The effect of aspect ratio on the wake of the Ahmed body

AbstractThis paper seeks to further elucidate the wake of the Ahmed body by investigating how the time-averaged flow structures vary with frontal aspect ratio. High-resolution particle image velocimetry results are provided for eight different width Ahmed geometries at $$\text {Re}_{\sqrt{FA}}=3\times 10^4$$ReFA=3×104. It is shown that the narrower the body, the greater the downwash over the back slant, meaning the flow remains more attached. At a critical aspect ratio ($$=1.9$$=1.9), the flow downstream changes. The separation over the back slant is shown to be affected by the , and this in turn has a significant effect on the circulation in the c-pillar vortices.

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