In this paper, we investigate the asymptotic validity of boundary-layer theory. For a flow induced by a periodic row of point-vortices, we compare Prandtl's boundary-layer solution to Navier-Stokes solutions with different Reynolds numbers. We show how Prandtl's solution develops a finite-time separation singularity. On the other hand, the Navier-Stokes solutions are characterized by the presence of two distinct types of viscous-inviscid interactions that can be detected by the analysis of the enstrophy and of the pressure gradient on the wall. Moreover, we apply the complex singularity-tracking method to Prandtl and Navier-Stokes solutions and analyze the previous interactions from a different perspective.
Gargano, F., Sammartino, M., Sciacca, V., Cassel, K. (2014). Viscous-Inviscid Interactions in a Boundary-Layer Flow Induced by a Vortex Array. ACTA APPLICANDAE MATHEMATICAE, 132, 295-305 [10.1007/s10440-014-9904-1].
Viscous-Inviscid Interactions in a Boundary-Layer Flow Induced by a Vortex Array
GARGANO, Francesco;SAMMARTINO, Marco Maria Luigi;SCIACCA, Vincenzo;
2014-01-01
Abstract
In this paper, we investigate the asymptotic validity of boundary-layer theory. For a flow induced by a periodic row of point-vortices, we compare Prandtl's boundary-layer solution to Navier-Stokes solutions with different Reynolds numbers. We show how Prandtl's solution develops a finite-time separation singularity. On the other hand, the Navier-Stokes solutions are characterized by the presence of two distinct types of viscous-inviscid interactions that can be detected by the analysis of the enstrophy and of the pressure gradient on the wall. Moreover, we apply the complex singularity-tracking method to Prandtl and Navier-Stokes solutions and analyze the previous interactions from a different perspective.
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