A simulation method for winter pollution contamination of HV insulators

2011 Electrical Insulation Conference (EIC). Pub Date : 2011-06-05 DOI:10.1109/EIC.2011.5996181

N. Ravelomanantsoa, M. Farzaneh, W. Chisholm

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引用次数: 15

Abstract

This paper presents a novel method to improve simulation of the road salt deposit process on energized high voltage insulators under winter conditions. A pollution generator system prototype was especially designed to produce an external mixing of dry solid contaminants (kaolin powder) with supercooled atomized brine droplets. The formed pollutant particles are transported by air flow, which is produced by a speed variable fan, and then settle on the energized specimen insulator surface which is installed at a specific distance of the pollution generator nozzle. The pollution accumulation process took place inside a climate chamber at −5°C. At the end of each ten-minute exposure, specimen insulators were removed for ESDD measurement according to the IEC 60815 standard. No pre-treatment of the insulator surface is needed and contrary to most of the other contamination methods, it enables study of the rate of increase of ESDD with wind speed and insulator profile under winter conditions. The combined effect of wind speed and dielectrophoretic force was also investigated using a 45-kV ac variable voltage source.

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高压绝缘子冬季污染模拟方法研究

提出了一种改进冬季带电高压绝缘子路面积盐过程模拟的新方法。污染产生系统原型是专门设计的，用于产生干燥固体污染物(高岭土粉末)与过冷雾化盐水液滴的外部混合。形成的污染物颗粒由变速风机产生的气流输送，然后落在安装在污染发生器喷嘴特定距离处的带电试样绝缘子表面。污染积累过程发生在−5°C的气候室内。在每10分钟的暴露结束时，根据IEC 60815标准取出样品绝缘体进行ESDD测量。不需要对绝缘子表面进行预处理，与大多数其他污染方法相反，它可以研究冬季条件下ESDD随风速和绝缘子剖面的增长速率。采用45kv交流变电压源，研究了风速和介电力的联合效应。

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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2011 Electrical Insulation Conference (EIC).

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