论文信息 - Aerodynamic design and development of the Sunswift IV solar racing car

Aerodynamic design and development of the Sunswift IV solar racing car

The aerodynamic design and development of the University of New South Wales’ ultra-low-drag solar-electric Sunswift IV car is described, detailing the student-led design process from initial concept sketches to the completed vehicle. The body shape was established and refined over a period of six months in 2008–2009, almost entirely using computational fluid dynamics. The guiding philosophy was that predictable handling and drag minimisation in challenging, changing wind conditions of the type commonly seen during the World Solar Challenge across Australia was preferable to high performance only on ‘perfect’ days. The car won its class in the 2009 and 2011 World Solar Challenges, and holds the Guinness World Record for fastest solar-powered vehicle.

Graham Doig | Chris Beves | C. Beves | G. Doig

[1] Catherine Mavriplis,et al. Aerodynamic design of the George Washington University Solar Car Sunforce 1 , 2014 .

[2] Rossi Passarella,et al. CFD Analysis for Merdeka 2 Solar Vehicle , 2011 .

[3] Alexander A. Boulgakov. Sunswift IV strategy for the 2011 World Solar Challenge , 2011 .

[4] I. H. Abbott,et al. Theory of Wing Sections , 1959 .

[5] Comparison of Computational and Experimental Aerodynamics Results for a WMU Solar Car Model , 2005 .

[6] A. Neely,et al. The Influence of Compressibility on the Aerodynamics of an Inverted Wing in Ground Effect , 2011 .

[7] James McManus,et al. A computational study of the flow around an isolated wheel in contact with the ground , 2006 .

[8] H. Polinder,et al. Loss Modeling and Analysis of the Nuna Solar Car Drive System , 2007 .

[9] Eddie Leonardi,et al. Causes for discrepancies in ground effect analyses , 2002, The Aeronautical Journal (1968).

[10] T. Barber,et al. Influence of wing span on the aerodynamics of wings in ground effect , 2013 .

[11] Yildirim Suzen,et al. Aerodynamic Design Improvement of NDSU Solar Car through Computational Fluid Dynamics , 2008 .

[12] Tracie Barber,et al. Considerations for Numerical Modeling of Inverted Wings in Ground Effect , 2011 .

[13] Goro Tamai,et al. Leading edge aerodynamic design of ultra-streamlined land vehicles , 1999 .

[14] M McInnes. World solar challenge , 1991 .