多重应力老化TR-XLPE电缆的空间电荷分布

J. Ramirez, J. Sanz, E. da Silva, M. Martínez, J. Rodriguez
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引用次数: 1

摘要

本文给出了中压系统中常用的在温度、交流电压和冲击电压等多种因素下性能退化的阻燃交联聚乙烯(TR-XLPE)电缆沿电缆厚度的空间电荷分布曲线。对干固化法制备的15kv TR-XLPE电缆2 AWG铜导体试样沿绝缘厚度(径向)的空间电荷分布进行了比较。2根7 m长的电缆试样进行加速老化;一种样品处于热应力作用下,另一种样品处于热循环、连续施加25 kV交流电压和瞬态冲击电压组合的电热因素作用下。观察结果可以得出结论,在第一次热循环后,与新样品的剖面相比,空间电荷减少了。这证实了在热处理过程中会排出交联副产物。新样品和时效样品的绝缘体厚度中心区域空间电荷密度较高。电热老化循环比热电老化循环更严重,因为电热老化循环比热电老化循环沿绝缘厚度释放更多的空间电荷。
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Space Charge Profile of TR-XLPE Cables Aged Under Multiple Stresses
In this paper the space charge distribution profile along the thickness of tree-retardant crosslinked polyethylene (TR-XLPE) cables, commonly used in medium voltage system and degraded under multiple factors as temperature, AC and impulse voltages are presented. A comparison of the space charge distribution along the insulation thickness (radial direction) of samples extracted from 15 kV TR-XLPE cables, 2 AWG Cu conductor, manufactured under dry curing process was done. Two 7 m long cable samples were submitted to accelerated ageing; one sample was under thermal stress and the other was under electrothermal factors combining thermal cycles with 25 kV AC voltage applied continuously and impulse voltage transients. Looking at the results it can be concluded that after the first thermal cycle the space charge is reduced in comparison with the profile of the new sample. This confirms that crosslink by-products are expelled under thermal treatments. The space charge density is higher in the central region of the insulator thickness of the new sample and aged samples as well. It is also evident that the electrothermal ageing cycle is more severe because it releases more quantity of space charge along the insulation thickness than the thermal one.
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