Improved simulation model for PD pattern in voids considering effects of discharge area

2003 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2003-10-19 DOI:10.1109/CEIDP.2003.1254787

K. Wu, Y. Suzuoki, L. Dissado

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引用次数: 12

Abstract

An earlier model for simulation of the phase-resolved pattern of partial discharge (PD) showed that the range of PD magnitudes could be produced by a variation of discharge area. Here we present a further development of that model. When the field in the void exceeds a certain value E/sub c/, PD occurs and extends along the void surface. In the PD propagation, the fields in the discharge paths and in the perimeter segments around the PD paths are reduced little by little by gradually changing the charge distribution. And the PD is terminated when the internal field in the PD path becomes lower than a critical value E/sub in/ and the field in the perimeter segments around the PD paths becomes less than another critical value E/sub p/. The simulation results became much closer to the actual PD patterns. And the large fluctuation of PD magnitude can be simulated even without consideration of any stochastic mechanisms. This model provides an approach to explain the transition of PD pattern in the aging process in terms of the change of surface condition.

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考虑放电面积影响的改进孔洞放电模式仿真模型

较早的模拟局部放电相位分辨模式的模型表明，局部放电的幅度范围可以通过放电面积的变化来产生。在这里，我们提出了该模型的进一步发展。当孔洞内电场超过一定值E/sub c/时，PD发生并沿孔洞表面延伸。在放电传播过程中，放电路径内和放电路径周围周长段内的电场通过电荷分布的逐渐改变而逐渐减小。当PD路径内的场小于临界值E/sub /，且PD路径周围周长段的场小于另一个临界值E/sub /时，PD终止。仿真结果与实际PD模式更加接近。即使不考虑任何随机机制，也可以模拟出PD量级的大波动。该模型为从表面条件的变化来解释时效过程中PD模式的转变提供了一种方法。

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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2003 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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