Current distribution and electric field inside a gasometer due to direct lightning

2012 International Conference on Lightning Protection (ICLP) Pub Date : 2012-11-12 DOI:10.1109/ICLP.2012.6344244

J. Plesch, S. Pack, K. Preis, G. Fritscher

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Abstract

Gasometers are used in Austria to store a big quantity of explosive gas and represent exposed objects due to lightning of their height of several 10 meters. A floating disk on the top of the gas inside the tank divides the gasometer volume into two chambers, one at the bottom filled with gas and one above the disk with seldom explosive gas mixture (gas and air). According to the lightning protection standard EN 62305 on structures are taller than 60 m a lightning stroke to the side of the structures may occur, especially to corners and edges of the surface. Due to the average lighting flash density in Austria it is important to ensure the protection against direct strokes and to ensure no uncontrolled discharge inside the gasometer tank. To evaluate the effect of lightning inside the gasometer shell, a numerical simulation model was performed to investigate the current distribution and electric field strength inside the gasometer. With the distribution of the electric field strength, the voltage potential in several points and furthermore the voltage difference could be calculated.

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直击雷击引起的气体计内部的电流分布和电场

在奥地利，燃气表用于储存大量爆炸性气体，并代表由于高度为几十米的闪电而暴露的物体。罐内气体顶部的浮动圆盘将气体计体积分成两个室，一个在底部充满气体，另一个在圆盘上方充满很少爆炸的气体混合物(气体和空气)。根据EN 62305防雷标准，对于高度大于60m的建筑物，可能会有雷击发生在建筑物的侧面，特别是表面的角落和边缘。由于奥地利的平均闪光密度，重要的是要确保防止直接冲击，并确保没有不受控制的放电在气表罐内。为了评估雷电对燃气表外壳内部的影响，建立了数值模拟模型，研究了燃气表内部的电流分布和电场强度。根据电场强度的分布，可以计算出各点的电压势和电压差。

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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