架空高压电线对人体感应电流的模拟

M. Paulet, C. Lazarescu, A. Sălceanu
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引用次数: 8

摘要

本文旨在研究人体均匀轴对称模型中高压线路所产生的电流密度,通过CST软件进行分析。在综合概述了由主频率的电场和磁场引起的电流之谜之后,提出了一个由9个旋转体组成的简化人体模型:一个半球,4个圆柱体和4个锥体躯干。然后揭示了用于方便在CST软件中实现的有限元电流计算的分辨率和边界条件。作为参考和起点,考虑了两种极端情况:只有220 kV电压,不考虑通过高压线的电流的影响,分别为900 a电流,不考虑高压的内在影响。对于这两种情况,本文给出了得到的结果并进行了评论,重点讨论了感应电流在体表上的分布,以及感应电流在垂直轴上或水平轴上的分布。所获得的结果已与文献中传达的其他确定或模拟进行了比较。从同时研究这些感应电流在人体某些部位的累积效应的角度来看,以及从未来研究某些环境因素(土壤的性质,受试者所穿的鞋底)对感应电流的影响的角度来看,这些模拟的优点都得到了突出。
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Modeling the Currents Induced in the Human Body by an Overhead High Voltage Power Line
This paper aims to study the current density induced by a high voltage line in a homogeneous axis-symmetric model of the human body, the analysis being carried out via CST software. After a synthetic overview of the riddles of the currents induced by the electric and magnetic fields having mains frequency, there is presented a simplified human model crafted of 9 rotation bodies: a hemisphere, 4 cylinders and 4 trunks of cone. The resolutions and boundary conditions used to facilitate the calculation of finite-element currents implemented in CST software are then revealed. As reference and starting points, two extreme cases have been considered: just 220 kV voltage, without taking into account the influence of the current through the high voltage line, respectively a 900 A current, without regards to the intrinsic effects of the high voltage. For both cases, the obtained results are presented and commented with focus on the distribution of induced current on the body surface, along with the distribution of the induced currents on the vertical axis or on a horizontal axis. The acquired results have been compared with other determinations or simulations communicated in the literature. The advantages of these simulations are highlighted both from the perspective of the simultaneous study of the cumulative effect of these induced currents in certain parts of the human body as well as from the point of view of future studies on the influence which certain environmental factors (the nature of the soil, the sole of the footwear worn by the subject) can have on induced currents.
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