基于COMSOL多物理场的接地系统实现与设计

020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP) Pub Date : 2020-05-01 DOI:10.1109/CCSSP49278.2020.9151798

Bouderbala Abdelkader, Zegnini Boubakeur, Seghier Tahar, Saadaoui Yahia

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引用次数: 1

摘要

保护设备、人身安全和供电的连续性是接地系统的主要目的。为了精确设计该系统，必须确定该系统在地面上的电势分布和等效电阻。本文提出了一种基于有限元法的接地系统设计数值方法。这种接地系统被认为是垂直埋在地下的棒电极。在本次设计过程中，系统的电阻是一个非常重要的因素。采用有限元法估计控制系统行为的偏微分方程的解。本设计使用了与FEM一起运行的软件包COMSOL multiphysics作为工具。将COMSOL Multiphysics计算得到的电阻值与用不同类型土壤电阻解析公式计算得到的电阻值进行了比较。最后，确定了地球表面的电势分布

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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Implentation and Design of Grounding Systems Using COMSOL multiphysics

Protection of equipment, safety of persons and continuity of power supply are the main objectives of the grounding system. For its accurate design, it is essential to determine the potential distribution on the earth surface and the equivalent resistance of the system. In this article we propose a numerical method based on Finite Elements Method (FEM) to design a grounding system. This earthing system is considered a rod electrode buried vertically in the ground. The resistance of the system which is a very important factor in the process of this design. The FEM method is used to estimate the solution of the partial differential equation which governs the behavior of the system. COMSOL multiphysics, which is one of the packages running with the FEM, is used as a tool in this design. The resistance values obtained by COMSOL Multiphysics are compared with the values calculated with the analytical formula of different type’s soil resistance. Finally, the potential distribution on the earth surface is determined

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020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP)

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