Study on the Aerodynamics Mechanism of Passenger Car under Unsteady Crosswind

Chen Shen; Hui Zhu; Zhi Gang Yang

doi:10.4028/www.scientific.net/AMR.631-632.809

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 631-632Study on the Aerodynamics Mechanism of Passenger...

Study on the Aerodynamics Mechanism of Passenger Car under Unsteady Crosswind

Abstract:

Regular formulae for lateral aerodynamic force cannot give precise prediction under unsteady crosswind. By generalizing potential flow theory and taking the aerodynamic derivative into consideration, the semi-empirical expression for lateral aerodynamic force is derived. In order to determine the coefficients in the semi-empirical formula, the model of a typical double-deck coach is investigated in a sequence of numerical simulations under pure crosswind condition (i.e. linear crosswind, pseudo-step crosswind, sinusoidal crosswind). Moreover, advantages of the semi-empirical formula over the regular one are revealed. Further inspections into the flow field derived from the theory of vortex motion indicate that the deviation between the prediction given by semi-empirical formulae and that by numerical simulation is caused by the non-viscous assumption in potential flow theory. The lateral aerodynamic force depends linearly on the crosswind aerodynamic derivative. Situations in which the coach is moving in the direction perpendicular to the wind velocity are also studied to find the cause of the error in semi-empirical formula. Furthermore, the semi-empirical formula is revised by introducing the “damping model method”. A relatively complete system of prediction for lateral aerodynamic force on a coach, which is of practical engineering significance, has been constructed.

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Periodical:

Advanced Materials Research (Volumes 631-632)

Pages:

809-816

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.631-632.809

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Online since:

January 2013

Authors:

Chen Shen, Hui Zhu, Zhi Gang Yang

Keywords:

Coach, Lateral Aerodynamic Force, Potential Flow Theory, Theory of Vortex Motion

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