Calculation of Low-Frequency Magnetic Field Distribution of a Transformer Station in Stationary State

International Review of Physics Pub Date : 2016-10-31 DOI:10.15866/IREPHY.V10I5.12064

A. Muharemovic, V. Madžarević, H. Salkić, I. Turkovic, Nerdina Mehinović

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引用次数: 1

Abstract

This paper describes one way of assessment of exposure level to electromagnetic fields of secondary electronic equipment or personnel in or close to high-voltage facilities. Assessment of fulfilling criteria regarding allowable values of magnetic flux, according regulations, was gained by numerical calculation and experimental measurement, considering geometrical configuration of high-voltage facility elements. Correct identification of electromagnetic disturbances of transmission lines has for a result optimal geometrical disposition of electronic equipment inside a high-voltage facility. Comparing a calculation results and results of experimental measuring on particular example of high-voltage facility, can lead to a conclusion that expensive measuring can be avoided, through standardization of a mathematical model and through numerical calculation of low-frequency magnetic field distribution even in conditions of the most complex geometry. Having in mind a number of locations where interaction between high-voltage facility and electronic equipment and personnel exists, a clear intention of authors, for reducing expenses of recording interaction level, is visible.

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变电站稳态低频磁场分布的计算

本文介绍了一种评估高压设施内外二次电子设备或人员电磁场暴露水平的方法。考虑高压设施元件的几何结构，通过数值计算和实验测量，得到了符合规定的磁通允许值满足标准的评定。正确识别传输线的电磁干扰，可以优化高压设施内电子设备的几何配置。通过对高压设施实例的计算结果和实验测量结果进行比较，可以得出这样的结论:即使在最复杂的几何条件下，通过数学模型的标准化和低频磁场分布的数值计算，也可以避免昂贵的测量。考虑到高压设施与电子设备和人员之间存在相互作用的一些地点，作者的明确意图是减少记录相互作用水平的费用。

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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International Review of Physics

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