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Lightning shielding analysis of EHV and UHV AC transmission lines: the effect of operating voltage and terrain topography

机译：超高压和特高压交流输电线路的雷电屏蔽分析：工作电压和地形地形的影响

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The Electrogeometric Method (EGM) is commonly used to analyze and design the external lightning protection of power transmission lines. However, it has been found that the EGM is not able to predict the shielding failure rate observed in EHV and UHV transmission lines. In this article, an analysis of the lightning attachment to EHV and UHV transmission lines is presented, using the Self-consistent Leader Inception and Propagation Model (SLIM). The study is focused on the effect of operating voltage and type of terrain on the estimated lightning attraction distances for overhead transmission lines. It is found that the phase conductors have slightly larger lightning attraction areas during their positive voltage semi cycle and much more over mountainous terrain.

机译：电几何方法（EGM）通常用于分析和设计输电线路的外部防雷保护。但是，已经发现，EGM无法预测在EHV和UHV传输线中观察到的屏蔽故障率。在本文中，将使用自洽的领导者始发和传播模型（SLIM）分析超高压和特高压输电线路的雷电附着情况。该研究的重点是工作电压和地形类型对架空输电线路的估计雷电吸引距离的影响。已经发现，相导体在其正电压半周期内具有略大的雷电吸引区域，而在山区则更多。

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来源
《Intemational Conference of Lighbling Protection》|2014年|1756-1760|共5页
会议地点 Shanghai(CN)
作者
Cuaran, Jose; Acosta, Jhair; Becerra, Marley; Roman, Francisco;
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作者单位

Department of Electrical and Electronic Engineering Universidad Nacional de Colombia Bogotá Colombia;

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原文格式 PDF
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关键词
Lead; Lightning protection; Silicon; Surfaces; Wires; Leader Inception and Propagation Model; Lightning protection; Transmission Lines; electrogeometric model;

机译：铅;防雷保护;硅;表面；电线;领导者的开始和传播模型；防雷保护;传输线；电几何模型;

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4. Lightning shielding analysis of EHV and UHV AC transmission lines: the effect of operating voltage and terrain topography [C] . Cuaran Jose, Acosta Jhair, Becerra Marley, Intemational Conference of Lighbling Protection . 2014

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Lightning shielding analysis of EHV and UHV AC transmission lines: the effect of operating voltage and terrain topography

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