中压电缆聚合物绝缘的直流导通

Proceedings of the 3rd International Conference on Conduction and Breakdown in Solid Dielectrics Pub Date : 1989-07-03 DOI:10.1109/ICSD.1989.69206

A. Vlastós

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引用次数: 3

摘要

研究了施加直流电压的交联聚乙烯(XLPE)电缆在不同温度和外加电场条件下的瞬态泄漏电流。使用的电缆是带有内外半导体层的商用交联聚乙烯电缆，该电缆与绝缘层一起在一次操作中挤压，并在水蒸气交联装置中固化。XLPE绝缘层厚度为2.5 mm，外层半导体层内径为17.8 mm。结果表明，XLPE中导电的复杂性是由空间电荷限制、注入控制、外加电场，特别是电缆温度所决定的。当电缆不是等温加热时，当导体和护套之间存在温度梯度时，实际电缆导电的复杂程度会增加。发现了现有理论与实验之间的矛盾。

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DC conduction of polymeric insulation of medium voltage cables

The transient leakage current of XLPE (cross-linked polyethylene) cables to which a DC voltage was applied was studied under different temperatures and applied electric fields. The cables used were commercial XLPE cables with inner and outer semiconducting layers which were extruded in one operation together with the insulation layer and cured in a water vapor cross-linking unit. The thickness of the XLPE insulation was 2.5 mm and the inner diameter of the outer semiconducting layer was 17.8 mm. The ranges for the electric fields were from 3 to about 30 MV/m and for the temperatures from room temperature to about 90 degrees C. The results demonstrate the complexity of the electric conduction in XLPE and give further evidence that the conduction is space charge limited, injection controlled, and very strongly dependent on the externally applied field and, especially, the cable temperature. The degree of complexity in the electric conduction of realistic cables increases when the cable is not isothermally heated and when there is a temperature gradient between the conductor and sheath. An argument between existing theories and experiments is found.<>

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Proceedings of the 3rd International Conference on Conduction and Breakdown in Solid Dielectrics

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