320kv交联聚乙烯电缆接头空间电荷积累特性研究

IF 2.1 4区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Polymers & Polymer Composites Pub Date : 2023-09-09 DOI:10.1177/09673911231195194

Yuqi Liu, Xinjing Cai, Dan Zhang

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引用次数: 0

摘要

高压直流电缆附件是连接高压直流电缆的关键设备，也是电缆系统中的薄弱环节。为了研究空间电荷在电缆接头中的输运特性，采用双极电荷输运模型建立了二维轴对称电缆接头模型，并通过数值模拟分析了其空间电荷和电场分布。此外，还比较了基于分子链位移的陷阱深度和温度场对电缆接头界面电荷分布的影响。结果表明:应力锥根部和高压屏蔽顶部容易积聚空间电荷，导致电场畸变;基于分子链位移的陷阱深度比基本模型在绝缘界面处的陷阱深度大，阻碍了电荷的输运。不考虑温度场影响的模型电荷积累较少，应力锥根部和高压屏蔽顶部的电场和空间电荷随时间变化平缓。上述研究成果可为电缆接头的设计与优化提供参考。

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Study on space charge accumulation characteristics of 320 kV cross-linked polyethylene cable joints

High-Voltage Direct Current (HVDC) cable accessories are the key equipment to connect HVDC cables, and also the weak link in the cable system. In order to investigate the transport characteristics of space charge in cable joints, a two-dimensional axisymmetric cable joint model was established using the bipolar charge transport model, and its space charge and electric field distribution were analyzed through numerical simulation. Furthermore, the effects of the trap depth based on molecular chain displacement and temperature field on interface charge distribution of cable joint were compared with the basic model, respectively. The results show that the stress cone root and the top of the high-voltage shield are easy to accumulate space charges, which will lead to electric field distortion. The trap depth based on molecular chain displacement is larger than that of basic model at the insulation interface, which hinders the charge transport. The model without considering the effect of temperature field accumulates less charge, and the electric field and space charge at the stress cone root and the top of the high-voltage shield change gently with time. The above research results can provide a reference for the design and optimization of cable joints.

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来源期刊

Polymers & Polymer Composites 工程技术-材料科学：表征与测试

CiteScore

4.30

自引率

9.50%

发文量

审稿时长

5.7 months

期刊介绍： Polymers & Polymer Composites provides a forum for the publication of expertly peer reviewed, international research into the following topics: - Fibre reinforced and particulate filled plastics - Engineering plastics - Nanocomposites - Polymers or polyblends intended for engineering use (including structural, load bearing electronic and electrical applications) - Fibre reinforced and particulate filled plastics - Structural adhesives - Textile & wood fibres - Biomaterials with a load bearing capacity, (including polymer based dental materials)