Partial Discharge Erosion of Polypropylene/Elastomer Blends Characterized with Multi-Sensors under AC Voltage

Jinjing Peng, Yu Gao, Jing Li, Xuri Xu, Zheng Song, B. Du
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Abstract

Polypropylene (PP) has been considered as a promising insulation material for power cable in both AC and DC systems because of its excellent insulation performance and recyclability. The exposure to partial discharge gives rise to the deterioration of the material that threatens the safe operation of cable. Therefore, it is of great significance to understand the mechanism of partial discharge of PP and its blends subjected to AC voltage. In this work, PP/elastomer blends with thickness of $150 \mu \mathrm{m}$ were prepared as samples. A needle-plane electrode system was employed to introduce partial discharge by applying an AC voltage with 5 kVrms for 2 hours. The erosion behavior was characterized through multi-sensors system, including high frequency current transformer (HFCT), optical recorder and gas sensor. To better understand the erosion mechanism, isothermal surface potential decay (ISPD) method was used to analyze trap characteristics. The results showed that the trap center became shallower with the increase of elastomer content for both ethylene-octene copolymer elastomer (EOC) and polypropylene based elastomer (PBE). Compared with pure PP, the addition of elastomer improved the resistance of partial discharge and PP with 20 wt% loading percent of EOC presented better resistance to partial discharge compared with PP with 20 wt% loading percent of PBE.
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交流电压下多传感器表征聚丙烯/弹性体共混物局部放电侵蚀
聚丙烯(PP)由于其优良的绝缘性能和可回收性,被认为是一种很有前途的交、直流电力电缆绝缘材料。暴露在局部放电环境下会导致材料劣化,威胁电缆的安全运行。因此,了解PP及其共混物在交流电压作用下局部放电的机理具有重要意义。本研究制备了厚度为$150 \mu \ mathm {m}$的PP/弹性体共混物作为样品。采用针平面电极系统,施加5 kVrms交流电压2小时,引起局部放电。利用高频电流互感器(HFCT)、光学记录仪和气体传感器等多传感器系统对腐蚀行为进行了表征。为了更好地了解侵蚀机理,采用等温表面电位衰减(ISPD)方法分析了陷阱特征。结果表明,随着弹性体含量的增加,乙烯-辛烯共聚物弹性体(EOC)和聚丙烯基弹性体(PBE)的陷阱中心变浅;与纯PP相比,弹性体的加入提高了PP的局部放电性能,而含20%重量% EOC的PP比含20%重量% PBE的PP具有更好的局部放电性能。
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