Water Tree Detection in Medium Voltage XLPE Cables

2019 IEEE Electrical Insulation Conference (EIC) Pub Date : 2019-06-01 DOI:10.1109/EIC43217.2019.9046547

W. McDermid, M. Partyka, T. Black

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引用次数: 1

Abstract

During the period of 1993–1995 Manitoba Hydro investigated the claim by a service provider that water trees could be detected and located in service aged medium voltage XLPE cables by means of time domain reflectometry (TDR) following conditioning of the cable dielectric with direct voltage. In order to avoid subsequent short time in-service failures, it was necessary to limit the conditioning voltage to 0.5 per-unit. With this restriction, no conditioning related surge impedance anomalies were found in cable that subsequently was determined as containing substantial vented water trees. However, it was established that the measurement of leakage current at 0.5 per-unit negative polarity direct voltage did correlate with the magnitude of subsequent 0.1 Hz breakdown voltage. Beginning in 2014 Manitoba Hydro has been assessing service aged medium voltage XLPE cables using Tangent Delta measurements at 0.1 Hz voltages in accordance with IEEE Std 400.2. However, the notion that water tress can be detected and located as a result of conditioning with direct voltage is still of interest as is indicated by publications that have appeared in the literature in recent years, but the related conditioning utilizes direct voltages in excess of 0.5 per-unit.

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中压交联聚乙烯电缆中的水树检测

在1993年至1995年期间，曼尼托巴水电公司调查了一家服务提供商的说法，该服务提供商声称，通过对电缆介质进行直流电压调节后，采用时域反射法(TDR)，可以在服役的中压XLPE电缆中检测和定位水树。为了避免随后的短时间运行故障，有必要将调节电压限制在每台0.5。有了这个限制，在电缆中没有发现与调节相关的浪涌阻抗异常，随后被确定为含有大量的泄水树。然而，可以确定的是，在每单位负极性直接电压0.5下的泄漏电流测量确实与随后0.1 Hz击穿电压的大小相关。从2014年开始，马尼托巴水电公司根据IEEE标准400.2，在0.1 Hz电压下使用tan Delta测量方法评估服役年龄中压XLPE电缆。然而，近年来在文献中出现的出版物表明，通过直接电压调节可以检测和定位水应力的概念仍然令人感兴趣，但相关的调节使用的直接电压超过每单位0.5。

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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2019 IEEE Electrical Insulation Conference (EIC)

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