Material erosion and build-up at the high voltage electrode during PD testing of subsea insulation materials using a modified Cigré II test method

O. Kvien, G. Berg, S. Hvidsten
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引用次数: 1

Abstract

The main aim of this work has been to test the long term durability of insulation materials subjected to surface partial discharges (PD), as a part of a larger study on the performance of materials used in subsea high voltage apparatus. Electrical equipment used in subsea installations are subjected to high hydrostatic pressures and seawater, often combined with high temperatures and even reactive chemical environments, making new challenges for the materials involved. The test method used for PD-testing is based on the Cigré II method. The method has been used in dry and humid conditions to identify the effect of humidity on the degradation of insulation materials subjected to PD relevant for subsea applications. The insulation materials samples were 2 millimeter thick disks of POM (polyoxymethylene) and XLPE (cross-linked homo-polymer polyethylene). The samples where subjected to surface discharges in a 1 mm sphere-to-plane electrode gap. The results show that the humidity during testing had a significant impact on material erosion and material transport in the electrode gap. POM was more rapidly degraded by PD than XLPE.
使用改进的cigr II测试方法对海底绝缘材料进行PD测试时,高压电极处的材料腐蚀和堆积
这项工作的主要目的是测试绝缘材料在表面局部放电(PD)下的长期耐久性,这是对海底高压设备中使用的材料性能进行更大规模研究的一部分。海底设施中使用的电气设备要承受高静水压力和海水,通常还要承受高温甚至反应性化学环境,这对相关材料提出了新的挑战。pd测试使用的测试方法基于cigr II方法。该方法已在干燥和潮湿条件下使用,以确定湿度对水下应用中PD相关绝缘材料降解的影响。绝缘材料样品为2毫米厚的POM(聚甲醛)和XLPE(交联均聚聚乙烯)圆盘。样品在1毫米的球-面电极间隙中受到表面放电。结果表明,测试过程中的湿度对材料的侵蚀和材料在电极间隙内的输运有显著影响。POM被PD降解的速度比XLPE快。
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