Lightning overvoltage investigation due to a backflashover event in transmission lines: A realist modeling proposal

2015 International Symposium on Lightning Protection (XIII SIPDA) Pub Date : 2015-09-01 DOI:10.1109/SIPDA.2015.7339311

A. R. Rodrigues, W. do Couto Boaventura, Geraldo Caixeta Guimarães, Daniel Araújo Caixeta, Marcelo Lynce Ribeiro Chaves, M. A. Tamashiro

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Abstract

This paper presents a study about the lightning performance of transmission lines using advanced electromagnetic models to perform a realistic representation of the first stroke current. Based on the measurement data obtained at the Morro do Cachimbo/MG Station, it was possible to synthesize first stroke current waveforms with single- an double-peak in a realistic way. In addition, the investigation involves an analysis with a model implemented in ATP-Models to reproduce the first stroke current recommended by CIGRÉ methodology. The breakdown process was represented through a Leader Progression Model able to represent accurately the physical process established along the perimeter of the insulator strings, during a backflashover event. The results allowed an investigation of the waveforms and amplitudes of the resulting overvoltages across the insulators. The computational modeling developed permits to identify the amplitude of the overvoltage that produces the backflashover and the instant of time that the breakdown occurs.

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输电线路中反闪络事件引起的雷电过电压研究:一个现实的建模建议

本文利用先进的电磁模型对输电线路的雷电性能进行了研究，以真实地表示第一冲程电流。基于在Morro do Cachimbo/MG站获得的测量数据，可以真实地合成单峰和双峰的首冲程电流波形。此外，该研究还包括使用ATP-Models中实现的模型进行分析，以重现CIGRÉ方法推荐的第一次冲程电流。击穿过程通过Leader级数模型来表示，该模型能够准确地表示在反闪络事件中沿绝缘子串周长建立的物理过程。该结果允许对通过绝缘体产生的过电压的波形和幅度进行调查。所开发的计算模型允许识别产生反闪络的过电压的幅值和击穿发生的瞬间。

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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2015 International Symposium on Lightning Protection (XIII SIPDA)

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