Analysis of Leakage Current on 11kV Zinc Oxide Surge Arrester Using Finite Element Method-Reference-Cited by-同舟云学术

Analysis of Leakage Current on 11kV Zinc Oxide Surge Arrester Using Finite Element Method

Published:2015-08 Issue: Volume:785 Page:348-352
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Abdul Latiff Nurul Ain¹,Illias Hazlee Azil¹,Abu Bakar Ab Halim²

Affiliation:

1. University of Malaya

2. Wisma R&D University of Malaya

Abstract

Leakage current is known to be directly related to the degree of degradation of arrester. Leakage current is commonly flow across arrester under non-conducting condition. In this work, a two-dimensional (2D) axial-symmetrical 11kV surge arrester model was developed and used to simulate the leakage current under normal condition. The influence of insulator shed widths, housing materials and sizes of ZnO in an 11kV ZnO surge arrester design on its leakage current was studied using finite element method (FEM) software, which is COMSOL Multiphysics. The simulation results show that leakage current is mostly affected by the sizes of the ZnO and material of the housing. From this work, an understanding on the leakage current behaviors in a ZnO surge arrester can be enhanced. This study may also help in improving the design of surge arresters in reducing leakage current.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.785.348.pdf

Reference8 articles.

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3. Abdul-Malek, Z., Novizon, and Aulia. A new method to extract the resistive component of the metal oxide surge arrester leakage current. in IEEE 2nd International Power and Energy Conference, (2008).

4. Christodoulou, C.A., et al., Measurement of the resistive leakage current in surge arresters under artificial rain test and impulse voltage subjection. IET Science, Measurement & Technology, 2009. 3(3): pp.256-262.

5. Lundquist, J., et al., New method for measurement of the resistive leakage currents of metal-oxide surge arresters in service. IEEE Transactions on Power Delivery, 1990. 5(4): pp.1811-1822.

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