Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude

Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude

Abstract At high altitudes, the corona discharge around a conductor surface is severe, and the induced audible noise (AN) is irritating; this is due to the low air density at high altitudes. Therefore, AN has become a crucial limiting factor in the design of ac power lines of 500 kV or higher at hig...

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Main Authors: Wangling He, Baoquan Wan, Yunpeng Liu, Xingfa Liu, Shilong Huang, Yinlu Zhang, Jiangong Zhang
Format: Article
Language:English
Published: Wiley 2021-04-01
Series:IET Generation, Transmission & Distribution
Online Access:https://doi.org/10.1049/gtd2.12103
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spelling doaj-55f9ef7f83024ffea9651ffe5aa6a0082021-07-14T13:25:16ZengWileyIET Generation, Transmission & Distribution1751-86871751-86952021-04-011581304131310.1049/gtd2.12103Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitudeWangling He0Baoquan Wan1Yunpeng Liu2Xingfa Liu3Shilong Huang4Yinlu Zhang5Jiangong Zhang6Hebei Provincial Key Laboratory of Power Transmission Equipment Security Defense North China Electric Power University Baoding ChinaState Key Laboratory of Power Grid Environmental Protection (China Electric Power Research Institute) Wuhan ChinaHebei Provincial Key Laboratory of Power Transmission Equipment Security Defense North China Electric Power University Baoding ChinaState Key Laboratory of Power Grid Environmental Protection (China Electric Power Research Institute) Wuhan ChinaHebei Provincial Key Laboratory of Power Transmission Equipment Security Defense North China Electric Power University Baoding ChinaHebei Provincial Key Laboratory of Power Transmission Equipment Security Defense North China Electric Power University Baoding ChinaState Key Laboratory of Power Grid Environmental Protection (China Electric Power Research Institute) Wuhan ChinaAbstract At high altitudes, the corona discharge around a conductor surface is severe, and the induced audible noise (AN) is irritating; this is due to the low air density at high altitudes. Therefore, AN has become a crucial limiting factor in the design of ac power lines of 500 kV or higher at high altitudes. An investigation of the spectral characteristics of AN should help provide a greater understanding of corona noise; however, only a few studies have investigated the spectral characteristics of AN in practical bundled conductors at high altitude. Therefore, it is difficult for power utility companies to select suitable conductors. In this study, the AN spectral characteristics of 6 × LGJ400, 6 × LGJ720, and 8 × LGJ500 bundled conductors were investigated using an ultra‐high‐voltage corona cage (8 × 8 × 35 m) in Xining, Qinghai Province (altitude: 2261 m). The AN equivalent A‐weighted level and the 1/3‐octave frequency characteristics of these three conductors were obtained, and the influence of the electric field (E‐field) on these characteristics was analysed. Subsequently, the relationship between the AN A‐weighted level and the 8‐kHz level was examined. We found that, with the increase of the E‐field, the low‐frequency components of AN level did not exhibit an obvious trend, but in the high‐frequency band (1.6–20 kHz), a clear positive correlation was observed between the spectrum level and E‐field strength. Among these three conductors, the 8 × LGJ500 conductor was the optimal conductor for reducing the AN levels at high altitude. The results obtained in this study can provide a data reference for the construction of high‐altitude ac power lines.https://doi.org/10.1049/gtd2.12103
collection DOAJ
language English
format Article
sources DOAJ
author Wangling He
Baoquan Wan
Yunpeng Liu
Xingfa Liu
Shilong Huang
Yinlu Zhang
Jiangong Zhang
spellingShingle Wangling He
Baoquan Wan
Yunpeng Liu
Xingfa Liu
Shilong Huang
Yinlu Zhang
Jiangong Zhang
Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
IET Generation, Transmission & Distribution
author_facet Wangling He
Baoquan Wan
Yunpeng Liu
Xingfa Liu
Shilong Huang
Yinlu Zhang
Jiangong Zhang
author_sort Wangling He
title Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
title_short Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
title_full Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
title_fullStr Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
title_full_unstemmed Audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
title_sort audible noise spectral characteristics of high‐voltage ac bundled conductors at high altitude
publisher Wiley
series IET Generation, Transmission & Distribution
issn 1751-8687
1751-8695
publishDate 2021-04-01
description Abstract At high altitudes, the corona discharge around a conductor surface is severe, and the induced audible noise (AN) is irritating; this is due to the low air density at high altitudes. Therefore, AN has become a crucial limiting factor in the design of ac power lines of 500 kV or higher at high altitudes. An investigation of the spectral characteristics of AN should help provide a greater understanding of corona noise; however, only a few studies have investigated the spectral characteristics of AN in practical bundled conductors at high altitude. Therefore, it is difficult for power utility companies to select suitable conductors. In this study, the AN spectral characteristics of 6 × LGJ400, 6 × LGJ720, and 8 × LGJ500 bundled conductors were investigated using an ultra‐high‐voltage corona cage (8 × 8 × 35 m) in Xining, Qinghai Province (altitude: 2261 m). The AN equivalent A‐weighted level and the 1/3‐octave frequency characteristics of these three conductors were obtained, and the influence of the electric field (E‐field) on these characteristics was analysed. Subsequently, the relationship between the AN A‐weighted level and the 8‐kHz level was examined. We found that, with the increase of the E‐field, the low‐frequency components of AN level did not exhibit an obvious trend, but in the high‐frequency band (1.6–20 kHz), a clear positive correlation was observed between the spectrum level and E‐field strength. Among these three conductors, the 8 × LGJ500 conductor was the optimal conductor for reducing the AN levels at high altitude. The results obtained in this study can provide a data reference for the construction of high‐altitude ac power lines.
url https://doi.org/10.1049/gtd2.12103
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