Direct Numerical Simulation of a Mach 2 shock interacting with isotropic turbulence

The three-dimensional inviscid-viscous interaction generated by the intersection of an oblique shock with a turbulent boundary layer is examined theoretically. An incoming Mach 4 equilibrium turbulent boundary layer at Reynolds number Re~ = 2 × 105 interacts with an oblique shock formed by a 16 ° sh

In transitional and turbulent high speed boundary-layer flows the wall thermal boundary conditions play an important role and in many cases an assumption of a constant temperature or a specified heat flux may not be appropriate for numerical simulations. In this paper we extend a formulation for dir

Direct numerical simulation (DNS) was performed for a turbulent channel flow with the time-mean temperature linearly varying in the spanwise direction. Spanwise heat transfer in wall turbulence was explored in this simple case where the turbulent heat flux has only a spanwise component. The computed

Direct numerical simulations have been conducted with many cluster models of beads and connecting springs in a turbulent channel ¯ow in order to investigate how the low-speed streaks and the small-scale ¯ow related to the streaks are aected by the cluster models. The cluster model represents highly