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Wind-driven dynamic response of ice-covered long cross-bar transmission tower-line system in high altitude areas

Jianming FU1Lijuan ZHANG1Yidan MA1Yongjie QI2Shiyuan LIU2Xiangrui MENG2Yuping LIU2Li TIAN2( )
Shandong Electric Power Engineering Consulting Institute Co. Ltd., Jinan 250013, P. R. China
School of Civil Engineering, Shandong University, Jinan 250061, P. R. China
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Abstract

Transmission lines are vulnerable to impairment by a variety of disasters including high winds and ice cover, which pose a significant threat to energy security. At present, studies on wind and ice disasters on transmission lines are mostly focused on low-altitude areas.However, many west-east transmission lines cross vast plateau areas, in which long cross-bar transmission towers account for a larger proportion. In order to ensure the safe operation of transmission lines in high-altitude areas, this paper establishes a long cross-bar transmission tower-line system refined model relying on a ±800 kV UHV DC transmission project, based on the ice-covering conditions in high-altitude areas, ice-covered working conditions of transmission towers and transmission lines are established respectively. Concurrently, the wind load characteristics of high-altitude and low-altitude areas are compared and analyzed, taking into account the influence of environmental factors such as air density, topography and geomorphology in high-altitude areas. Finally, based on the ice-covering conditions and wind load characteristics in high-altitude areas, wind-induced vibration response analysis of the long crossbar transmission tower-line system is carried out. The findings indicate that the wind profile at elevated altitudes is comparatively gentle, the displacement response at the cross-bar of the long cross-bar transmission tower-line system is more pronounced than that at the tower's summit, and the maximum displacement response of the structure under ice-wind loads occurs at the midpoint of the cross-bar end.

CLC number: TM753; TU391 Document code: A Article ID: 2096-6717(2026)02-0226-10

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Journal of Civil and Environmental Engineering
Pages 226-235

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Cite this article:
FU J, ZHANG L, MA Y, et al. Wind-driven dynamic response of ice-covered long cross-bar transmission tower-line system in high altitude areas. Journal of Civil and Environmental Engineering, 2026, 48(2): 226-235. https://doi.org/10.11835/j.issn.2096-6717.2023.142

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Received: 06 September 2023
Published: 01 April 2026
© Journal of Civil and Environmental Engineering