Investigations on DC Breakdown in Solids under Needle tip-Plane Electrode Configuration

Ajith John Thomas, C. Reddy
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引用次数: 1

Abstract

Electrical treeing is considered to be one of the most important physical evidence of insulation damage in HV cables, caused due to the high field enhancement at the tip of these defects in the insulation. In this paper, breakdown experiments are conducted using needle-tip electrode configuration under stepped DC stress profile. Further, the authors present an estimation of electric field and space charge distributions in needle tip-plane system based on FEM. Nonlinear conduction is incorporated in the computation by using a semi-empirical equation of field and temperature-dependent conductivity. The results show the interesting aspects of nonlinear conductivity on the electric field and space charge distribution. Further, the effect of temperature dependence on field distribution at the needle-tip is also presented. Furthermore, from the breakdown experiments, the electric field at the tip is estimated for different tip radii and the results give a reasonable and realistic estimate of breakdown tip-field, using the proposed model.
针尖-平面电极结构下固体直流击穿的研究
电气树被认为是高压电缆绝缘损坏的最重要的物理证据之一,是由这些绝缘缺陷尖端的高场增强引起的。本文采用针尖电极结构,在阶梯式直流应力剖面下进行了击穿实验。在此基础上,利用有限元方法估计了针尖-平面系统的电场和空间电荷分布。利用场和温度相关电导率的半经验方程,将非线性电导率纳入计算。结果显示了非线性电导率对电场和空间电荷分布的有趣影响。此外,还讨论了温度依赖性对针尖场分布的影响。此外,通过击穿实验,估计了不同击穿半径下尖端处的电场,并给出了合理、真实的击穿尖端场估计。
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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