Modelling the conduction mechanisms in low density polyethylene material using finite element method

Authors

  • Mai Quyen Hoang, Manh Quan Nguyen
  • Vũ Thị Thu Nga*
  • Severine Le Roy

Keywords:

conduction mechanisms, FEM, LDPE, space charge

Abstract

Polymers used as insulating materials are increasingly popular in many different fields. In electrical engineering - electronics, polymers are used in high-voltage transmission cables, capacitors, transformers, or as part of an embedded system in the IGBT module thanks to its superior thermal and electrical insulation properties. One of the disadvantages of polymers is the possible accumulation of space charge in the material volume for a long time, leading to an increase in the electric field compared to the original design value. Charge transport models in polymer materials have been increasingly developed to predict the conduction mechanisms under thermal-electrical stress. In this study, from a finite volume method (FVM), the authors developed a charge transport model in low density polyethylene (LDPE) based on the finite element method (FEM). The simulation results of this model are also compared to experimental results and to the FVM model under different electric fields for LDPE.

DOI:

https://doi.org/10.31276/VJST.63(1).27-33

Classification number

2.2

Author Biographies

Mai Quyen Hoang, Manh Quan Nguyen

Faculty of Electrical Engineering, Hanoi University of Industry

Vũ Thị Thu Nga*

Faculty of Electrical Engineering, Electric Power University

Severine Le Roy

National Centre for Scientific Research, French

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Published

2021-01-29

Received 20 July 2020; accepted 28 August 2020

How to Cite

Hoang Mai Quyen, Nguyen Manh Quan, Vu Thi Thu Nga*, & Severine Le Roy. (2021). Modelling the conduction mechanisms in low density polyethylene material using finite element method . Version B of Vietnam Journal of Science and Technology, 63(1). https://doi.org/10.31276/VJST.63(1).27-33

Issue

Section

Engineering and Technology