Design technique for leakage current reduction in surge arrester using gravitational search algorithm and imperialist competitive algorithm

Purpose Leakage current is one of the factors, which can contribute towards degradation of surge arresters. Thus, the purpose of this paper is to study on leakage current within surge arresters and improvement on their design. Design/methodology/approach In this work, a three-dimensional model geome...

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Bibliographic Details
Published in:Compel 2018-01, Vol.37 (1), p.357-374
Main Authors: Abdul Latiff, Nurul Ain, Illias, Hazlee Azil, Abu Bakar, Ab Halim, Abd Halim, Syahirah, Dabbak, Sameh Ziad
Format: Article
Language:English
Subjects:
Algorithms
Boundary conditions
Computational mathematics
Computer simulation
Design
Design improvements
Design optimization
Electric currents
Electric fields
Electrical engineering
Evolutionary algorithms
Finite element analysis
Finite element method
Geometry
Gravitation
Heat transfer
Humidity
Leakage
Leakage current
Mathematical analysis
Methods
Parameter estimation
Partial differential equations
Permittivity
Search algorithms
Silicone rubber
Silicones
Studies
Surge arresters
Surge protectors
Three dimensional models
Zinc oxide
Zinc oxides
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Summary:Purpose Leakage current is one of the factors, which can contribute towards degradation of surge arresters. Thus, the purpose of this paper is to study on leakage current within surge arresters and improvement on their design. Design/methodology/approach In this work, a three-dimensional model geometry of 11 kV zinc oxide surge arrester was designed in finite element analysis and was applied to calculate the leakage current under normal operating condition and being verified with measurement results. The optimisation methods were used to improve the arrester design by minimising the leakage current across the arrester using imperialist competitive algorithm (ICA) and gravitational search algorithm (GSA). Findings The arrester design in reducing leakage current was successfully optimised by varying the glass permittivity, silicone rubber permittivity and the width of the ground terminal of the surge arrester. It was found that the surge arrester design obtained using ICA has lower leakage current than GSA and the original design of the surge arrester. Practical implications The comparison between measurement and simulation enables factors that affect the mechanism of leakage current in surge arresters to be identified and provides the ideal design of arrester. Originality/value Surge arrester design was optimised by ICA and GSA, which has never been applied in past works in designing surge arrester with minimum leakage current.
ISSN:0332-1649
2054-5606
DOI:10.1108/COMPEL-03-2017-0116