposited on insulators which is very important to improve the reliability of HV insulators installed near coastal regions.
不同盐混合物污染的高压绝缘子的干带形成
高压绝缘子污闪是输电线路的主要问题。由于建模和设计困难、未知的环境应力、绝缘子表面污染分布不均匀、不同地区污染程度不同等因素,这是一个非常复杂的问题。污层在高压绝缘子表面的沉积是污闪的第一阶段。本文的目的是研究不同盐混合物和不同污染层厚度对高压绝缘子干带形成及其特性的影响。污染物分布和干湿过程的不均匀性导致绝缘子表面形成多个干带。从试验结果可以清楚地看出,在不同的盐混合物中,干带的形成是不均匀的。COMSOL Multiphysics™已被用于模拟绝缘体表面,以发现干带形成随外加电压的变化。特别是,本文旨在获得绝缘子上沉积污染层的较好再现方法,这对提高沿海地区高压绝缘子的可靠性具有重要意义。
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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