Propagation Mechanism of Carbonized Trees in Oil-cellulose Insulation Systems of Power Transformers

2020 IEEE Electrical Insulation Conference (EIC) Pub Date : 2020-06-01 DOI:10.1109/eic47619.2020.9158691

Yangchun Cheng, Shuang Zhang, T. Mao, Shaowei Guo, Z. Niu, Zhen Hao

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Abstract

Oil-cellulose insulation systems are widely used in power transformers. Partial discharge (PD) is considered to play an important role in the deterioration process of the oil-cellulose insulation system. There has been little research in the past on the process and mechanism of PD destroying the oil-impregnated paper and pressboard. Through two sets of high voltage experiments on oil-impregnated pressboards, the phenomena about carbonized tracks, and trees were observed and analysed to understand the formation and development mechanism of the carbonized trees inside the pressboards. Furthermore, this analysis was also performed to reveal the mechanism and the process of PDs destroying the pressboards. From the results, we found that PDs occur in the gas channels. The inner wall of the channels is carbonized by the PDs, such that the carbonized tracks and trees propagate along the gas channels. The propagation of the carbonized tree is the process of the thickening and elongating of the tree branches. In addition, in the later stages of the thickening, the energy for carbonization comes from the leakage current and the chemical energy from the combustion of paper.

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碳化树在电力变压器油-纤维素绝缘系统中的繁殖机理

油-纤维素绝缘系统广泛应用于电力变压器中。局部放电在油-纤维素绝缘体系的劣化过程中起着重要的作用。以往对PD对油浸纸和纸板的破坏过程和机理的研究较少。通过两组高压浸渍压板实验，观察和分析了压板内碳化痕迹和树木的现象，了解了压板内碳化树木的形成和发展机理。此外，本文还分析了钯破坏压板的机理和过程。从结果来看，我们发现PDs发生在气体通道中。通道的内壁被pd碳化，使得碳化的轨迹和树沿着气体通道传播。炭化树的繁殖过程是树枝加粗和伸长的过程。此外，在增稠的后期，炭化的能量来自泄漏电流和纸张燃烧的化学能。

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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2020 IEEE Electrical Insulation Conference (EIC)

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