Risk Probabilistic Characteristics for Contaminated Porcelain Insulator in the Egyptian Sinai Desert

Turkish J. Electr. Eng. Comput. Sci. Pub Date : 2023-07-03 DOI:10.1155/2023/6662939

M. El-Shahat, I. Al-Naimi, E. Tag-eldin

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Abstract

Transmission lines in the desert are exposed to the desert environment, which includes sandstorms as one of its hallmarks. A conductive layer develops with prolonged sand deposition and the presence of moisture, ambient humidity, and dew. The ensuing leakage current causes surface discharge, which limits the life of the insulator and interrupting the power supply. The locations of power lines in the Egyptian Sinai desert, where sandstorms are known to occur frequently, are exposed to such a risk. In order to estimate the danger of insulator failure, this paper studies the flow of leakage current on porcelain insulators that have been contaminated with sand. This work relies on accurate data collected and published in a prior study regarding Sinai, which mainly focused on contaminating sand’s grain sizes. Porcelain insulator is simulated using finite element method to determine the leakage current that results on its contaminated surface. The probabilistic characteristics of the insulator’s leakage current are derived using Monte Carlo technique, allowing for the risk assessment of insulator failure. This assessment can be used to justify the suitability of using this kind of insulator in Sinai.

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埃及西奈沙漠受污染瓷绝缘子的风险概率特征

沙漠中的输电线路暴露在沙漠环境中，沙尘暴是其特征之一。导电层的形成与长时间的砂沉积、水分、环境湿度和露水的存在有关。由此产生的泄漏电流会引起表面放电，从而限制绝缘子的使用寿命并导致电源中断。在沙尘暴频繁发生的埃及西奈沙漠，电线的位置就暴露在这样的危险之中。为了估计绝缘子失效的危险性，本文研究了含砂瓷绝缘子上的漏电流流动。这项工作依赖于先前关于西奈半岛的研究中收集和发表的准确数据，该研究主要集中在污染沙子的粒度上。采用有限元法对瓷绝缘子进行了仿真，确定了瓷绝缘子污染表面产生的泄漏电流。利用蒙特卡罗技术推导出了绝缘子泄漏电流的概率特性，从而对绝缘子失效的风险进行了评估。这一评价可以用来证明在西奈半岛使用这种绝缘体的适用性。

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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Turkish J. Electr. Eng. Comput. Sci.

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