摘要:The principal objective of this paper is to study hypersonic viscous flows dominated by shock-wave / laminar boundary-layer interaction over a compression corner. The shock-wave / boundary-layer interaction is studied using numerical solution of the Navier-Stokes equations for unsteady flows using a Mach number equal to 10.30. The flows are simulated using the Finite Element Method with two explicit Taylor-Galerkin schemes with linear tetrahedral and tri-linear hexahedral elements. Results include surface pressure, skin friction and velocity/pressure/density profiles in several stations.
其他摘要:The principal objective of this paper is to study hypersonic viscous flows dominated by shock-wave / laminar boundary-layer interaction over a compression corner. The shock-wave / boundary-layer interaction is studied using numerical solution of the Navier-Stokes equations for unsteady flows using a Mach number equal to 10.30. The flows are simulated using the Finite Element Method with two explicit Taylor-Galerkin schemes with linear tetrahedral and tri-linear hexahedral elements. Results include surface pressure, skin friction and velocity/pressure/density profiles in several stations.
