Modeling the Dynamic Behavior of Contamination on Barrier Surface under a High AC Electrical Field

020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP) Pub Date : 2020-05-01 DOI:10.1109/CCSSP49278.2020.9151706

T. Belhoul, K. Haim, R. Boudissa, S. Kornhuber, N. Bouatia

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Abstract

The mean objective of this paper consists to find a mathematical model linking the disruptive voltage of a non-uniform electrical field air gap rod - plane with insulating barriers under very severe pollution conditions and that of a plane - plane system sprayed with water droplets at 50 Hz alternating voltage, whose the air gap distance is variable. Experimental device for simultaneously varying the distance between the electrodes and between the barriers, was manufactured. The visualization of the electrical disruptive path of the two systems is essential to support the disruption tests of these systems. The results emanating from the experimental study have shown the existence of a perfect equivalence between the configurations rod - highly polluted barrier - plane with water drops and plane - plane sprayed. This analysis allowed us to establish a mathematical model showing the equality of the breakdown voltages of the systems mentioned air gap under very severe pollution conditions.

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强交流电场作用下屏障表面污染动力学行为的模拟

本文的平均目标是建立极严重污染条件下非均匀电场气隙棒面与绝缘屏障的破坏电压与50 Hz交变电压下水滴喷射的面-面系统的破坏电压的数学模型。制作了同时改变电极间距离和屏障间距离的实验装置。两个系统的电干扰路径的可视化是支持这些系统的干扰试验的必要条件。实验研究结果表明，棒-高污染屏障-有水滴的平面与平面-喷淋的平面之间存在着完全的等价关系。这一分析使我们能够建立一个数学模型，表明在非常严重的污染条件下，上述气隙系统的击穿电压相等。

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

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