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高压电缆接头界面压力测试研究 被引量:19

Determination of the Pressure Distribution at the XLPE Cable-rubber Interface in a Self-pressurized Joint
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摘要 为准确测量高压电缆接头的界面压力以保障接头电气性能良好,设计了橡胶件界面压力测试装置,它采用一个与电缆外径相同的铝质薄壁管,在内部粘贴应变片,用电测法测量橡胶件施加载荷时内壳壁的应变量,再利用有限元分析获得外壁界面压力值。结果表明,设计的测试装置可操作性良好,测试精度满足要求。 The pressure level at the XLPE cable-rubber interface plays a key role in maintaining the electronic properties in high voltage power joints. It has become an important factor of evaluating the performance of power cable joint. Numerous methods to identify the pressure level are still under investigation. In this paper, a hybrid method, which combines experimental and numerical approaches has been proposed to evaluate the pressure distribution at the interface along the cable joint. An aluminum thin-wall hollow cylinder, which has the same outside diameter as the XLPE cable is designed as a dummy power cable. Strain gages are applied to measure the strain magnitude in hoop direction at the inside wall of the cylinder at a number of different locations, while it is stressed at the external surface by the rubber glove. The pressure distribution along the cable is then derived by means of Finite Element Method (FEM) with the known distribution of hoop strain at the inside wall along the cylinder. In our approach, both NASTRAN and ANSYS codes are used to determine the normal stress distribution on the outside surface of the cylinder. The experimental procedures and results are presented in detail. This method provides a new idea to facilitate the evaluation of the pressure at the XLPE cable-rubber interface and is precise enough for engineering acquirement.
出处 《高电压技术》 EI CAS CSCD 北大核心 2007年第1期173-176,共4页 High Voltage Engineering
关键词 电缆接头 压力测试 电阻应变测量 数值计算 有限元法 cable joint pressure testing resistance strain gage numerical calculation FEM
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参考文献18

  • 1Suzuki H,Kobayashi S,Ono T,et al.Development of coldshrinkable joint for 110-kV XLPE cables[J].Furukawa Review,2000,(19):109-114.
  • 2Boggs S,Densley J.Fundamentals of partial discharge in the context of field cable testing[J].IEEE Electrical Insulation Magazine,2000,16(5):13-18.
  • 3Atsushi Toya,Taro Kuramochi,Yasuhiko Aihava,et al.Development of 66 kV compact triplex-type XLPE cable[C].Proceedings of the IEEE Power Engineering Society Transmission and Distribution Conference.ASIA PACIFIC,2002,3:1905-1908.
  • 4张锦秀,蓝耕,范云刚,周先义,李发根,蔡志国,罗彦.带电旁路作业用插拔式快速电缆终端和接头[J].高电压技术,2005,31(5):50-51. 被引量:11
  • 5Mbarga Se-ondoua,Zebouchi N.Space charge distribution in XLPE power cable insulation with pressure effect[C].Proceedings of the International Conference on Electric Charge in Solid Insulators.CSC,1998:612-615.
  • 6Maeno T,Futami T,Kushibe H,et al.Measurement of spatial charge distribution in thick dielectricsusing the pulsed electroacoustic method[J].IEEE Trans on Electrical Insulation,1988,23(3):433-439.
  • 7Wang X,Tu D,Tanaka Y,et al.Space charge in XLPE power cable under dc electrical stress andheat treatment[J].IEEE Trans on Dielectrics and Electrical Insulation,1995,2(3):467-474.
  • 8Fu M,Chen G.Space charge measurement in polymer insulated power cables using flat ground electrode PEA system[J].PIEE Science,Measurement and Technology,2003,150(2):89-96.
  • 9Okamoto G,Yoshikawa N,Inoue Y,et al.Development of self-pressurized joint for 66 kV to 275 kV XLPE cables[J].SEI Technical Review,2001(51):24-29.
  • 10Orhan M H,Dogan C,Kocabas H,et al.Experimental strain analysis of the high pressure strain gauge pressure transducer and verification by using a finite element method[J].Measurement Science and Technology,2001(12):335-344.

二级参考文献17

  • 1张锦秀,蓝耕,范云刚,周先义,李发根,罗彦,蔡志国.柔性电缆插拨式快速终端和接头绝缘结构分析[J].高电压技术,2005,31(1):25-26. 被引量:22
  • 2陈守直,祝丽雯,罗俊华,袁淳智.电缆附件电场有限元计算方法[J].高电压技术,1996,22(3):14-15. 被引量:14
  • 3罗俊华 张丽 膝乐天.电场应力控制锥的数值分析[J].广东电缆技术,2003,(1):8-8.
  • 4盛名良译.关于聚合物电缆终端中的绝缘界面问题[J].广东电缆技术,2003,(3):2-2.
  • 5盛剑霓,电磁场数值分析,1984年
  • 6高应才,数学物理方程及其数值解法,1983年
  • 7刘子玉,电气绝缘结构设计原理.上,1981年
  • 8冯康,数值计算方法,1978年
  • 9IEC60502:1997,Power Cables with Extruded Insulation and Their Accessories for Rated Voltages from 1 kV(Um=1.2kV)up to 30 kV (Um=36 kV) First Eclltlon[S].1997.
  • 10GB/T12706.额定电压下1kv(Um=1.2kV)的35kV(Um=40.5kV)挤包绝缘电力电缆及附件[S].[S].,2003..

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引证文献19

二级引证文献132

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