[Oral Presentation]Simulation of Cable Joint Temperature of Distribution Network Based on Contact Effect and Gap Defects

Simulation of Cable Joint Temperature of Distribution Network Based on Contact Effect and Gap Defects

ID：83 Submission ID：1692 View Protection：ATTENDEE Updated Time：2020-10-29 21:09:06 Hits：305 Oral Presentation

Start Time：2020-11-03 09:45 （Asia/Shanghai）

Duration：15min

Session：[D] High Voltage and Insulation Technology » [D2] Session 14 and Session 19

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Abstract

Cable joint is the concentrated part of faults in cable lines. The anomaly temperature distribution caused by contact resistance and structure defects is one of the primary causes. With complex structures, poor installation and defects can lead to abrupt changes in temperature distribution, which will accelerate insulation aging and reduce insulating performance. Nowadays, the influence of cable joint installation on temperature field is not thoroughly studied, standards and theories for guidance are relatively scarce, which poses great challenges to the installation of cable joint. In this paper, finite element simulation was used to simulate the temperature field of cable joints in distribution network, effects and mechanism of crimping ratio, butting ratio and gap defects on temperature field are studied. Conclusion is obtained that high crimping ratio and butting ratio should be guaranteed and air gap defects should be prevented during the installation of cable joint, providing reference and guidance for the installation of cable joint.

Keywords

cable joint;contact effect;gap defects;simulation;temperature field

Speaker

Luo Simin

Guangzhou Power Supply Bureau Co. LTD

Simin Luo was born in China. He received the master's degree in high voltage and insulation technology from Wuhan University, Wuhan, China. He works in Guangzhou Power Supply Bureau Co. LTD and his research interest is distribution network operation. The email address is 81157183@qq.com.

Submission Author

Luo Simin Guangzhou Power Supply Bureau Co. LTD