Impulsive voltages induced into internal cabling of buildings hit by lightning

2012 International Conference on Lightning Protection (ICLP) Pub Date : 2012-11-12 DOI:10.1109/ICLP.2012.6344223

A. Panicali, C. Barbosa

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引用次数: 6

Abstract

This paper presents the effects of propagation delays and displacement currents in the calculation of currents and voltages induced on metallic cabling inside buildings hit by lightning flashes. Results from numerical calculation, based on a more complete electromagnetic formulation (Method of Moments - MoM) are compared with results from a quasi-stationary approach. It is shown that voltages induced by very fast currents, such as those from subsequent lightning strokes, can be significantly influenced by displacement currents and propagation delays. These effects depend on the cabling geometry and its grounding configuration. In the examples considered in this paper, the induced voltages reached peak values much higher than those calculated by magnetic induction alone, besides exhibiting oscillatory wave forms. The increase in the magnitude and the change of the induced voltage waveform may impact the design of clearance distances and, under specific conditions, may also jeopardize electronic equipment that otherwise would be considered safe based on the quasi-stationary approach.

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受雷击建筑物内部电缆感应的脉冲电压

本文介绍了在计算建筑物内受雷击金属电缆感应电流和电压时，传播延迟和位移电流的影响。基于更完备的电磁公式(矩量法- MoM)的数值计算结果与准平稳方法的结果进行了比较。结果表明，由非常快的电流，如随后的雷击产生的电压，会受到位移电流和传播延迟的显著影响。这些影响取决于电缆的几何形状及其接地配置。在本文所考虑的例子中，感应电压达到的峰值远高于单独用磁感应法计算的电压，并且呈现振荡波形。感应电压波形的幅度增加和变化可能会影响间隙距离的设计，并且在特定条件下，还可能危及电子设备，否则基于准平稳方法被认为是安全的。

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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