Numerical simulation of a shock wave/turbulent boundary layer interaction in a ductA numerical investigation of the interaction of an incident oblique shock wave with a turbulent duct flow is presented. The investigation consists of solving the three-dimensional, unsteady, compressible, mass averaged Navier-Stokes equations, using an implicit finite volume, lower-upper time marching code and incorporates the three-dimensional Baldwin-Lomax turbulence model. Computed results are obtained Mach number 2.9 for a turning angle of 13 degrees and Reynolds number based on duct width of 1.36 x 10 exp 7. Under various inlet conditions, the results clearly depict the flow characteristics, including the shock geometry, the separated flow region, the wall pressure distribution, and the skin friction distribution. The findings provide a physical understanding of the three-dimensional vortex structure of the flow in a duct in which a shock wave interacts with a turbulent boundary layer. The results show that the ratio of the boundary layer thickness to the duct width is the critical parameter in determining the separation structure.
Document ID
19930064296
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Yang, Wei-Li (NASA Lewis Research Center Cleveland, OH, United States)
Greber, Isaac (Case Western Reserve Univ. Cleveland, OH, United States)