Stability Predictions of Zinc Oxide Surge Arrester by Employing Finite Element Solutions

2019 International Conference on High Voltage Engineering and Technology (ICHVET) Pub Date : 2019-02-01 DOI:10.1109/ICHVET.2019.8724129

Mihir N. Velani, S. C. Vora

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Abstract

A well-designed metal oxide (ZnO, zinc oxide) surge arrester offers a desired nonlinear characteristic to ground the surges and overvoltages at the safest level. Although a revolutionary work has been carried out in material research, the apparatus still suffers from a few limitations e.g., nonidentical ZnO block characteristics and its nonuniform thermal and structural behaviour. It becomes imperative to test device prototype for their electrical, mechanical and thermal performances. The cost for actual testing is huge and varies with the rating of the surge arrester. The software-based technique offers near actual behaviour assessment / functional visualization of the lightning arrester prior to prototype making and saves on costly testing set-up and charges. In this paper, the metal oxide arrester has been modelled and analysed using finite element (FE) technique. Standard tests for surge arresters have been simulated with various configurations and these are analysed in the electrical and mechanical domain. The results and analysis of these simulated tests under normal and transient conditions are presented and discussed.

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氧化锌避雷器的有限元稳定性预测

设计良好的金属氧化物(氧化锌，氧化锌)避雷器提供了所需的非线性特性，将浪涌和过电压接地在最安全的水平。虽然在材料研究方面进行了一项革命性的工作，但该装置仍然存在一些局限性，例如ZnO块体特性不相同以及其热和结构行为不均匀。测试设备原型的电气、机械和热性能变得势在必行。实际测试的成本是巨大的，并且随避雷器的额定值而变化。基于软件的技术在原型制作之前提供了接近实际的避雷器行为评估/功能可视化，并节省了昂贵的测试设置和费用。本文采用有限元技术对金属氧化物避雷器进行了建模和分析。对不同结构的避雷器进行了标准试验模拟，并在电气和机械领域对其进行了分析。本文介绍和讨论了这些模拟试验在正常和瞬态条件下的结果和分析。

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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2019 International Conference on High Voltage Engineering and Technology (ICHVET)

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