Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics

Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics

The main contribution of the presented paper is to investigate the influence of the Dielectric Inhomogeneity Factor on the electrical tree evolution in solid dielectrics using cellular automata. We have a sample of the XLPE which is located between needle-to-plane electrodes under DC voltage. The el...

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Main Authors: Hemza Medoukali, Mossadek Guibadj, Boubaker Zegnini
Format: Article
Language:English
Published: VSB-Technical University of Ostrava 2016-01-01
Series:Advances in Electrical and Electronic Engineering
Subjects:
cellular automata
cross-linked polyethylene
dielectric inhomogeneity factor
electrical tree
laplace's equation.
Online Access:http://advances.utc.sk/index.php/AEEE/article/view/1789
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spelling doaj-95c5e4242bab49d48505cffbe02bc7742021-10-11T08:03:06ZengVSB-Technical University of OstravaAdvances in Electrical and Electronic Engineering1336-13761804-31192016-01-0114549850510.15598/aeee.v14i5.1789850Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid DielectricsHemza Medoukali0Mossadek Guibadj1Boubaker Zegnini2Laboratory of Studies and Development of Semiconductor and Dielectric Materials, LeDMaScD, University Amar Telidji of Laghouat, BP 37G route of Ghardaïa, Laghouat 03000, Algeria.Laboratory of Studies and Development of Semiconductor and Dielectric Materials, LeDMaScD, University Amar Telidji of Laghouat, BP 37G route of Ghardaïa, Laghouat 03000, Algeria.Laboratory of Studies and Development of Semiconductor and Dielectric Materials, LeDMaScD, University Amar Telidji of Laghouat, BP 37G route of Ghardaïa, Laghouat 03000, Algeria.The main contribution of the presented paper is to investigate the influence of the Dielectric Inhomogeneity Factor on the electrical tree evolution in solid dielectrics using cellular automata. We have a sample of the XLPE which is located between needle-to-plane electrodes under DC voltage. The electrical tree emanates from the end of the needle in which the electric stress attains a dielectric strength of the material. At every time step, Laplace's equation is solved to calculate the potential distribution which changes according to electrical tree development. Dynamic simulations clearly demonstrate the influence of the range of the Dielectric Inhomogeneity Factor on the electrical tree growth. Simulation results confirm the published technical literature.http://advances.utc.sk/index.php/AEEE/article/view/1789cellular automatacross-linked polyethylenedielectric inhomogeneity factorelectrical treelaplace's equation.
collection DOAJ
language English
format Article
sources DOAJ
author Hemza Medoukali
Mossadek Guibadj
Boubaker Zegnini
spellingShingle Hemza Medoukali
Mossadek Guibadj
Boubaker Zegnini
Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
Advances in Electrical and Electronic Engineering
cellular automata
cross-linked polyethylene
dielectric inhomogeneity factor
electrical tree
laplace's equation.
author_facet Hemza Medoukali
Mossadek Guibadj
Boubaker Zegnini
author_sort Hemza Medoukali
title Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
title_short Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
title_full Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
title_fullStr Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
title_full_unstemmed Effect of the Dielectric Inhomogeneity Factor's Range on the Electrical Tree Evolution in Solid Dielectrics
title_sort effect of the dielectric inhomogeneity factor's range on the electrical tree evolution in solid dielectrics
publisher VSB-Technical University of Ostrava
series Advances in Electrical and Electronic Engineering
issn 1336-1376
1804-3119
publishDate 2016-01-01
description The main contribution of the presented paper is to investigate the influence of the Dielectric Inhomogeneity Factor on the electrical tree evolution in solid dielectrics using cellular automata. We have a sample of the XLPE which is located between needle-to-plane electrodes under DC voltage. The electrical tree emanates from the end of the needle in which the electric stress attains a dielectric strength of the material. At every time step, Laplace's equation is solved to calculate the potential distribution which changes according to electrical tree development. Dynamic simulations clearly demonstrate the influence of the range of the Dielectric Inhomogeneity Factor on the electrical tree growth. Simulation results confirm the published technical literature.
topic cellular automata
cross-linked polyethylene
dielectric inhomogeneity factor
electrical tree
laplace's equation.
url http://advances.utc.sk/index.php/AEEE/article/view/1789
work_keys_str_mv AT hemzamedoukali effectofthedielectricinhomogeneityfactorsrangeontheelectricaltreeevolutioninsoliddielectrics
AT mossadekguibadj effectofthedielectricinhomogeneityfactorsrangeontheelectricaltreeevolutioninsoliddielectrics
AT boubakerzegnini effectofthedielectricinhomogeneityfactorsrangeontheelectricaltreeevolutioninsoliddielectrics
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