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Methods to estimate electric field stress ratios within water tree structures in polymeric cables

Water treeing is a phenomenon whereby the polymeric cable suffers serious degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cable. A high electrical field stress present at the tip of a water tree structure would degrade the surrounding heal...

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Main Authors: Sulaiman S., Zainal Abidin I.
Other Authors: 36562570400
Format: Conference paper
Published: 2023
Subjects:
Electric field
Finite element
Neural network
Permittivity
Water treeing
Backpropagation
Cables
Computer software
Electric fields
Electric insulation
Finite element method
Intelligent systems
Neural networks
Polymers
Sustainable development
Combined stress
Electric field stress
Electrical field
Electrical treeing
Finite element neural networks
Finite element software
Life span
Maximum electric field
Measured data
Optimisations
Polymeric cables
Polymeric insulation
Time savings
Water trees
Electric field measurement
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id my.uniten.dspace-29686
record_format dspace
spelling my.uniten.dspace-296862023-12-28T15:30:46Z Methods to estimate electric field stress ratios within water tree structures in polymeric cables Sulaiman S. Zainal Abidin I. 36562570400 35606640500 Electric field Finite element Neural network Permittivity Water treeing Backpropagation Cables Computer software Electric fields Electric insulation Finite element method Intelligent systems Neural networks Permittivity Polymers Sustainable development Combined stress Electric field stress Electrical field Electrical treeing Finite element Finite element neural networks Finite element software Life span Maximum electric field Measured data Optimisations Polymeric cables Polymeric insulation Time savings Water treeing Water trees Electric field measurement Water treeing is a phenomenon whereby the polymeric cable suffers serious degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cable. A high electrical field stress present at the tip of a water tree structure would degrade the surrounding healthy polymeric insulation, leading to electrical treeing and subsequent breakdown of the water tree affected polymeric cable. This paper aims at proposing methods to estimate the electric field stress ratios of water tree structures present in the insulation of water tree affected polymeric cables. The capacitances and lengths of water tree structures present the insulation were measured in water tree affected polymeric samples over a period. The measured data were then used in the proposed methodology to estimate the maximum electric field stress ratios present at the tips of the water tree structures, using electrostatic finite element software. A database of the electric field stress ratios was compiled and subsequently fed into the neural network's back propagation process. With the optimisation of weights in the neural network's back propagation process, an averaged error of less than 5% was found. This newly developed intelligent system provides a simple, time saving and practical way of obtaining electric field ratios. �2009 IEEE. Final 2023-12-28T07:30:46Z 2023-12-28T07:30:46Z 2009 Conference paper 10.1109/ICEENVIRON.2009.5398638 2-s2.0-77949571929 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77949571929&doi=10.1109%2fICEENVIRON.2009.5398638&partnerID=40&md5=cce47287d00e7a3406588ff844726e9d https://irepository.uniten.edu.my/handle/123456789/29686 5398638 262 265 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Electric field
Finite element
Neural network
Permittivity
Water treeing
Backpropagation
Cables
Computer software
Electric fields
Electric insulation
Finite element method
Intelligent systems
Neural networks
Permittivity
Polymers
Sustainable development
Combined stress
Electric field stress
Electrical field
Electrical treeing
Finite element
Finite element neural networks
Finite element software
Life span
Maximum electric field
Measured data
Optimisations
Polymeric cables
Polymeric insulation
Time savings
Water treeing
Water trees
Electric field measurement
spellingShingle Electric field
Finite element
Neural network
Permittivity
Water treeing
Backpropagation
Cables
Computer software
Electric fields
Electric insulation
Finite element method
Intelligent systems
Neural networks
Permittivity
Polymers
Sustainable development
Combined stress
Electric field stress
Electrical field
Electrical treeing
Finite element
Finite element neural networks
Finite element software
Life span
Maximum electric field
Measured data
Optimisations
Polymeric cables
Polymeric insulation
Time savings
Water treeing
Water trees
Electric field measurement
Sulaiman S.
Zainal Abidin I.
Methods to estimate electric field stress ratios within water tree structures in polymeric cables
description Water treeing is a phenomenon whereby the polymeric cable suffers serious degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cable. A high electrical field stress present at the tip of a water tree structure would degrade the surrounding healthy polymeric insulation, leading to electrical treeing and subsequent breakdown of the water tree affected polymeric cable. This paper aims at proposing methods to estimate the electric field stress ratios of water tree structures present in the insulation of water tree affected polymeric cables. The capacitances and lengths of water tree structures present the insulation were measured in water tree affected polymeric samples over a period. The measured data were then used in the proposed methodology to estimate the maximum electric field stress ratios present at the tips of the water tree structures, using electrostatic finite element software. A database of the electric field stress ratios was compiled and subsequently fed into the neural network's back propagation process. With the optimisation of weights in the neural network's back propagation process, an averaged error of less than 5% was found. This newly developed intelligent system provides a simple, time saving and practical way of obtaining electric field ratios. �2009 IEEE.
author2 36562570400
author_facet 36562570400
Sulaiman S.
Zainal Abidin I.
format Conference paper
author Sulaiman S.
Zainal Abidin I.
author_sort Sulaiman S.
title Methods to estimate electric field stress ratios within water tree structures in polymeric cables
title_short Methods to estimate electric field stress ratios within water tree structures in polymeric cables
title_full Methods to estimate electric field stress ratios within water tree structures in polymeric cables
title_fullStr Methods to estimate electric field stress ratios within water tree structures in polymeric cables
title_full_unstemmed Methods to estimate electric field stress ratios within water tree structures in polymeric cables
title_sort methods to estimate electric field stress ratios within water tree structures in polymeric cables
publishDate 2023
_version_ 1806427573336408064
score 13.19449

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