Numerical Study of Surface Flow for Ahmed Body in Crosswind Conditions

This study investigates standard vehicles' flow behavior and drag during crosswind conditions by a numerical approach. The model is a half-scaled Ahmed body with a slant angle of 25°. Reynolds Average Navier-Stokes equations with turbulent model k-ω SST is applied to solve Navier Stokes equatio...

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Bibliographic Details
Published inAutomotive experiences Vol. 7; no. 2
Main Authors Pham Van Duy, Le Dinh Anh, Dinh Cong Truong, Tran The Hung, Do Van Minh
Format Journal Article
LanguageEnglish
Published Universitas Muhammadiyah Magelang 01.09.2024
Subjects
Ahmed body
Longitudinal vortex
Separation bubble
Skin friction
Yaw angle
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Summary:This study investigates standard vehicles' flow behavior and drag during crosswind conditions by a numerical approach. The model is a half-scaled Ahmed body with a slant angle of 25°. Reynolds Average Navier-Stokes equations with turbulent model k-ω SST is applied to solve Navier Stokes equation by discrete method. Experimental data validated the numerical results at the same flow conditions. The results indicated that the model's drag increases with yaw angles, which is connected with the development of the longitudinal vortex on the windward side. However, the lift coefficient and pressure drag acting on the slant showed a maximum value at a yaw angle of around 35° before they dropped again. The drop of those coefficients results in the moving upward of the longitudinal vortex above the slant. The complex vortex structures around the base in both cross-sectional and symmetric planes are analyzed. The skin-friction pattern and pressure distribution on the slant are exposed to understand the effect of the yaw angle on aerodynamic forces.
ISSN:2615-6202
2615-6636
DOI:10.31603/ae.11591