The present article investigates the effects of a BZT (Bethe–Zel'dovich–Thompson) dense
gas (FC-70) on the development of turbulent compressible mixing layers at three different …

This study investigates the effects of a Bethe–Zel'dovich–Thompson (BZT) dense gas (FC-
70) on the development of a turbulent compressible mixing layer at a convective Mach …

Direct numerical simulations (DNS) of temporally evolving weakly compressible shear layers
with gradients of species and temperature have been performed to investigate the influence …

Turbulent mixing layers exhibit striking compressibility effects. In particular, at modest Mach
numbers, the growth rate of compressible mixing layers is significantly reduced from that of …

Abstract Model free simulations are performed to study the effect of the presence of side wall
in compressible mixing of two parallel dissimilar gaseous streams with significant …

Gas-kinetic simulations of rarefied and compressible mixing layers are performed to
characterize continuum breakdown and the effect on the Kelvin-Helmholtz instability. The …

Direct numerical simulations (DNS) of compressible turbulent mixing layer are performed for
subsonic to supersonic Mach numbers. Each simulation achieves the self-similar state and it …

Abstract The Large-Eddy Simulation technique of compressible flows and the effect of
compressibility on mixing layers are the main subjects of this thesis. Direct Numerical …

Direct numerical simulation of a compressible mixing layer at convective Mach number 0.8
has been performed beyond the A-vortex stage and through the mixing layer transition. The …

We study a class of chemically reacting, spatially evolving, subsonic mixing layers via large
eddy simulations (LES). A primary goal is to assess the inflow conditions, numerical …