Aerodynamics of High-Sided Vehicles on Truss Girder Considering Sheltering Effect by Wind Tunnel Tests

2020
Jingyu Zhang, Mingjin Zhang, Yongle Li, Xu Huang, Zhong Zheng

Aerodynamic characteristics of vehicles are directly related to their running safety, especially for the high-sided vehicles. In order to study the aerodynamic characteristics under multiple sheltering conditions, a complex large scale (1:20.4) truss model and three high-sided vehicles including articulated lorry, travelling bus and commercial van models with the same scale were built. The aerodynamic coefficients under various sheltering effects of wind barriers with different heights and porosities, bridge tower and the vehicle on the adjacent lane were measured. According to the results, wind barriers can effectively reduce wind speed behind them, thus decreasing the wind load acting on the vehicle, which causes the decrease of the aerodynamic response of all three vehicles. However, the influence at the leeward side is limited due to installation of central stabilizers. When the vehicle passes through the bridge tower, a sudden change occurs, the aerodynamic coefficients decrease and f luctuate in varying degrees, especially for the commercial van. When the vehicle moves in different lanes behind the bridge tower, the sheltering effect of the tower on the aerodynamic coefficient in Lane 1 is much greater than that in Lane 2. With regard to the interference between two vehicles on the adjacent lanes, the relative windward area between the test vehicle and the interference vehicle greatly affects the aerodynamics of the test vehicle.

Keywords
Aerodynamic coefficient | Bridge tower | Complex truss | Road vehicle | Wind barriers | Wind tunnel tests
DOI
10.7250/bjrbe.2020-15.473
Hyperlink
https://bjrbe-journals.rtu.lv/article/view/bjrbe.2020-15.473

Zhang, J., Zhang, M., Li, Y., Huang, X., Zheng, Z. Aerodynamics of High-Sided Vehicles on Truss Girder Considering Sheltering Effect by Wind Tunnel Tests. The Baltic Journal of Road and Bridge Engineering, 2020, Vol. 15, No. 2, pp. 66-88. ISSN 1822-427X. e-ISSN 1822-4288. Available from: doi:10.7250/bjrbe.2020-15.473

Publication language
English (en)