Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable

There are many methods that have been studied by earlier researchers in order to detect the acoustic properties of Partial Discharge (PD) emitted by PD sources. One of the methods known as ultrasonic sensing on medium voltage Cross-Linked Polyethylene (XLPE) cable was adopted to detect partial disch...

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Main Authors: Radzi I.F., Nik Ali N.H., Rameli N., Mohd Ariffin A., Abd Rahman M.S., Ahmad M.R., Salleh A.S.
Other Authors: 57211414652
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Published: Institute of Advanced Engineering and Science 2023
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spelling my.uniten.dspace-249312023-05-29T15:29:03Z Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable Radzi I.F. Nik Ali N.H. Rameli N. Mohd Ariffin A. Abd Rahman M.S. Ahmad M.R. Salleh A.S. 57211414652 57196922007 55513698100 16400722400 36609854400 55456461200 57211410427 There are many methods that have been studied by earlier researchers in order to detect the acoustic properties of Partial Discharge (PD) emitted by PD sources. One of the methods known as ultrasonic sensing on medium voltage Cross-Linked Polyethylene (XLPE) cable was adopted to detect partial discharges on commercial applications, usually by using Acoustic Emission (AE) sensors. This paper presents the processes of designing a PD sensor to detect the acoustic properties of the partial discharges on medium voltage XLPE cable. This PD sensor method works by detecting the partial discharges occurred at the joint of the cable which can act as an early warning device to help minimize the repair and maintenance costs of degrading cable. Result of the experiment shows the complete design of the prototype device, the device after fabrication and the functionality of the device. This design of the prototype can be beneficial for future uses in designing cost efficient and smaller sized PD detection devices. By positioning the sensor in horizontal position directly to the source of PD on the cable, the sensor will be able to detect acoustic properties of PD, by picking up the frequencies beyond 40 kHz. By varying the voltage applied values, a design of experiment (DOE) is carried out accordingly. Result of the experiment shows that the prototype device is functioning as expected, and hence this finding will be very useful to the consumers of power industries as the sensor device can serve as an alternative device to the commercialized PD sensing devices which are bulky and expensive. Copyright � 2020 Institute of Advanced Engineering and Science. All rights reserved. Final 2023-05-29T07:29:03Z 2023-05-29T07:29:03Z 2019 Article 10.11591/ijeecs.v17.i2.pp886-894 2-s2.0-85073826292 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073826292&doi=10.11591%2fijeecs.v17.i2.pp886-894&partnerID=40&md5=31bd8cb08d3643b1e0e1b8d573e2d75d https://irepository.uniten.edu.my/handle/123456789/24931 17 2 886 894 All Open Access, Gold, Green Institute of Advanced Engineering and Science Scopus
institution Universiti Tenaga Nasional
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description There are many methods that have been studied by earlier researchers in order to detect the acoustic properties of Partial Discharge (PD) emitted by PD sources. One of the methods known as ultrasonic sensing on medium voltage Cross-Linked Polyethylene (XLPE) cable was adopted to detect partial discharges on commercial applications, usually by using Acoustic Emission (AE) sensors. This paper presents the processes of designing a PD sensor to detect the acoustic properties of the partial discharges on medium voltage XLPE cable. This PD sensor method works by detecting the partial discharges occurred at the joint of the cable which can act as an early warning device to help minimize the repair and maintenance costs of degrading cable. Result of the experiment shows the complete design of the prototype device, the device after fabrication and the functionality of the device. This design of the prototype can be beneficial for future uses in designing cost efficient and smaller sized PD detection devices. By positioning the sensor in horizontal position directly to the source of PD on the cable, the sensor will be able to detect acoustic properties of PD, by picking up the frequencies beyond 40 kHz. By varying the voltage applied values, a design of experiment (DOE) is carried out accordingly. Result of the experiment shows that the prototype device is functioning as expected, and hence this finding will be very useful to the consumers of power industries as the sensor device can serve as an alternative device to the commercialized PD sensing devices which are bulky and expensive. Copyright � 2020 Institute of Advanced Engineering and Science. All rights reserved.
author2 57211414652
author_facet 57211414652
Radzi I.F.
Nik Ali N.H.
Rameli N.
Mohd Ariffin A.
Abd Rahman M.S.
Ahmad M.R.
Salleh A.S.
format Article
author Radzi I.F.
Nik Ali N.H.
Rameli N.
Mohd Ariffin A.
Abd Rahman M.S.
Ahmad M.R.
Salleh A.S.
spellingShingle Radzi I.F.
Nik Ali N.H.
Rameli N.
Mohd Ariffin A.
Abd Rahman M.S.
Ahmad M.R.
Salleh A.S.
Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
author_sort Radzi I.F.
title Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
title_short Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
title_full Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
title_fullStr Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
title_full_unstemmed Partial discharge detection device using ultrasonic sensor on medium voltage XLPE cable
title_sort partial discharge detection device using ultrasonic sensor on medium voltage xlpe cable
publisher Institute of Advanced Engineering and Science
publishDate 2023
_version_ 1806426659198337024
score 13.214268