论文信息 - Aerodynamic drag analysis of double-deck container vehicles with different structures

Aerodynamic drag analysis of double-deck container vehicles with different structures

To study the aerodynamic performance of a new six-axis X2K double-deck container vehicle, numerical simulation was done based on three-dimensional, steady Navier-Stokes equations and k-ɛ turbulence model. The results show that the pressure on the front surface of vehicle is positive, and others are negative. The maximum negative one appears as a “gate” shape on front surfaces. The pressure on vehicle increases with train speed, and pressure on vehicles with cross-loaded structure is smaller than that without it. The airflow around vehicles is symmetrical about train vertical axis, and the flow velocity decreases gradually along the axis to ground. Airflow around vehicles with cross-loaded structure is weaker than that without the structure. The aerodynamic drag increases linearly with the train speed, and it is minimum for the mid-vehicle. The linear coefficient for mid-vehicle without cross-loaded structure is 29.75, nearly one time larger than that with the structure valued as 15.425. So, from the view-point of aerodynamic drag, the cross-loaded structure is more reasonable for the six-axis X2K double-deck container vehicle.

Hong-qi Tian | Yanfei Li | Ming-zhi Yang

[1] Liang Xi-feng. Comparison of aerodynamic performances between double container car and boxcar , 2009 .

[2] Michael Ch. Hui,et al. The Aerodynamic Behaviour of the Deck of Stonecutters Bridge, Hong Kong , 2010 .

[3] Mizue Munekata,et al. Relation between the three-dimensional flow structure and aerodynamic sound generated from inclined circular cylinder , 2004 .

[4] M. B. Tischler,et al. Unsteady aerodynamic model of a cargo container for slung-load simulation , 2004, The Aeronautical Journal (1968).

[5] F. Durst,et al. Flow structure around trains under side wind conditions : a numerical study , 2000 .

[6] Liang Xi-feng. Aerodynamic function and stability influence of high-speed moving EMUs on insulated boards , 2009 .

[7] R. A. MacNeill,et al. Measurement of the aerodynamic pressures produced by passing trains , 2002 .

[8] Tatsuo Maeda,et al. Aerodynamic Characteristics of Train/Vehicles under Cross Winds , 2001 .

[9] Christopher L. Rumsey,et al. Effective Inflow Conditions for Turbulence Models in Aerodynamic Calculations , 2007 .

[10] Sang Joon Lee,et al. Wind load on a container crane located in atmospheric boundary layers , 2008 .

[11] Zhang Jian. Research on the Effect of Cross-wind to Dynamic Characteristics of Double Container Train , 2004 .

[12] Liang Xi-feng. Experimental research on pressure drag of the double container car passing through tunnel , 2006 .