A model is developed for describing mixing of several species under high-pressure conditions. The model includes the Peng–Robinson equation of state, a full massdiffusion matrix, a full thermal-diffusion-factor matrix necessary to incorporate the Soret and Dufour effects and both thermal conductivity and viscosity computed for the species mixture using mixing rules. Direct numerical simulations (DNSs) are conducted in a temporal mixing layer configuration. The initial mean flow is perturbed using an analytical perturbation which is consistent with the definition of vorticity and is divergence free. Simulations are performed for a set of five species relevant to hydrocarbon combustion and an ensemble of realizations is created to exp...
A database of direct numerical simulation (DNS) of spatially evolving turbulent mixing slot jets of ...
A large eddy simulation (LES) a posteriori study is conducted for a temporal mixing layer which init...
Real-gas effects on the mean flow and inviscid stability of temporal mixing layers are examined for ...
A model is developed for describing mixing of several species under high-pressure conditions. The m...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Direct numerical simulations (DNS) of a supercritical temporal mixing layer are conducted for the pu...
A model is proposed for describing mixing of several species under high pressure conditions that rel...
The focus of this study is the understanding of effects of pressure increase or Reynolds number incr...
A database of transitional direct numerical simulation (DNS) realizations of a supercritical mixing ...
Direct numerical simulations (DNS) are conducted of a model hydrocarbon–nitrogen mixing layer under ...
Databases of transitional states obtained from direct numerical simulations of temporal, supercritic...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Direct Numerical Simulation (DNS) and Large Eddy Simulation (LES) are performed of a round fluid jet...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
A database of direct numerical simulation (DNS) of spatially evolving turbulent mixing slot jets of ...
A large eddy simulation (LES) a posteriori study is conducted for a temporal mixing layer which init...
Real-gas effects on the mean flow and inviscid stability of temporal mixing layers are examined for ...
A model is developed for describing mixing of several species under high-pressure conditions. The m...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Direct numerical simulations (DNS) of a supercritical temporal mixing layer are conducted for the pu...
A model is proposed for describing mixing of several species under high pressure conditions that rel...
The focus of this study is the understanding of effects of pressure increase or Reynolds number incr...
A database of transitional direct numerical simulation (DNS) realizations of a supercritical mixing ...
Direct numerical simulations (DNS) are conducted of a model hydrocarbon–nitrogen mixing layer under ...
Databases of transitional states obtained from direct numerical simulations of temporal, supercritic...
Mixing of several species in high-pressure (high-p) turbulent flows is investigated to understand th...
Direct Numerical Simulation (DNS) and Large Eddy Simulation (LES) are performed of a round fluid jet...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
A database of direct numerical simulation (DNS) of spatially evolving turbulent mixing slot jets of ...
A large eddy simulation (LES) a posteriori study is conducted for a temporal mixing layer which init...
Real-gas effects on the mean flow and inviscid stability of temporal mixing layers are examined for ...