Modelling of three-dimensional shock wave turbulent boundary layer interactions
Abstract
The accuracy of numerical computations of the three-dimensional sharp fin flow field using the Reynolds-averaged Navier-Stokes equations is examined. Computed flows are compared with a set of benchmark experiments at Mach 3 for two different Reynolds numbers. A detailed comparison is performed between experimental data and separate computational results for the three-dimensional sharp fin for a 10 deg fin angle in order to examine the accuracy of two different turbulence models. The computed surface pressure for the fin at a 20 deg angle is compared with recent experimental data. The computed yaw angle profiles are shown to be sensitive to the turbulence model. In the immediate vicinity of the surface, the calculated results using the Baldwin-Lomax (1978) model are in better agreement with the data than the Jones-Launder (1972) model. Within the inner portion of the boundary layer, both models tend to underpredict the yaw angle.
- Publication:
-
Macroscopic Modelling of Turbulent Flows
- Pub Date:
- 1985
- DOI:
- 10.1007/3-540-15644-5_14
- Bibcode:
- 1985LNP...230..177K
- Keywords:
-
- Computational Fluid Dynamics;
- Computational Grids;
- Fins;
- Shock Wave Interaction;
- Three Dimensional Flow;
- Turbulent Boundary Layer;
- Adiabatic Flow;
- Airfoil Profiles;
- Body-Wing And Tail Configurations;
- Eddy Viscosity;
- Flow Distribution;
- Supersonic Flow;
- Turbulence Models;
- Fluid Mechanics and Heat Transfer