Impact of steel permeability on ACSR impedance per unit length

2016 International Symposium on Industrial Electronics (INDEL) Pub Date : 2016-11-01 DOI:10.1109/INDEL.2016.7797815

K. Kasas-Lazetic, D. Herceg, D. Kljajić, G. Mijatović, M. Prsa

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Abstract

Electric characteristics of Aluminum Conductor Steel Reinforced (ACSR) components, aluminum and steel conductivity values, are usually provided by the ACSR manufacturers, but not the steel core permeability. In order to explore how important the steel core permeability is, the paper deals with the impact of this characteristic on ACSR impedance per unit length. For the estimation of this impact, numerous calculations were performed and the results are shown in this paper. The value of relative steel core permeability was varied from 10 to 50000 inside three different standardized ACSR conductors, at eleven different frequencies, up to 2500 Hz (50th harmonic of fundamental frequency). All calculations were carried out numerically, applying COMSOL Multiphysics 3.5a computer program package on simplified two-dimensional model. ACSR resistance per unit length was calculated from heating losses, while the reactance and the inductance per unit length were determined via magnetic energy stored in ACSR magnetic field. Even in the case of great relative permeability value range, the paper shows that the influence of steel core permeability on any ACS conductor is much less than expected, especially at lower frequencies. This fact is the consequence of the big difference in aluminum and steel conductivity values.

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钢磁导率对单位长度ACSR阻抗的影响

铝导体钢增强(ACSR)组件的电气特性，铝和钢的电导率值，通常由ACSR制造商提供，而不是钢芯的磁导率。为了探究钢芯磁导率的重要性，本文研究了该特性对单位长度ACSR阻抗的影响。为了估计这种影响，进行了大量的计算，并在本文中给出了结果。在三种不同的标准ACSR导体中，在11种不同的频率下，相对钢芯磁导率的值从10到50000不等，最高可达2500 Hz(基频的第50次谐波)。所有计算均采用COMSOL Multiphysics 3.5a计算机程序包对简化的二维模型进行数值计算。单位长度的ACSR电阻由热损耗计算，单位长度的电抗和电感由ACSR磁场中存储的磁能确定。即使在相对磁导率较大的情况下，钢芯磁导率对任何ACS导体的影响都远远小于预期，特别是在较低频率时。这一事实是铝和钢的电导率值差别很大的结果。

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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2016 International Symposium on Industrial Electronics (INDEL)

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