Study on Characteristics of Partial Discharge Caused by Micro-bubble in Insulating Oil

2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO) Pub Date : 2021-10-15 DOI:10.1109/AEERO52475.2021.9708212

M. Gao, Lin Ke, M. Fu, Hongbin Zhou, Lu Cai, Neng Wang, Jianxin Wang, Baojun Zhao

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Abstract

In the last few decades, Bubbling phenomenon grows to be a major concern for its insulation threats in oil-immersed facilities during dynamic rating or overloading. Formed bubbles with radius from tens to hundreds um could lead to partial discharge or even serious insulation failure. However, previous studies on bubble-induced discharge in insulating oil usually focused on millimeter size bubbles. The research to date has not been able to determine the real threat of micro-bubbles of tens to hundreds um of in oil. In this paper, the characteristics of partial discharge induced by micro-bubbles were investigated. The finding is unexpected and suggests that partial discharge inception electric field strength is significantly higher than the theoretical value, which shows tiny change with variation of bubbles radius. Besides, bubble radius is a significant factor on the number of partial discharge current pulses and the apparent charge. The number of current pulses induced by a single bubble could help to reveal the interaction mechanism between bubbles and discharges. Finally, the equation associating the apparent charge and bubble radius was fitted.

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绝缘油中微气泡局部放电特性的研究

近几十年来，鼓泡现象日益成为油浸设施在动态额定或过载过程中对其绝缘威胁的主要问题。形成半径几十到几百微米的气泡可能导致局部放电甚至严重的绝缘失效。然而，以往对绝缘油气泡诱导放电的研究多集中在毫米级气泡上。迄今为止的研究还不能确定石油中几十到几百微米的微气泡的真正威胁。本文研究了微气泡诱导局部放电的特性。结果表明，局部放电起始电场强度显著高于理论值，且随气泡半径的变化变化不大。此外，气泡半径是影响局部放电电流脉冲数和表观电荷的重要因素。单个气泡产生的电流脉冲数有助于揭示气泡与放电之间的相互作用机制。最后，拟合了表观电荷与气泡半径的关系式。

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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2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO)

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