Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method

Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method

In order to study the thermo-mechanical effect of large-size cables, the thermal-structural coupling model is established to calculate the stress and deformation of the cables based on finite element method. According to the model, the distribution characteristics of temperature, stress and deformat...

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Main Authors: Li Shengchong, Wang Fujue, Ma Hongzhong, Xu Honghua, Wang Chunning
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20187201003
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spelling doaj-3edde71fc8d741b8943d9410d8457b482021-04-02T11:27:52ZengEDP SciencesE3S Web of Conferences2267-12422018-01-01720100310.1051/e3sconf/20187201003e3sconf_ceege2018_01003Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element MethodLi Shengchong0Wang Fujue1Ma Hongzhong2Xu Honghua3Wang Chunning4College of Energy and Electrical Engineering, Hohai UniversityCollege of Energy and Electrical Engineering, Hohai UniversityCollege of Energy and Electrical Engineering, Hohai UniversityState Grid Nanjing Power Supply CompanyState Grid Nanjing Power Supply CompanyIn order to study the thermo-mechanical effect of large-size cables, the thermal-structural coupling model is established to calculate the stress and deformation of the cables based on finite element method. According to the model, the distribution characteristics of temperature, stress and deformation are analysed in this paper. It turns out that, the maximum stress appears in metal sheath and the largest axial deformation in insulation layer. By means of curve fitting, a quick formula is proposed to calculate the stress on metal sheath and the axial deformation of conductor. Finally, its influence on insulation is studied by the simulation of electric field. The results show that, the electric field strength on the surface of insulation layer increases significantly under this circumstance, leading to the occurrence of partial discharge.https://doi.org/10.1051/e3sconf/20187201003
collection DOAJ
language English
format Article
sources DOAJ
author Li Shengchong
Wang Fujue
Ma Hongzhong
Xu Honghua
Wang Chunning
spellingShingle Li Shengchong
Wang Fujue
Ma Hongzhong
Xu Honghua
Wang Chunning
Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
E3S Web of Conferences
author_facet Li Shengchong
Wang Fujue
Ma Hongzhong
Xu Honghua
Wang Chunning
author_sort Li Shengchong
title Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
title_short Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
title_full Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
title_fullStr Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
title_full_unstemmed Research on the Thermo-mechanical Effect of Large-size Cables and its Influence on Insulation Based on Finite Element Method
title_sort research on the thermo-mechanical effect of large-size cables and its influence on insulation based on finite element method
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2018-01-01
description In order to study the thermo-mechanical effect of large-size cables, the thermal-structural coupling model is established to calculate the stress and deformation of the cables based on finite element method. According to the model, the distribution characteristics of temperature, stress and deformation are analysed in this paper. It turns out that, the maximum stress appears in metal sheath and the largest axial deformation in insulation layer. By means of curve fitting, a quick formula is proposed to calculate the stress on metal sheath and the axial deformation of conductor. Finally, its influence on insulation is studied by the simulation of electric field. The results show that, the electric field strength on the surface of insulation layer increases significantly under this circumstance, leading to the occurrence of partial discharge.
url https://doi.org/10.1051/e3sconf/20187201003
work_keys_str_mv AT lishengchong researchonthethermomechanicaleffectoflargesizecablesanditsinfluenceoninsulationbasedonfiniteelementmethod
AT wangfujue researchonthethermomechanicaleffectoflargesizecablesanditsinfluenceoninsulationbasedonfiniteelementmethod
AT mahongzhong researchonthethermomechanicaleffectoflargesizecablesanditsinfluenceoninsulationbasedonfiniteelementmethod
AT xuhonghua researchonthethermomechanicaleffectoflargesizecablesanditsinfluenceoninsulationbasedonfiniteelementmethod
AT wangchunning researchonthethermomechanicaleffectoflargesizecablesanditsinfluenceoninsulationbasedonfiniteelementmethod
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