Many mixing processes in engineering applications are turbulent. At high‐Schmidt regime, the scalar scales are much lower than those of the velocity field, making difficult instantaneous measurements and direct numerical simulation for studying systems of practical interest. The use of large eddy simulation (LES) for analyzing transport and mixing of passive and reactive scalars at high‐Schmidt (Sc) regime is addressed in this article. We present two different approaches for studying scalar transport and mixing in LES: the conventional approach is based on the modeling of the unclosed subgrid‐scale scalar flux term in the filtered scalar equation by models commonly used for high‐Sc flows. The second approach presented in this review for dea...
In large eddy simulation (LES), a spatial filtering operation is applied to an instanta-neous field,...
While numerical simulations of turbulent fl ows applying Reynolds averaging techniques sol-ve equati...
This paper aims at reviewing some important aspects of Large Eddy Simulation (LES) as applied to eng...
Focusing on Large Eddy Simulation (LES) in the scalar field, this work has threefold achievement: ï¼...
The filtered density function (FDF) method is being extended for subgrid scale (SGS) closure as requ...
The flow field and mixing in an expansion-ramp geometry is studied using large-eddy simulation (LES...
Scalar mixing is an important phenomenon in many engineering application devices such as internal co...
Numerical schemes for scalar transport and mixing in turbulent flows must be high-order accurate, an...
This thesis aims at a contribution to reliable and accurate predictions of complex, multi-phase proc...
Purpose The purpose of this numerical work is to present and test a new approach for large-scale sca...
A methodology termed the “filtered density function” (FDF) is developed and implemented for large ed...
Numerical experiments on the turbulent entrainment and mixing of scalars in a incompressible flow ha...
The flow field and mixing in an expansion-ramp geometry is studied using large-eddy simulation (LES)...
In the present work, we investigate the possibility of performing velocity-resolved, scalar-filtered...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
In large eddy simulation (LES), a spatial filtering operation is applied to an instanta-neous field,...
While numerical simulations of turbulent fl ows applying Reynolds averaging techniques sol-ve equati...
This paper aims at reviewing some important aspects of Large Eddy Simulation (LES) as applied to eng...
Focusing on Large Eddy Simulation (LES) in the scalar field, this work has threefold achievement: ï¼...
The filtered density function (FDF) method is being extended for subgrid scale (SGS) closure as requ...
The flow field and mixing in an expansion-ramp geometry is studied using large-eddy simulation (LES...
Scalar mixing is an important phenomenon in many engineering application devices such as internal co...
Numerical schemes for scalar transport and mixing in turbulent flows must be high-order accurate, an...
This thesis aims at a contribution to reliable and accurate predictions of complex, multi-phase proc...
Purpose The purpose of this numerical work is to present and test a new approach for large-scale sca...
A methodology termed the “filtered density function” (FDF) is developed and implemented for large ed...
Numerical experiments on the turbulent entrainment and mixing of scalars in a incompressible flow ha...
The flow field and mixing in an expansion-ramp geometry is studied using large-eddy simulation (LES)...
In the present work, we investigate the possibility of performing velocity-resolved, scalar-filtered...
AbstractA method for predicting filtered chemical species concentrations and filtered reaction rates...
In large eddy simulation (LES), a spatial filtering operation is applied to an instanta-neous field,...
While numerical simulations of turbulent fl ows applying Reynolds averaging techniques sol-ve equati...
This paper aims at reviewing some important aspects of Large Eddy Simulation (LES) as applied to eng...