35 kV XLPE电缆中间接头典型缺陷三维电场仿真分析Three-dimensional Electric Field Simulation Analysis on Typical Defects of 35 kV XLPE Cable Joint
徐虹,黄丽秋,娄建勇
XU Hong,HUANG Liqiu,LOU Jianyong
摘要(Abstract):
中低压电缆广泛应用于配电网,在安装运行过程中,电缆及其中间接头容易出现缺陷并对其绝缘造成破坏。为了研究不同缺陷对中间接头电场强度的影响,在SolidWorks中建立了35 kV XLPE电缆本体和中间接头的三维物理模型,设计了电缆中间接头存在气隙、杂质、割伤、划伤4种典型缺陷模型,并在CST Stdio三维电磁场软件中进行三维电场仿真,通过对比得出不同缺陷对电场强度的影响规律。结果表明,这4种缺陷都会引起不同程度的电场强度畸变,甚至导致绝缘击穿引发严重故障,对此给出相应的预防措施,为今后此类电缆中间接头故障的预防及处理提供参考。
Medium and low voltage cables are widely used in distribution networks. The cables and joints are prone to be faulty and cause insulation damages. To study the impact of different defects on electric field strength of the joints, a three-dimensional physical model of a 35 kV XLPE cable body and the joint is established in SolidWorks; then, four typical defect models, such as air gap, impurity, cut and scratch are designed, and three-dimensional electric field simulation is carried out in three-dimensional electromagnetic field software CST Stdio. By comparison, the influence law of different defects on the electric field strength is obtained. The results show that these four defects will increase the electric field strength distortion of the cable joints and even lead to a serious failure caused by insulation breakdown. The preventive measures are given accordingly which provides a reference for the prevention and treatment of cable joint faults in the future.
关键词(KeyWords):
XLPE电缆;电缆接头;典型缺陷;电场仿真;局部放电
XLPE cable;cable joint;typical defects;electric field simulation;partial discharge
基金项目(Foundation):
作者(Author):
徐虹,黄丽秋,娄建勇
XU Hong,HUANG Liqiu,LOU Jianyong
DOI: 10.19585/j.zjdl.202010002
参考文献(References):
- [1]袁燕岭,李世松,董杰,等.电力电缆诊断检测技术综述[J].电测与仪表,2016,53(11):1-7.
- [2]潘荣超,刘念,周凯,等.振荡电压波作用下电缆局部放电的仿真分析[J].电测与仪表,2013,50(8):10-13.
- [3]邱昌容,曹晓珑.电气绝缘测试技术[M].3版.北京:机械工业出版社,2004.
- [4]穆茂武.高压交联聚乙烯绝缘电缆线路中的预制式电缆附件[J].广东电力,2007,20(4):17-19.
- [5]常文治.电力电缆中间接头典型缺陷局部放电发展过程的研究[D].北京:华北电力大学,2013.
- [6]唐庆华.XLPE高压电力电缆局部放电检测方法研究[D].天津:天津大学,2010.
- [7]张义龙,李立学,郑益慧,等.电缆接头局部放电电磁仿真与多传感器联合检测[J].电测与仪表,2016,53(9):34-39.
- [8]ABDO T M,ELREFAI A L,ADLY A A,et al.Performance analysis of coil-Gun electromagnetic launcher using a finite element coupled model[C]//2016 Eighteenth International Middle East Power Systems Conference (MEP-CON).Cairo:IEEE,2016:506-511.
- [9]刘刚,阮班义.基于OWTS 10 kV XLPE电缆终端半导电层制作缺陷的实验研究[J].高压电器,2012,48(9):31-36.
- [10]王有元,王亚军,熊俊,等.振荡波电压下10 kV交联聚乙烯电缆中间接头的局部放电特性[J].高电压技术,2015,41(4):1068-1074.
- [11]张敏.CST微波工作室用户全书[M].成都:电子科技大学出版社,2004.
- [12]高元生,吴健,杨利彬,等.10 kV透明电缆终端典型缺陷局部放电特征研究[J].绝缘材料,2019,52(3):51-57.
- [13]万利,周凯,李旭涛,等.以电场特征理解电缆终端气隙的局部放电发展机理[J].高电压技术,2014,40(12):3709-3716.
- [14]陆国俊,熊俊,李光茂,等.振荡波电压下XLPE电缆局部放电模式识别研究[J].高压电器,2017,53(2):95-100.
- [15]邱玉婷.35 kV三芯交流XLPE电缆改直流运行的温度场和电场耦合分析[D].杭州:浙江大学,2017.
- [16]江天炎,成守花,毕茂强,等.基于ANSYS的电缆接头典型绝缘缺陷电-热场仿真研究[J].重庆理工大学学报(自然科学),2019,33(9):151-158.
- [17]蒋晓娟,梁惟钢,夏俊峰,等.35 kV电力电缆冷缩式中间接头典型缺陷电场计算及故障分析[J].绝缘材料,2015,48(11):59-63.
- [18]方春华,汤世祥,潘明龙.10 kV电缆中间接头典型缺陷仿真分析[J].三峡大学学报(自然科学版),2016,38(2):55-59.