Distribution Network Impact Assessment with Geometrically Identified Strike Points: An Approach

2022 36th International Conference on Lightning Protection (ICLP) Pub Date : 2022-10-02 DOI:10.1109/ICLP56858.2022.9942530

Nasib Khadka, D. Bista, Chandima Gomes, Shriram Sharma, B. Adhikary

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Abstract

This paper presents an algorithm to generate direct and indirect strike points for lightning impact assessments. The proposed method uses the Electrogeometric Model to define the strike range limit, such that the generated events fall inside the range that would cause insulation failure. In this way, the non-potential strike events are excluded before carrying out additional computations, without requiring any complex algorithm for the event filtration. This method has been implemented to assess 17 arrester-based protection schemes with different arrester spacings. The assessment revealed the overvoltage impact levels at different nodes of the network concerned in the case study. It is proposed that the commonly accepted fact that the impact level generally increases with the increasing arrester spacing, may not be always true. Instead, there can be a range of spacing distances with abnormalities. Also, it was noted that the severity ranking of the distribution transformers in the assessed network varied with the protection scheme. Thus, it is recommended to perform a prior analysis in implementing a planned protection scheme.

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具有几何识别打击点的配电网影响评估方法

本文提出了一种用于闪电影响评估的直接和间接雷击点生成算法。该方法利用电几何模型来定义冲击范围限制，使所产生的事件落在导致绝缘失效的范围内。这样，在进行额外的计算之前，就排除了非潜在的罢工事件，而不需要任何复杂的事件过滤算法。该方法已用于评估17种不同避雷器间距的基于避雷器的保护方案。该评估揭示了案例研究中有关网络不同节点的过电压影响水平。人们普遍认为，冲击水平通常随着避雷器间距的增加而增加，这一事实可能并不总是正确的。相反，可能有一系列的间隔距离与异常。此外，还注意到评估网络中配电变压器的严重等级随保护方案的不同而不同。因此，建议在实施计划保护方案时进行事先分析。

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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2022 36th International Conference on Lightning Protection (ICLP)

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