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Investigation of a drag reduction on a circular cylinder in rotary oscillation

Shiels, D. and Leonard, A. (2001) Investigation of a drag reduction on a circular cylinder in rotary oscillation. Journal of Fluid Mechanics, 431 . pp. 297-322. ISSN 0022-1120. doi:10.1017/S002211200000313X.

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Drag reduction in two-dimensional flow over a circular cylinder, achieved using rotary oscillation, was investigated with computational simulations. In the experiments of Tokumaru & Dimotakis (1991), this mechanism was observed to yield up to 80% drag reduction at Re = 15 000 for certain ranges of frequency and amplitude of sinusoidal rotary oscillation. Simulations with a high-resolution viscous vortex method were carried out over a range of Reynolds numbers (150–15 000) to explore the effects of oscillatory rotational forcing. Significant drag reduction was observed for a rotational forcing which had been very effective in the experiments. The impact of the forcing is strongly Reynolds number dependent. The cylinder oscillation appears to trigger a distinctive shedding pattern which is related to the Reynolds number dependence of the drag reduction. It appears that the source of this unusual shedding pattern and associated drag reduction is vortex dynamics in the boundary layer initiated by the oscillatory cylinder rotation. The practical efficiency of the drag reduction procedure is also discussed.

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Additional Information:"Reprinted with the permission of Cambridge University Press." (Received October 28 1998); (Revised July 13 2000); Published online by Cambridge University Press 22 June 2001 We would like to thank Dr Alan Stagg for his assistance and Dr Stephen Cowley for informative discussions. This work has been supported by ONR Grant #N00014-94-1-0793. Computing time was partially provided by the JPL Supercomputing Project (funded from the NASA Offices of Mission to Planet Earth, Aeronautics, and Space Sciences). Scholarship support was provided under DoD Grant #DAAH04-93-G-0281.
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Deposited On:10 Apr 2006
Last Modified:08 Nov 2021 19:49

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