Abstract
The numerical investigations presented in this paper deal with wind tunnel testing scheme design for 1/4 scaled MIRA model including supporting system. Based on the structure of aerodynamic and aero-acoustic full scale wind tunnel, using computational fluid dynamics (CFD), focus on MIRA model and supporting system, the drag force of scaled models and supporting system were calculated. By comparing with the wind tunnel testing results and drag force coefficient of reference, it is certain that the wind tunnel testing scheme is available and effective and that the value calculated by CFD is in good agreement with experiments.
Publisher
Trans Tech Publications, Ltd.
Reference12 articles.
1. Hucho, W.H. Fluid Mech., 1993, Vol. 25: 485-537.
2. Le Good, G., Howell, J., Passmore, M . and Cogotti, A. A Comparison of On-Road Aerodynamic Drag Measurements with Wind Tunnel Data from Pininfarina and MIRA[C]. SAE Paper No. 980394.
3. Philip M. Gerhart and Richard J. Gross. Fundamental of Fluid Mechanics[M]. New York: Addson Wesley, (1996).
4. Sovran, G., Morel, T. and Mason, Jr., W.T. Aerodynamic Drag Mechanisms of Bluff Bodies and Road Vehicles[M]. New York: Plenum, (1978).
5. Geoffrey M, Good L, Garry K P: On the Use of Reference Models in Automotive Aerodynamics, SAE Technical Paper Series. Paper Number: 2004-01-1308.