Flow characteristics and wind-sheltering performance of wind barriers with different diameters of holes on railway viaducts

Purpose Constructing porous wind barriers is one of the most effective approaches to increase the running safety of trains on viaducts in crosswinds. This paper aims to further improve the wind-sheltering performance of the porous wind barriers. Design/methodology/approach Improved delayed detached...

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Bibliographic Details
Published in:International journal of numerical methods for heat & fluid flow 2023-10, Vol.33 (11), p.3748-3769
Main Authors: Liu, Zhiqi, Liu, Tanghong, Gao, Hongrui, Gu, Houyu, Xia, Yutao, Xu, Bin
Format: Article
Language:English
Subjects:
Barriers
Coefficients
Crosswinds
Design
Detached eddy simulation
Flow characteristics
K-omega turbulence model
Porosity
Railroad accidents & safety
Railway tracks
Shear stress
Simulation
Trains
Turbulence
Turbulence models
Velocity
Viaducts
Wind
Wind barriers
Wind effects
Wind engineering
Wind speed
Wind tunnel testing
Wind tunnels
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Summary:Purpose Constructing porous wind barriers is one of the most effective approaches to increase the running safety of trains on viaducts in crosswinds. This paper aims to further improve the wind-sheltering performance of the porous wind barriers. Design/methodology/approach Improved delayed detached eddy simulations based on the k-ω turbulence model were carried out, and the results were validated with wind tunnel tests. The effects of the hole diameter on the flow characteristics and wind-sheltering performance were studied by comparing the wind barriers with the porosity of 21.6% and the hole diameters of 60 mm–360 mm. The flow characteristics above the windward and leeward tracks were analyzed, and the wind-sheltering performance of the wind barriers was assessed using the wind speed reduction coefficients. Findings The hole diameters affected the jet behind the wind barriers and the recirculation region above the tracks. Below the top of the wind barriers, the time-averaged velocity first decreased and then increased with the increase in the hole diameter. The wind barrier with the hole diameter of 120 mm had the best wind-sheltering performance for the windward track, but such barrier might lead to overprotection on the leeward track. The wind-sheltering performance of the wind barriers with the hole diameters of 240 mm and 360 mm was significantly degraded, especially above the windward track. Originality/value The effects of the hole diameters on the wake and wind-sheltering performance of the wind barriers were studied, by which the theoretical basis is provided for a better design of the porous wind barrier.
ISSN:0961-5539
0961-5539
1758-6585
DOI:10.1108/HFF-06-2023-0304