Add to ORKGDirect Numerical Simulation realizations were created of a temporal mixing layer in which combustion occurs under high-pressure (high-p) turbulent conditions. The model combines the formulation of Masi, et al. (2013) for describing multi-species mixing under high-p conditions and a single-step chemical reaction of rate consistent with ignition prediction (Borghesi, and Bellan, 2015). In each simulation the computations are pursued past a time at which a maximum average-volumetric p is attained; most analysis is performed at this time, t^*_(pp). The ensemble of realizations explores the effect of the initial Reynolds number, Re_0, of the initial pressure, p_0, and of the initial composition of the two mixing-layer streams. The results show...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
This work aims at highlighting differences between low-pressure and high-pressure flows. A simple te...
Several assumptions of atmospheric-pressure (atmospheric-p) single-phase turbulent reaction rate mod...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Several assumptions of atmospheric-pressure (atmospheric-p) single-phase turbulent reaction rate mod...
A database of Direct Numerical Simulations (DNS) representing the mixing of five species under high-...
A database of Direct Numerical Simulations (DNS) representing the mixing of five species under high-...
A database of simulations of fundamental turbulent H2/O2 and H2/Air shear layer flames has been deve...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
This work aims at highlighting differences between low-pressure and high-pressure flows. A simple te...
Several assumptions of atmospheric-pressure (atmospheric-p) single-phase turbulent reaction rate mod...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Several assumptions of atmospheric-pressure (atmospheric-p) single-phase turbulent reaction rate mod...
A database of Direct Numerical Simulations (DNS) representing the mixing of five species under high-...
A database of Direct Numerical Simulations (DNS) representing the mixing of five species under high-...
A database of simulations of fundamental turbulent H2/O2 and H2/Air shear layer flames has been deve...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...
A finite-volume method for the steady, compressible, reacting, turbulent Navier-Stokes equations is ...