Wind tunnel tests on the aerodynamic characteristics of vehicles on highway bridges

Accurately quantifying the aerodynamic forces acting on vehicles and long-span bridges is critical for assessing the safety of moving vehicles on bridges which are subjected to strong wind. It is necessary to consider the aerodynamic interference between vehicles and the bridge, especially for this with the bluff body section and wind barriers. However, very few investigations have been carried out to find aerodynamic coefficients of vehicles on a bridge with the bluff body section and considering the effect of wind barrier. This article therefore carried out wind tunnel tests to determine aerodynamic coefficients of container truck on a bridge with a π-cross section and wind barriers. The influence of vehicle position in different road lanes of the bridge deck and the aerodynamic interference between vehicles on the aerodynamic characteristics of the vehicle and the bridge are investigated. Different heights and ventilation ratios of wind barrier are taken into consideration to examine variations of aerodynamic coefficients with different wind barriers. Furthermore, the change mechanism in the aerodynamic coefficients of the vehicles is observed by analyzing the wind pressure distribution on the surface of the vehicles. The test results show that the different lane locations of the vehicle affect the aerodynamic coefficients significantly, as well as the aerodynamic interference between vehicles with transverse arrangement or longitudinal arrangement, especially for the side force coefficient. The existence of wind barrier reduces the side force coefficients of the vehicle remarkably. Such effects also vary with the ventilation ratio and height of wind barrier.

[1]  Yozo Fujino,et al.  Effects of wind barrier on a vehicle passing in the wake of a bridge tower in cross wind and its response , 2004 .

[2]  Ning Chen,et al.  Effects of wind barrier on the safety of vehicles driven on bridges , 2015 .

[3]  陈政清,et al.  Experimental and numerical studies of aerodynamic forces on vehicles and bridges , 2013 .

[4]  Christopher Baker,et al.  High sided road vehicles in cross winds , 1990 .

[5]  E. Sabbioni,et al.  Wind tunnel tests on heavy road vehicles: Cross wind induced loads—Part 2 , 2011 .

[6]  Chris Baker,et al.  Ground vehicles in high cross winds part I: Steady aerodynamic forces , 1991 .

[7]  Christopher Baker,et al.  The assessment of wind tunnel testing techniques for ground vehicles in cross winds , 1990 .

[8]  Yozo Fujino,et al.  EFFECTS OF WIND BARRIER ON THE VEHICLE PASSING IN THE WAKE ON BRIDGE TOWER , 2001 .

[9]  Suren Chen,et al.  Accident assessment of vehicles on long-span bridges in windy environments , 2004 .

[10]  A. Kareem,et al.  Aerodynamic damping of inclined slender prisms , 2018, Journal of Wind Engineering and Industrial Aerodynamics.

[11]  Hrvoje Kozmar,et al.  Sheltering efficiency of wind barriers on bridges , 2012 .

[12]  G. Tomasini,et al.  Wind tunnel tests on heavy road vehicles: Cross wind induced loads--Part 1 , 2011 .

[13]  Dimitris E. Nikitopoulos,et al.  Wind tunnel tests for mean wind loads on road vehicles , 2016 .

[14]  F. Dorigatti,et al.  Wind tunnel measurements of crosswind loads on high sided vehicles over long span bridges , 2012 .

[15]  Ming Wang,et al.  An experimental analysis of the aerodynamic characteristics of a high-speed train on a bridge under crosswinds , 2018, Journal of Wind Engineering and Industrial Aerodynamics.

[16]  Suren Chen,et al.  Framework of vehicle–bridge–wind dynamic analysis , 2004 .

[17]  Christopher Baker,et al.  Forces on vehicles in cross winds from moving model tests , 1992 .

[18]  C. S. Cai,et al.  Effects of aerodynamic parameters on the dynamic responses of road vehicles and bridges under cross winds , 2014 .

[19]  C. S. Cai,et al.  Experimental study on aerodynamic derivatives of a bridge cross-section under different traffic flows , 2014 .

[20]  Tian Zhang,et al.  Effect of windproof barrier on aerodynamic performance of vehicle-bridge system , 2017 .

[21]  Peng Yuan,et al.  Numerical analysis of dynamic response of vehicle–bridge coupled system on long-span continuous girder bridge , 2016 .

[22]  Xiaozhen Li,et al.  Dynamic analysis of coupled wind-train-bridge system considering tower shielding and triangular wind barriers , 2015 .

[23]  You-Lin Xu,et al.  Wind tunnel investigations of aerodynamic coefficients of road vehicles on bridge deck , 2012 .

[24]  Carsten Proppe,et al.  Cross-wind effects on road and rail vehicles , 2009 .

[25]  Yan Han,et al.  Experimental and numerical studies of aerodynamic forces on vehicles and bridges , 2013 .

[26]  K. T. Tse,et al.  Identification of physical nonlinearities of a hybrid aeroelastic–pressure balance , 2019, Nonlinear Dynamics.