Identification of surface discharge based on discharge current waveform in composite insulation system of LN2 and solid insulator

2008 International Symposium on Electrical Insulating Materials (ISEIM 2008) Pub Date : 2008-10-31 DOI:10.1109/ISEIM.2008.4664515

Y. Tanaka, E. Nakamura, Y. Murakami, S. Yamada, M. Nagao

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Abstract

Composite insulation system of liquid nitrogen (LN2) and solid insulator, which are widely employed in high-temperature superconducting power equipments, can be deteriorated by partial discharge (PD) generated in highly stressed region such as a triple junction. To investigate the PD mechanism, an individual current waveform of PD generated around the triple junction in LN2 or gaseous nitrogen (GN2) was measured. The longer half bandwidth and the shorter half bandwidth on the PD current waveform were typically observed in LN2, After passing low-pass filter, the PD pattern in LN2 was clearly separated into two clusters. The half bandwidth, being longer in the two clusters, also agreed with that in GN2 at 77 K. Therefore, it is suggested that the current waveform measurement with the measurement of the PD pattern brings the possibility to ascertain presence of the bubbles in LN2. And a frequency analysis of PD current waveform also leads to the appropriate separation between the PD in LN2 and that in bubbles.

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基于放电电流波形的LN2 -固体绝缘子复合绝缘系统表面放电识别

在高温超导电力设备中广泛应用的液氮和固体绝缘子复合绝缘系统，在高应力区域如三相接点会产生局部放电，从而导致系统劣化。为了研究PD机制，测量了在LN2或气态氮(GN2)中三结周围产生的PD的单个电流波形。在LN2中典型地观察到PD电流波形上较长的半带宽和较短的半带宽，通过低通滤波器后，LN2中的PD模式明显分为两个簇。两个星团的半带宽更长，也与GN2的77 K一致。因此，建议用PD模式测量电流波形可以确定LN2中气泡的存在。通过对局部放电电流波形的频率分析，可以将LN2中的局部放电与气泡中的局部放电进行适当的分离。

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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2008 International Symposium on Electrical Insulating Materials (ISEIM 2008)

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