arXiv:1906.10578 Abstract | arXiv Analytics

arXiv:1906.10578 [physics.flu-dyn]Abstract References Reviews Resources

On the intrinsic three-dimensionality of the flow normal to a circular disk

Published 2019-06-25Version 1

Direct numerical simulations are performed for the steady flow normal to a circular disk at the Reynolds number of 1000. Numerical simulations are conducted with different levels of simplification procedure by reducing the azimuthal extension of the disk. The full-disk, the half-disk, the quarter-disk, the eighth-disk and the two-dimensional (2D) cases with the identical grid resolution are considered. Intrinsic three-dimensionality is identified in the wake of the circular disk. Both of the instantaneous and mean flow quantities are influenced by the simplification level significantly. The mean drag coefficient obtained from the 2D case is about only 36% of that obtained from the three-dimensional (3D) simulation for the full-disk.

Comments: 12 pages; 6 figures

Categories: physics.flu-dyn, nlin.CD

Keywords: circular disk, intrinsic three-dimensionality, mean drag coefficient, mean flow quantities, numerical simulations

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