Experimental investigation of DC corona on stranded conductors under variable air density

2012 47th International Universities Power Engineering Conference (UPEC) Pub Date : 2012-12-31 DOI:10.1109/UPEC.2012.6398421

P. Mikropoulos, V. Zagkanas, T. S. Koustoulidis

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引用次数: 6

Abstract

Knowledge on the effects of air density on corona discharge is of great importance for many practical applications, including overhead transmission lines. In the present study the salient characteristics of both positive and negative DC corona on 7-stranded conductors, namely the corona inception voltage, corona current and the associated power losses, are experimentally investigated in the coaxial cylindrical electrode arrangement under variable air density. Theoretical predictions of the corona current and losses are in good agreement with experimental values for an ion mobility decreasing with relative air density according to a power law, the rate of decrease being higher for negative than positive ions. Irregularity factors for the 7-stranded conductors have been obtained based on electric field simulations and Peek's formula for smooth conductors. Logarithmic expressions, describing well the dependence of the irregularity factor on the product of relative air density and conductor radius, allow for a satisfactory estimation of the corona inception field strength of 7-stranded conductors.

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变空气密度下绞合导体直流电晕的实验研究

了解空气密度对电晕放电的影响对包括架空输电线路在内的许多实际应用具有重要意义。本文研究了不同空气密度下同轴圆柱电极布置下7股导线上正、负直流电晕的显著特性，即电晕起始电压、电晕电流和相关的功率损耗。电晕电流和损耗的理论预测与离子迁移率随相对空气密度下降的实验值符合幂律，负离子的下降率高于正离子。基于电场模拟和光滑导体的Peek公式，得到了7股导体的不规则因子。对数表达式，很好地描述了相对空气密度和导体半径乘积对不规则因子的依赖性，允许对7股导体的电晕起始场强进行令人满意的估计。

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 47th International Universities Power Engineering Conference (UPEC)

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