Transport aerodynamic optimisation has become an increasingly important field of study in response to emerging factors, such as new human needs and market demands. This paper provides a concept in-house built sports-car aerodynamic and shape optimisation. Wind tunnel tests and numerical simulations have been set-up and conducted to understand the concept vehicle aerodynamic structure and needs for performance improvement. A computer-aided design model has been developed and implemented into the computational fluid dynamics (CFD) software of StarCCM+ for detailed analysis. A 1/4th full-scale fibreglass model has been manufactured for validation. The combined experimental and CFD analyses show that the original aesthetic design exhibits high rear-end lift-force. Modifications have been assessed to improve the drag and lift forces for the front, middle and rear regions. Several geometrical changes are introduced, including new rear-wing design. Also, the front end, roof profile and various ducting modifications have been considered. The introduced design changes lead to optimised downforce of -560.18 N with negligible increase to the accumulated drag effects with CD ≤ 0.3.
Dickison, M., Ghaleeh, M., Milady, S., Subbakrishna, S., Wen, L. T., & Al. Qubeissi, M. (2020). Investigation into the Aerodynamic Performance of a Concept Sports Car. Journal of Applied Fluid Mechanics, 13(2), 583-601. doi: 10.29252/jafm.13.02.30179
MLA
M. Dickison; M. Ghaleeh; S. Milady; S. Subbakrishna; L. T. Wen; M. Al. Qubeissi. "Investigation into the Aerodynamic Performance of a Concept Sports Car", Journal of Applied Fluid Mechanics, 13, 2, 2020, 583-601. doi: 10.29252/jafm.13.02.30179
HARVARD
Dickison, M., Ghaleeh, M., Milady, S., Subbakrishna, S., Wen, L. T., Al. Qubeissi, M. (2020). 'Investigation into the Aerodynamic Performance of a Concept Sports Car', Journal of Applied Fluid Mechanics, 13(2), pp. 583-601. doi: 10.29252/jafm.13.02.30179
VANCOUVER
Dickison, M., Ghaleeh, M., Milady, S., Subbakrishna, S., Wen, L. T., Al. Qubeissi, M. Investigation into the Aerodynamic Performance of a Concept Sports Car. Journal of Applied Fluid Mechanics, 2020; 13(2): 583-601. doi: 10.29252/jafm.13.02.30179