This work proposes a new simulation methodology to study variable density turbulent buoyant flows. The mathematical framework, referred to as homogeneous buoyant turbulence, relies on a triply periodic domain and incorporates numerical forcing methods commonly used in simulation studies of homogeneous, isotropic flows. In order to separate the effects due to buoyancy from those due to large-scale gradients, the linear scalar forcing technique is used to maintain the scalar variance at a constant value. Two sources of kinetic energy production are considered in the momentum equation, namely shear via an isotropic forcing term and buoyancy via the gravity term. The simulation framework is designed such that the four dimensionless parameters o...
Most explicit algebraic stress models are formulated for turbulent shear flows without accounting fo...
High Reynolds number wall-bounded turbulent flows subject to buoyancy forces are fraught with comple...
This book summarizes the most recent theoretical, computational, and experimental results dealing wi...
This work proposes a new simulation methodology to study variable density turbulent buoyant flows. T...
This work proposes a new simulation methodology in which variable density turbulent flows can be st...
Because of the importance of turbulence mixing in many applications, a number of turbulence mixing m...
The dynamics of variable-density turbulent fluids are studied by direct numerical simulation. The fl...
The evolution of buoyancy-driven homogeneous variable-density turbulence (HVDT) at Atwood numbers (A...
In this study, high-resolution direct numerical simulations of mixing in turbulent flows, subject to...
CER73-74RNM38.April 1974.Includes bibliographical references.Prepared for the National Science Found...
Numerical simulations of homogeneous turbulence subject to buoyant forcing were performed. The prese...
A Turbulence Model for Buoyant Flows (TMBF) has been developed. TMBF is a combination of a first-ord...
International audienceWe study unconfined homogeneous turbulence with a destabilizing background den...
High resolution direct numerical simulations are used to investigate the dynamics of turbulence in f...
Buoyancy driven turbulence due to heterogeneous bubble swarms are typically encountered in bubble co...
Most explicit algebraic stress models are formulated for turbulent shear flows without accounting fo...
High Reynolds number wall-bounded turbulent flows subject to buoyancy forces are fraught with comple...
This book summarizes the most recent theoretical, computational, and experimental results dealing wi...
This work proposes a new simulation methodology to study variable density turbulent buoyant flows. T...
This work proposes a new simulation methodology in which variable density turbulent flows can be st...
Because of the importance of turbulence mixing in many applications, a number of turbulence mixing m...
The dynamics of variable-density turbulent fluids are studied by direct numerical simulation. The fl...
The evolution of buoyancy-driven homogeneous variable-density turbulence (HVDT) at Atwood numbers (A...
In this study, high-resolution direct numerical simulations of mixing in turbulent flows, subject to...
CER73-74RNM38.April 1974.Includes bibliographical references.Prepared for the National Science Found...
Numerical simulations of homogeneous turbulence subject to buoyant forcing were performed. The prese...
A Turbulence Model for Buoyant Flows (TMBF) has been developed. TMBF is a combination of a first-ord...
International audienceWe study unconfined homogeneous turbulence with a destabilizing background den...
High resolution direct numerical simulations are used to investigate the dynamics of turbulence in f...
Buoyancy driven turbulence due to heterogeneous bubble swarms are typically encountered in bubble co...
Most explicit algebraic stress models are formulated for turbulent shear flows without accounting fo...
High Reynolds number wall-bounded turbulent flows subject to buoyancy forces are fraught with comple...
This book summarizes the most recent theoretical, computational, and experimental results dealing wi...