Simulation on Propagation Characteristics of Optical Signals of Partial Discharge in Single-core and Three-cores GIL

2018 Condition Monitoring and Diagnosis (CMD) Pub Date : 2018-09-01 DOI:10.1109/CMD.2018.8535943

Xue Qin, Honglin Zhao, Qi Zhang, Y. Qian, G. Sheng, Xiuchen Jiang

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Abstract

Due to the high transmission capacity and low loss, Gas-insulated metal-enclosed transmission line (GIL) is gradually replacing conventional overhead lines and highvoltage cables. As the basis of the research on the optical detection of partial discharge (PD), the propagation characteristics of the PD signal in GIL must be paid attention. In this paper, the single-core and three-cores GIL simulation models were established. And parameters of the optical signals generated by PD were observed and compared at the detection point and different detection surfaces. The results show that: In the cavity with different structures, there are different shades of faculae on detection surfaces, and the symmetry properties are also different. The horizontal location of the PD source affects the faculae and relative irradiance values. The optical signals on the detection surface of single-core and three-cores GIL have similar variations. The relative irradiance value obtained at the fixed detection point is related to the internal structure of the cavity, the position and surface of the PD source.

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单芯和三芯GIL中部分放电光信号传输特性的仿真

气体绝缘金属封闭输电线路由于具有传输容量大、损耗低的特点，正逐步取代传统的架空线和高压电缆。局部放电信号在GIL中的传播特性是研究局部放电光学检测的基础。本文分别建立了单核和三核GIL仿真模型。并对PD产生的光信号在检测点和不同检测表面的参数进行了观测和比较。结果表明:在不同结构的腔体中，探测表面的光斑深浅不同，对称性也不同。PD光源的水平位置影响光斑和相对辐照度值。单核和三核GIL检测表面的光信号有相似的变化。在固定检测点处获得的相对辐照度值与腔体内部结构、PD源的位置和表面有关。

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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2018 Condition Monitoring and Diagnosis (CMD)

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