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A computational study of vortex-airfoil interaction using high-order finite difference methods |
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| Authors: | Magnus Svä rd,Johan Lundberg,Jan Nordströ m |
| Affiliation: | a School of Mathematics, University of Edinburgh, King’s Buildings, Mayfield Road, Edinburgh EH9 3JZ, United Kingdom b Department of Information Technology, Uppsala University, SE-751 05 Uppsala, Sweden c ABB AB, Nätverksgatan 3, Building 391, SE-721 59 Västerås, Sweden d Department of Computational Physics, The Swedish Defense Research Agency, SE-164 90 Stockholm, Sweden |
| Abstract: | Simulations of the interaction between a vortex and a NACA0012 airfoil are performed with a stable, high-order accurate (in space and time), multi-block finite difference solver for the compressible Navier-Stokes equations.We begin by computing a benchmark test case to validate the code. Next, the flow with steady inflow conditions are computed on several different grids. The resolution of the boundary layer as well as the amount of the artificial dissipation is studied to establish the necessary resolution requirements. We propose an accuracy test based on the weak imposition of the boundary conditions that does not require a grid refinement.Finally, we compute the vortex-airfoil interaction and calculate the lift and drag coefficients. It is shown that the viscous terms add the effect of detailed small scale structures to the lift and drag coefficients. |
| Keywords: | High-order finite difference schemes NACA0012 Vortex interaction Stability Boundary conditions |
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