Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking
Power transformer consists of components which are under consistent thermal and electrical stresses. The major component which degrades under these stresses is the paper insulation of the power transformer. The electrical fault can develop into thermal fault such as localized insulation burning or h...
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my.uniten.dspace-305942023-12-29T15:49:59Z Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking Samsudin M.R. Ramli A.Q. Berhanuddin A. Yang Y.Z. 35410298500 35779000400 35777444200 52664733400 Arcing Dissolved Gas Analysis On Load Tap Changer (OLTC) Partial Discharge Discharge (fluid mechanics) Dissolution Electric fault location Electric power systems Fault detection Gas chromatography Partial discharges Power transmission Surface discharges Thermal insulation Voltage control Arcing Choking effects Dissolved gas analysis Dissolved-gas-analysis techniques Electrical faults Electrical stress Hotspots Incipient fault detection Incipient faults On-load tap changers Paper insulation Partial discharge measurements Sharp edges Surface tracking Thermal faults Power transformers Power transformer consists of components which are under consistent thermal and electrical stresses. The major component which degrades under these stresses is the paper insulation of the power transformer. The electrical fault can develop into thermal fault such as localized insulation burning or hot-spots. Any fault in the transformer can be detected by using Dissolved Gas Analysis technique. In this paper, the detection of electrical and thermal faults in 14 units of 33/11kV, 30 MVA and 15MVA transformers were done by using Dissolved Gas Analysis (DGA). Then, the acoustic partial discharge test was carried out to detect the activity and locate the source of the electrical fault. All the transformers were untanked and the inspection was done. From the inspection done, there were a few incipient faults detected such as overheating due to loose connection, sharp edges, insulation burning, choking effect due to moisture and surface tracking in On-Load Tap Changer (OLTC) compartment. As a conclusion, the combination of the acoustic partial discharge technique and DGA technique have proved to be a useful tool in detecting and locating incipient faults in the power transformer. � 2011 Institute of Electrical Power. Final 2023-12-29T07:49:59Z 2023-12-29T07:49:59Z 2010 Conference paper 2-s2.0-80053102406 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80053102406&partnerID=40&md5=05452646b918430c372da1d2f9f58fe7 https://irepository.uniten.edu.my/handle/123456789/30594 6007229 Scopus |
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Arcing Dissolved Gas Analysis On Load Tap Changer (OLTC) Partial Discharge Discharge (fluid mechanics) Dissolution Electric fault location Electric power systems Fault detection Gas chromatography Partial discharges Power transmission Surface discharges Thermal insulation Voltage control Arcing Choking effects Dissolved gas analysis Dissolved-gas-analysis techniques Electrical faults Electrical stress Hotspots Incipient fault detection Incipient faults On-load tap changers Paper insulation Partial discharge measurements Sharp edges Surface tracking Thermal faults Power transformers |
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Arcing Dissolved Gas Analysis On Load Tap Changer (OLTC) Partial Discharge Discharge (fluid mechanics) Dissolution Electric fault location Electric power systems Fault detection Gas chromatography Partial discharges Power transmission Surface discharges Thermal insulation Voltage control Arcing Choking effects Dissolved gas analysis Dissolved-gas-analysis techniques Electrical faults Electrical stress Hotspots Incipient fault detection Incipient faults On-load tap changers Paper insulation Partial discharge measurements Sharp edges Surface tracking Thermal faults Power transformers Samsudin M.R. Ramli A.Q. Berhanuddin A. Yang Y.Z. Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
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Power transformer consists of components which are under consistent thermal and electrical stresses. The major component which degrades under these stresses is the paper insulation of the power transformer. The electrical fault can develop into thermal fault such as localized insulation burning or hot-spots. Any fault in the transformer can be detected by using Dissolved Gas Analysis technique. In this paper, the detection of electrical and thermal faults in 14 units of 33/11kV, 30 MVA and 15MVA transformers were done by using Dissolved Gas Analysis (DGA). Then, the acoustic partial discharge test was carried out to detect the activity and locate the source of the electrical fault. All the transformers were untanked and the inspection was done. From the inspection done, there were a few incipient faults detected such as overheating due to loose connection, sharp edges, insulation burning, choking effect due to moisture and surface tracking in On-Load Tap Changer (OLTC) compartment. As a conclusion, the combination of the acoustic partial discharge technique and DGA technique have proved to be a useful tool in detecting and locating incipient faults in the power transformer. � 2011 Institute of Electrical Power. |
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35410298500 |
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35410298500 Samsudin M.R. Ramli A.Q. Berhanuddin A. Yang Y.Z. |
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Conference paper |
author |
Samsudin M.R. Ramli A.Q. Berhanuddin A. Yang Y.Z. |
author_sort |
Samsudin M.R. |
title |
Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
title_short |
Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
title_full |
Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
title_fullStr |
Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
title_full_unstemmed |
Incipient fault detection in 33/11kV power transformers by using combined Dissolved Gas Analysis technique and acoustic partial discharge measurement and validated through untanking |
title_sort |
incipient fault detection in 33/11kv power transformers by using combined dissolved gas analysis technique and acoustic partial discharge measurement and validated through untanking |
publishDate |
2023 |
_version_ |
1806428381671063552 |
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13.214268 |