A Lightning Attachment Model to UHV Transmission Lines Based on FEM

2023 12th Asia-Pacific International Conference on Lightning (APL) Pub Date : 2023-06-12 DOI:10.1109/APL57308.2023.10181984

Ziwei Ma, J. Jasni, M. Kadir, N. Azis

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Abstract

Developing a numerical simulation model for shielding failure evaluation of UHV transmission lines is an urgent task. In this article, a dynamic leader propagation model of lightning attachment to UHV transmission lines was developed based on FEM. The lightning downward leader descending vertically at a speed of $2 \times 10^{5} m/s$ from a distance of 50 m from the side of the UHV transmission line was considered as a lossy conductor. Peek’s formula was used for initial corona inception criterion. The streamer space charge and the leader length were calculated by using the voltage distortion method. The upward leader was assumed to propagate in the direction of the maximum field strength. The final jump was considered to occur once the average electric field strength of the remaining gap reaches 450 kV/m. Without considering the operating voltage, the simulation result shows that the striking distance of the ground wire under the return stroke current of 10 kA, 20 kA, 30 kA, 40 kA and 50 kA is 54 m, 94 m, 143 m, 157 m, and $234 m$ respectively. A new expression of $r_{s}=7.2 I_{p}^{0.87}$ for the striking distance calculation based on LPM was proposed. The striking distance calculated by this new model is between the EGM empirical model and theoretical model, which proves that the model is reasonable.

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基于有限元法的特高压输电线路雷电附着模型

建立特高压输电线路屏蔽失效评估的数值模拟模型是一项紧迫的任务。本文建立了基于有限元法的特高压输电线路雷电附着的动态引线传播模型。在距离特高压输电线路侧面50 m处，以2 × 10^{5} m/s的速度垂直下降的闪电引线被认为是有损耗导体。初始电晕起始判据采用Peek公式。利用电压畸变法计算了流线空间电荷和引线长度。假设向上的导波沿最大场强方向传播。最后的跳跃被认为发生在剩余间隙的平均电场强度达到450千伏/米时。仿真结果表明，在不考虑工作电压的情况下，10 kA、20 kA、30 kA、40 kA和50 kA回冲电流下接地线的触地距离分别为54 m、94 m、143 m、157 m和2.34 m。提出了基于LPM的击距计算新表达式$r_{s}=7.2 I_{p}^{0.87}$。新模型计算的冲击距离介于EGM经验模型和理论模型之间，证明了模型的合理性。

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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2023 12th Asia-Pacific International Conference on Lightning (APL)

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