Study on the Aging Factors and Mechanisms for HTV in Composite Insulators in Hot and Humid Environments

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE) Pub Date : 2020-09-06 DOI:10.1109/ICHVE49031.2020.9279550

Fang Su, Xiao-yan Wei, Zhang Fuzeng, Wei Xiaoxing, Chu Jinwei, W. Tingting, Xu Yongsheng

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引用次数: 1

Abstract

Operating in hot and humid regions, composite insulators are subject to high temperature and high humidity for extended time, which accelerates the aging of silicone rubber. In this paper, for the purpose of exploring the influence of temperature and humidity on the aging of composite insulators, thermal oxidation, water soaking and boiling conditions were designed for simulating a high-temperature environment, a high-humidity environment and a hot and humid environment. It is found that high temperature will promote the aging of composite insulators, mainly manifested by the formation of silicone rubber inorganics and the decomposition of ATH. A high humidity environment contributes to water infiltration, filler precipitation and crack formation. When high humidity is combined with high temperature, significant loss of small molecules happened and the invasion of water is promoted, which facilitates the precipitation of fillers to form a fluffy powder layer.

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湿热环境下复合绝缘子HTV老化因素及机理研究

复合绝缘子在湿热地区工作，长时间处于高温高湿环境下，加速硅橡胶老化。本文为探讨温度和湿度对复合绝缘子老化的影响，设计了热氧化、水浸泡和沸腾条件，分别模拟高温环境、高湿环境和湿热环境。研究发现高温会促进复合绝缘子的老化，主要表现为硅橡胶无机物的形成和ATH的分解。高湿环境有利于水分入渗、填料沉淀和裂缝形成。当高湿与高温结合时，小分子大量流失，促进水的侵入，有利于填料的沉淀，形成蓬松的粉末层。

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

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

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