Partially averaged navier-stokes method: Modeling and simulation of low reynolds number effects in flow past a circular cylinder
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abstract
In variable-resolution (VR) calculations it is sometimes necessary to place the partition between resolved and unresolved scales in the dissipation range. While such a scenario typically happens in low Reynolds number simulations, it can also occur in very highresolution VR simulations of high Reynolds number flows. Most subgrid or VR models tacitly assume cut-off in the inertial scales and, therefore, must be modified to account for the 'low Reynolds-number' effect - difference between total and unresolved dissipation. In this paper, we develop a closure strategy for modeling the low Reynolds number effect in the context of the Partially Averaged Navier-Stokes (PANS) VR model. The proposal is tested by computing low and high Reynolds number flows past a circular cylinder. Comparison with experimental data shows that the approach provides the required improvement in low Reynolds number flows. Copyright 2011 by Sharath Girimaji.
