Effect of cumylalcohol in XLPE on space charge formation and electric breakdown under DC high electric field

N. Hayashi, H. Suzuki, H. Miyake, Y. Tanaka, T. Maeno
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引用次数: 14

Abstract

For an insulation layer of a DC power transmission cable, space charge properties of various insulating materials have been investigated using pulsed electro acoustic (PEA) method. Especially, cross-linked polyethylene (XLPE), which has an improved heating resistance by forming a bridge between molecular chains of low density polyethylene (LDPE), is expected to be applied to the insulating layer of the cable. So, the insulating performance of XLPE under high DC stress is important. In the bulk of XLPE layer for power cables, there remain some chemical residues of crosslinking by-product such as acetophenone, α-methylstyrene, and cumylalcohol. Such residues are thought to affect the breakdown strength and space charge behavior in the insulating layer under dc high electric field. Therefore, we have examined the effect of each remaining chemical by-product in LDPE under dc high electric field. In this report, to investigate the effect of cumylalcohol, one of cross-linking by-product, on space charge formation and electric breakdown characteristics in XLPE, we tried to observe the space charge accumulation in XLPE with cumylalcohol under very high dc stress. As the results, it is found a curious and quite interesting space charge formation. In the material, an apparent backward flow of a negative packet-like charge against the electric field is observed. The performance of the packet-like charge is like a “Pororoca” in Amazon River. Furthermore, the relatively low dc breakdown strength was observed in the material. It seems to be a certain relationship between the “Pororoca” and the lower breakdown strength. In this report, the curious phenomena is mainly introduced.
交联聚乙烯中茴香醇对直流强电场下空间电荷形成和电击穿的影响
针对直流输电电缆绝缘层,采用脉冲电声(PEA)方法研究了不同绝缘材料的空间电荷特性。特别是交联聚乙烯(XLPE),它通过在低密度聚乙烯(LDPE)分子链之间形成桥接而提高了耐热性,有望应用于电缆的绝缘层。因此,交联聚乙烯在高直流应力下的绝缘性能非常重要。在电力电缆用交联聚乙烯(XLPE)层中,大部分存在交联副产物苯乙酮、α-甲基苯乙烯、cumylalcohol等化学残留物。在直流强电场作用下,这些残馀会影响绝缘层的击穿强度和空间电荷行为。因此,我们研究了直流强电场作用下LDPE中各剩余化学副产物的影响。为了研究交联副产物cumyl醇对XLPE中空间电荷形成和电击穿特性的影响,我们尝试观察了在非常高的直流应力下,cumyl醇在XLPE中的空间电荷积累。结果发现了一种奇特而有趣的空间电荷形成。在材料中,观察到一个负的包状电荷对电场的明显反向流动。包式收费的表现就像亚马逊河上的“Pororoca”。此外,该材料的直流击穿强度相对较低。“Pororoca”与较低的击穿强度之间似乎存在一定的关系。在这篇报道中,主要介绍了一些奇怪的现象。
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