Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable

Polymeric-insulated power cables are often subjected to multiple sources of degradation. Generally, the main cause for electrical breakdown in this type of cable insulation is usually due to the microscopic impurities and defects located in the bulk, or even at the interfaces of the material. When t...

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Main Authors: Ariffin, A.M., Kuan, T.M., Sulaiman, S., Illias, H.A.
Format: Conference Paper
Language:en_US
Published: 2017
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spelling my.uniten.dspace-62372018-03-19T02:59:45Z Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable Ariffin, A.M. Kuan, T.M. Sulaiman, S. Illias, H.A. Polymeric-insulated power cables are often subjected to multiple sources of degradation. Generally, the main cause for electrical breakdown in this type of cable insulation is usually due to the microscopic impurities and defects located in the bulk, or even at the interfaces of the material. When the dielectric is subjected to a high electrical stress, imperfections such as protrusions, contaminants and microvoids, will all act as points where the electric field is enhanced; increasing the likelihood that degradation processes will be initiated. The intensification of electric field within the insulating material can cause localized discharge to occur continuously, and thus tree-like channels can be developed in the long-run. This paper attempts to investigate whether the existence of water tree region can be detected within polymeric-insulated cables, and the proposed method for the detection mechanism is the time domain reflectometry (TDR). When water trees are present within an insulation system, the characteristic impedance of the material also changes so this can cause reflection of signal propagating along the cable. It was found that there is a difference in TDR signals between un-degraded cable and water tree degraded cable. It is hoped that the difference in these time domain signals can actually assist in determining the location where the presence of water trees can be considered as significant. © 2012 IEEE. 2017-12-08T09:12:18Z 2017-12-08T09:12:18Z 2012 Conference Paper 10.1109/CMD.2012.6416367 en_US In Proceedings of 2012 IEEE International Conference on Condition Monitoring and Diagnosis, CMD 2012 (pp. 1163-1166). [6416367]
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/
language en_US
description Polymeric-insulated power cables are often subjected to multiple sources of degradation. Generally, the main cause for electrical breakdown in this type of cable insulation is usually due to the microscopic impurities and defects located in the bulk, or even at the interfaces of the material. When the dielectric is subjected to a high electrical stress, imperfections such as protrusions, contaminants and microvoids, will all act as points where the electric field is enhanced; increasing the likelihood that degradation processes will be initiated. The intensification of electric field within the insulating material can cause localized discharge to occur continuously, and thus tree-like channels can be developed in the long-run. This paper attempts to investigate whether the existence of water tree region can be detected within polymeric-insulated cables, and the proposed method for the detection mechanism is the time domain reflectometry (TDR). When water trees are present within an insulation system, the characteristic impedance of the material also changes so this can cause reflection of signal propagating along the cable. It was found that there is a difference in TDR signals between un-degraded cable and water tree degraded cable. It is hoped that the difference in these time domain signals can actually assist in determining the location where the presence of water trees can be considered as significant. © 2012 IEEE.
format Conference Paper
author Ariffin, A.M.
Kuan, T.M.
Sulaiman, S.
Illias, H.A.
spellingShingle Ariffin, A.M.
Kuan, T.M.
Sulaiman, S.
Illias, H.A.
Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
author_facet Ariffin, A.M.
Kuan, T.M.
Sulaiman, S.
Illias, H.A.
author_sort Ariffin, A.M.
title Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
title_short Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
title_full Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
title_fullStr Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
title_full_unstemmed Application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
title_sort application of time domain reflectometry technique in detecting water tree degradation within polymeric-insulated cable
publishDate 2017
_version_ 1644493881479266304
score 13.214268