In-depth exploration of partial discharge modelling methods within insulations
Partial discharge (PD) activities are the essential contributor of insulation failure, which constitute more than 60% for damaging high voltage equipment. This article presents a critical review on the modelling of partial discharge using different techniques. Monitoring partial discharge activities...
Main Authors: | , , , , , , |
---|---|
Format: | Article |
Language: | English |
Published: |
Elsevier Ltd
2022
|
Subjects: | |
Online Access: | http://eprints.utm.my/103234/1/ZulkurnainAbdulMalek2022_InDepthExplorationofPartialDischargeModelling.pdf |
_version_ | 1796867420991782912 |
---|---|
author | Afrouzi, Hadi Nabipour Hassan, Ateeb Chee, Daphne Tay Ye Mehranzamir, Kamyar Abdul Malek, Zulkurnain Mashak, Saeed Vahabi Ahmed, Jubaer |
author_facet | Afrouzi, Hadi Nabipour Hassan, Ateeb Chee, Daphne Tay Ye Mehranzamir, Kamyar Abdul Malek, Zulkurnain Mashak, Saeed Vahabi Ahmed, Jubaer |
author_sort | Afrouzi, Hadi Nabipour |
collection | ePrints |
description | Partial discharge (PD) activities are the essential contributor of insulation failure, which constitute more than 60% for damaging high voltage equipment. This article presents a critical review on the modelling of partial discharge using different techniques. Monitoring partial discharge activities is essential to enhance the comprehension on the phenomena of partial discharge through modelling process. A lot of tools have been introduced to assist PD measurement in diagnosing and monitoring the condition of high voltage insulation system. This article will evaluate the development of important PD models such as three-capacitance model, Pedersen's model, Finite Element model (FEA), and Niemeyer's model. This review attested that the research studies done on partial discharge are still deficient and there are still countless of study on partial discharge to be carried out. The parameters that have influence on partial discharge occurrence inside cavities in solid dielectric materials are statistical time lag, inception field, effective charge decay time constant, and cavity surface time constant. The initial free electron required for the existence of a PD is provided by the electron surface emission and volume ionization with the cavity while applied voltage's amplitude and frequency are the stress conditions affecting PD behavior in cavities as well as cavity's size, shape, and location. A Comparison regarding modeling time and accuracy of the model between different models of partial discharge have been done in this article. From where it can be concluded that the FEM and Niemeyer's model are suitable for PD due to their average cost and low degree of application, but FEM is commonly used because it is more accurate and easiest model. Moreover, from a comparison of advantages and limitations of different models, it is shown that FEM model has one major limitation that the large amount of data is required during meshing process. Besides, Niemeyer's model is not accurate due to the fundamental assumptions made and these assumptions are not clearly justified with high reliance over immeasurable free parameters. |
first_indexed | 2024-03-05T21:26:59Z |
format | Article |
id | utm.eprints-103234 |
institution | Universiti Teknologi Malaysia - ePrints |
language | English |
last_indexed | 2024-03-05T21:26:59Z |
publishDate | 2022 |
publisher | Elsevier Ltd |
record_format | dspace |
spelling | utm.eprints-1032342023-10-24T09:53:51Z http://eprints.utm.my/103234/ In-depth exploration of partial discharge modelling methods within insulations Afrouzi, Hadi Nabipour Hassan, Ateeb Chee, Daphne Tay Ye Mehranzamir, Kamyar Abdul Malek, Zulkurnain Mashak, Saeed Vahabi Ahmed, Jubaer TK Electrical engineering. Electronics Nuclear engineering Partial discharge (PD) activities are the essential contributor of insulation failure, which constitute more than 60% for damaging high voltage equipment. This article presents a critical review on the modelling of partial discharge using different techniques. Monitoring partial discharge activities is essential to enhance the comprehension on the phenomena of partial discharge through modelling process. A lot of tools have been introduced to assist PD measurement in diagnosing and monitoring the condition of high voltage insulation system. This article will evaluate the development of important PD models such as three-capacitance model, Pedersen's model, Finite Element model (FEA), and Niemeyer's model. This review attested that the research studies done on partial discharge are still deficient and there are still countless of study on partial discharge to be carried out. The parameters that have influence on partial discharge occurrence inside cavities in solid dielectric materials are statistical time lag, inception field, effective charge decay time constant, and cavity surface time constant. The initial free electron required for the existence of a PD is provided by the electron surface emission and volume ionization with the cavity while applied voltage's amplitude and frequency are the stress conditions affecting PD behavior in cavities as well as cavity's size, shape, and location. A Comparison regarding modeling time and accuracy of the model between different models of partial discharge have been done in this article. From where it can be concluded that the FEM and Niemeyer's model are suitable for PD due to their average cost and low degree of application, but FEM is commonly used because it is more accurate and easiest model. Moreover, from a comparison of advantages and limitations of different models, it is shown that FEM model has one major limitation that the large amount of data is required during meshing process. Besides, Niemeyer's model is not accurate due to the fundamental assumptions made and these assumptions are not clearly justified with high reliance over immeasurable free parameters. Elsevier Ltd 2022 Article PeerReviewed application/pdf en http://eprints.utm.my/103234/1/ZulkurnainAbdulMalek2022_InDepthExplorationofPartialDischargeModelling.pdf Afrouzi, Hadi Nabipour and Hassan, Ateeb and Chee, Daphne Tay Ye and Mehranzamir, Kamyar and Abdul Malek, Zulkurnain and Mashak, Saeed Vahabi and Ahmed, Jubaer (2022) In-depth exploration of partial discharge modelling methods within insulations. Cleaner Engineering and Technology, 6 (NA). pp. 1-13. ISSN 2666-7908 http://dx.doi.org/10.1016/j.clet.2021.100390 DOI : 10.1016/j.clet.2021.100390 |
spellingShingle | TK Electrical engineering. Electronics Nuclear engineering Afrouzi, Hadi Nabipour Hassan, Ateeb Chee, Daphne Tay Ye Mehranzamir, Kamyar Abdul Malek, Zulkurnain Mashak, Saeed Vahabi Ahmed, Jubaer In-depth exploration of partial discharge modelling methods within insulations |
title | In-depth exploration of partial discharge modelling methods within insulations |
title_full | In-depth exploration of partial discharge modelling methods within insulations |
title_fullStr | In-depth exploration of partial discharge modelling methods within insulations |
title_full_unstemmed | In-depth exploration of partial discharge modelling methods within insulations |
title_short | In-depth exploration of partial discharge modelling methods within insulations |
title_sort | in depth exploration of partial discharge modelling methods within insulations |
topic | TK Electrical engineering. Electronics Nuclear engineering |
url | http://eprints.utm.my/103234/1/ZulkurnainAbdulMalek2022_InDepthExplorationofPartialDischargeModelling.pdf |
work_keys_str_mv | AT afrouzihadinabipour indepthexplorationofpartialdischargemodellingmethodswithininsulations AT hassanateeb indepthexplorationofpartialdischargemodellingmethodswithininsulations AT cheedaphnetayye indepthexplorationofpartialdischargemodellingmethodswithininsulations AT mehranzamirkamyar indepthexplorationofpartialdischargemodellingmethodswithininsulations AT abdulmalekzulkurnain indepthexplorationofpartialdischargemodellingmethodswithininsulations AT mashaksaeedvahabi indepthexplorationofpartialdischargemodellingmethodswithininsulations AT ahmedjubaer indepthexplorationofpartialdischargemodellingmethodswithininsulations |