Simulation Analysis on Force Characteristics of Transmission Tower by Foundation Settlement

Dong, Beibei; Chen, Kongliang

doi:10.1088/1757-899x/780/2/022014

IOP Conf. Ser.: Mater. Sci. Eng.

2020

DOI: 10.1088/1757-899x/780/2/022014

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Simulation Analysis on Force Characteristics of Transmission Tower by Foundation Settlement

Beibei Dong¹,

Kongliang Chen²

Abstract: In order to study the foundation foundation settlement under the most unfavorable conditions for the comparative analysis of the internal force development and deformation of the transmission tower and its jack-up electric tower, combined with the finite element structural analysis software Midas, a 110kv transmission tower and its jack-up tower are carried out. Modeling and comparative analysis. In this paper, the corresponding laws are summarized, and suggestions for the design of the jack-up electric tower … Show more

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“…At present, in the construction of transmission tower, the suspension pole group tower and the whole lifting tower are the two main tower construction methods widely used. However, the pylon group tower has a great safety risk [3][4]. The State Grid has been trying to optimise the suspension of the tower.…”

mentioning

confidence: 99%

Heavy Blimp-Based Simulation Research of Integral Tower Technology

Zhao,

Fan,

Wang

et al. 2024

J. Phys.: Conf. Ser.

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The power industry is the primary energy through the power generation equipment into electricity, and then through the transmission, transformation and distribution system to supply users as energy as the industrial sector, for the industrial and national economy and other sectors to provide basic power, is the first sector of national economic development[1]. As an important link to ensure the normal operation of the power industry, the importance of the power transmission system is self-evident[2]. The transmission tower, as the cornerstone to ensure the normal operation of the transmission system, has a large construction workload and faces problems such as complex construction environment and construction safety risks. Therefore, how to ensure the safe construction of transmission line in complex terrain is of great significance to power system construction. At present, in the construction of transmission tower, the suspension pole group tower and the whole lifting tower are the two main tower construction methods widely used. However, the pylon group tower has a great safety risk[3-4]. The State Grid has been trying to optimise the suspension of the tower. Secondly, due to the inconvenience of transportation, it is difficult for heavy lifting equipment to reach the construction site, which makes it difficult to promote the whole tower scheme using heavy lifting equipment in the mountainous terrain. In addition, the current construction of the tower group lacks scientific calculation and analysis of the force and deformation of the tower and key construction components, and there are hidden dangers such as overload and excessive deformation. Therefore, a new type of tower formation is needed to avoid the risk of personnel working at high altitudes and problems such as the inability of large heavy equipment to reach the construction site in mountainous areas[5]. In this paper, simulation technology is studied against the background of integral tower technology based on airship.

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mentioning

confidence: 99%

Heavy Blimp-Based Simulation Research of Integral Tower Technology

Zhao,

Fan,

Wang

et al. 2024

J. Phys.: Conf. Ser.

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Simulation Analysis on Force Characteristics of Transmission Tower by Foundation Settlement

Cited by 1 publication

References 0 publications

Heavy Blimp-Based Simulation Research of Integral Tower Technology

Heavy Blimp-Based Simulation Research of Integral Tower Technology

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