Attachment process of the discharge of competing grounded electrodes - Experimental observations and modeling

中国防雷 Pub Date : 2021-09-20 DOI:10.1109/ICLPandSIPDA54065.2021.9627395

L. Arevalo, A. Lobato, V. Cooray, P. Hettiarachchi, Mahbubur Rahman

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引用次数: 1

Abstract

The lightning attachment discharge process theory is based on studies of the physics of the discharge obtained from high voltage laboratory tests. The process of propagation of positive and negative discharges has been studied independently and then the gathered information has been used to understand and explain the lightning attachment development. In this paper, an experimental set-up is built to describe the dynamic behavior of positive and negative discharges. Electrodes of different dimensions placed at different distances are used as grounded electrodes and a high voltage electrode is subject to negative switching impulses. Test results allow to identify different stages of the dynamic process of attachment of the discharge between a downward negative discharge and a positive upward leader discharge. The principles of physics of discharge for positive and negative polarities are used to model the laboratory test measurements. The model can reproduce in an accurate manner majority of the dynamic processes of the discharge. In addition, statistical results of the effect of nearby and competing upward discharges is obtained.

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竞争接地电极放电的附着过程。实验观察和模拟

雷电附着物放电过程理论是建立在对高压实验室试验中获得的放电物理学研究的基础上的。对正负极放电的传播过程进行了独立的研究，并利用收集到的信息来理解和解释闪电附着的发展。本文建立了一个实验装置来描述正、负放电的动态行为。放置在不同距离上的不同尺寸的电极用作接地电极，高压电极受到负开关脉冲的影响。测试结果允许识别在向下的负放电和向上的正先导放电之间的放电的动态附加过程的不同阶段。正负极放电的物理原理被用来模拟实验室测试测量。该模型能准确再现放电的大部分动态过程。此外，还得到了附近和竞争向上放电效应的统计结果。

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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中国防雷

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