Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings
Abstract Arc discharges of moist polluted composite insulators pose a serious threat to the stable operation of transmission line. However, there is no effective detection technology for arc discharges. The evolution mechanism of interface temperature accompanied by arc discharges is not clear. In t...
Main Authors: | , , , |
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Format: | Article |
Language: | English |
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Wiley
2022-08-01
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Series: | High Voltage |
Online Access: | https://doi.org/10.1049/hve2.12191 |
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author | Yanpeng Hao Jikai Bi Quan Wang Lin Yang |
author_facet | Yanpeng Hao Jikai Bi Quan Wang Lin Yang |
author_sort | Yanpeng Hao |
collection | DOAJ |
description | Abstract Arc discharges of moist polluted composite insulators pose a serious threat to the stable operation of transmission line. However, there is no effective detection technology for arc discharges. The evolution mechanism of interface temperature accompanied by arc discharges is not clear. In this paper, a 10 kV composite insulator with quasi‐distributed fibre Bragg gratings (FBGs) embedded at the insulator core‐housing interface was developed. The temperature calibration experiment of interface FBGs, and the arc discharges experiment of the uniform moist polluted composite insulator were conducted. Applied voltage was controlled to get the continuous arc with an arc time of 46 s and the intermittent arc with an arc time of 8 s. Exposed to the two types of surface arcs, the interface temperature evolution was explored. A new phenomenon of the sharp drop of the interface temperature was observed: the interface temperature first drops sharply and then rises rapidly during the continuous arc. Test results show that quasi‐distributed FBGs are valid for detecting the two types of surface arcs by interface temperature rise. This paper provides a technical means to evaluate the state of surface discharges and insulating properties of composite insulators. |
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id | doaj.art-6fe2357d34db42e8b2edf05715f42af2 |
institution | Directory Open Access Journal |
issn | 2397-7264 |
language | English |
last_indexed | 2024-04-13T18:20:51Z |
publishDate | 2022-08-01 |
publisher | Wiley |
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series | High Voltage |
spelling | doaj.art-6fe2357d34db42e8b2edf05715f42af22022-12-22T02:35:27ZengWileyHigh Voltage2397-72642022-08-017476377010.1049/hve2.12191Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratingsYanpeng Hao0Jikai Bi1Quan Wang2Lin Yang3School of Electric Power South China University of Technology Guangzhou ChinaSchool of Electric Power South China University of Technology Guangzhou ChinaSchool of Electric Power South China University of Technology Guangzhou ChinaSchool of Electric Power South China University of Technology Guangzhou ChinaAbstract Arc discharges of moist polluted composite insulators pose a serious threat to the stable operation of transmission line. However, there is no effective detection technology for arc discharges. The evolution mechanism of interface temperature accompanied by arc discharges is not clear. In this paper, a 10 kV composite insulator with quasi‐distributed fibre Bragg gratings (FBGs) embedded at the insulator core‐housing interface was developed. The temperature calibration experiment of interface FBGs, and the arc discharges experiment of the uniform moist polluted composite insulator were conducted. Applied voltage was controlled to get the continuous arc with an arc time of 46 s and the intermittent arc with an arc time of 8 s. Exposed to the two types of surface arcs, the interface temperature evolution was explored. A new phenomenon of the sharp drop of the interface temperature was observed: the interface temperature first drops sharply and then rises rapidly during the continuous arc. Test results show that quasi‐distributed FBGs are valid for detecting the two types of surface arcs by interface temperature rise. This paper provides a technical means to evaluate the state of surface discharges and insulating properties of composite insulators.https://doi.org/10.1049/hve2.12191 |
spellingShingle | Yanpeng Hao Jikai Bi Quan Wang Lin Yang Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings High Voltage |
title | Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings |
title_full | Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings |
title_fullStr | Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings |
title_full_unstemmed | Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings |
title_short | Interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre Bragg gratings |
title_sort | interface temperature evolution exposed to arc discharges occurred on the uniform moist pollution layer of composite insulators based on interface fibre bragg gratings |
url | https://doi.org/10.1049/hve2.12191 |
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