Transient characteristics of wind turbine grounding

2012 International Conference on Lightning Protection (ICLP) Pub Date : 2012-11-12 DOI:10.1109/ICLP.2012.6344413

B. Markovski, L. Grcev, V. Arnautovski-Toseva

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引用次数: 14

Abstract

The goal of the analysis in this paper is twofold. First, we analyze the influence of different grounding electrode arrangements on the transient ground potential rise in case of direct lightning strokes. Particularly, we analyze the influence of the integration of the metallic foundation reinforcement with the grounding system. In addition we analyze the influence of long (30 m) vertical electrodes and additional ring electrode. Next, we analyze soil ionization effects. We compute the distribution of the electric field in the earth in time domain (for typical lightning current pulses) looking for the volume within which the magnitude of the electric field is above the critical strength (300 kV/m). Then we look for the possibility to apply a simple formula to account for the soil ionization effects. The parameters in the analysis are varied for low and highly resistive earth and for lightning current pulses related to the first and subsequent return strokes. We apply a rigorous electromagnetic model for frequency dependent analysis and an approximate model to account for soil ionization effects. Both models have been previously validated by comparison with experiments.

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风力发电机接地的暂态特性

本文分析的目的是双重的。首先分析了不同接地电极布置方式对直雷击下暂态地电位上升的影响。重点分析了金属基础加固与接地系统一体化的影响。此外，我们还分析了长(30 m)垂直电极和附加环电极的影响。接下来，我们分析了土壤电离效应。我们计算了在时域(对于典型的雷电电流脉冲)中地球电场的分布，寻找电场强度高于临界强度(300 kV/m)的体积。然后，我们寻找应用一个简单公式来解释土壤电离效应的可能性。分析中的参数对于低阻和高阻接地以及与第一次和随后的回击有关的雷电电流脉冲是不同的。我们采用严格的电磁模型进行频率相关分析，并采用近似模型来解释土壤电离效应。这两种模型先前都通过与实验的比较得到了验证。

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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2012 International Conference on Lightning Protection (ICLP)

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