Trap Distribution and Space Charge Behavior of PP/ULDPE/ Radical Scavenger Composites for HVDC Cable Insulation

Z. Hou, B. Du, Z. L. Li, Jin Li, C. Han, R. Xu, M. Y. Wang, C. Liu
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Abstract

Space charge and breakdown behavior are important factors in the design of high voltage dc (HVDC) cables. Since the working temperature together with additives has a great influence on the insulation performance of the composites, the temperature effect investigation would be highly beneficial. In this paper, the space charge test of the polypropylene (PP) /ultralow density polyethylene (ULDPE) blends and its radical scavenger modified composites are performed at 30, 60 and 90 °C, respectively. The trap distribution in the radical scavenger and the composites are investigated based on Quantum chemistry calculation and isothermal discharge current (IDC) test. The radical scavenger can introduce traps with different energy levels, which has greatly inhibited the space charge accumulation aggravated by the increasing temperature in the PP/ULDPE (PU) blends. The PP/ULDPE blends with 0.3 wt% radical scavenger exhibit great space charge performance for HVDC cable insulation.
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高压直流电缆绝缘用PP/ULDPE/自由基清除剂复合材料的陷阱分布和空间电荷行为
空间电荷和击穿行为是高压直流电缆设计中的重要因素。由于工作温度和添加剂对复合材料的绝缘性能有很大的影响,因此研究温度效应是非常有益的。本文对聚丙烯(PP) /超低密度聚乙烯(ULDPE)共混物及其自由基清除剂改性复合材料分别在30℃、60℃和90℃下进行了空间电荷测试。基于量子化学计算和等温放电电流(IDC)测试,研究了自由基清除剂和复合材料中的陷阱分布。自由基清除剂可以引入不同能级的陷阱,极大地抑制了PP/ULDPE (PU)共混物中因温度升高而加剧的空间电荷积累。含有0.3 wt%自由基清除剂的PP/ULDPE共混物在高压直流电缆绝缘中表现出良好的空间电荷性能。
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