Add to ORKGWe perform Direct Numerical Simulations (DNS) of a turbulent channel flow with temperature dependent density and viscosity. The Navier-Stokes equations are solved using their low Mach number formulation. In the simulations performed, the fluid is internally heated and the temperature at the walls is fixed. The friction Reynolds number based on half channel height and wall friction velocity is Re? = 395. The modulation of turbulence, which is caused by the density and viscosity gradients, is characterized using the semi-local scaling of Huang et al. [1995, JFM].Process and EnergyMechanical, Maritime and Materials Engineerin
In this work, Thermal Large Eddy Simulation (TLES) is performed to study the behavior of weakly comp...
Direct numerical simulation was performed for a turbulent channel flow where the time mean temperatu...
Purpose - This paper sets out to perform a detailed numerical study of turbulent channel flow with s...
We perform Direct Numerical Simulations (DNS) of a turbulent channel flow with temperature dependent...
We perform Direct Numerical Simulations (DNS) of a turbulent channel flow with temperature dependent...
We theoretically and numerically investigate the effect of temperature dependent density and viscosi...
In this work, we run a numerical experiment to study the behaviour of incompressible Newtonian fluid...
A direct numerical simulation (DNS) of an asymmetrically heated turbulent channel flow has been perf...
Direct numerical simulation of fully developed, internally heated channel flows with isothermal wall...
Direct numerical simulation of fully developed, internally heated channel flows with isothermal wall...
We investigate the effectiveness of the semi-local Reynolds number Re τ to parametrize wall-bounded fl...
We investigate the effectiveness of the semi-local Reynolds number Re τ to parametrize wall-bounded fl...
Direct numerical simulation (DNS) is used to study the behaviour of stably-stratified turbulent chan...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
In this work, Thermal Large Eddy Simulation (TLES) is performed to study the behavior of weakly comp...
Direct numerical simulation was performed for a turbulent channel flow where the time mean temperatu...
Purpose - This paper sets out to perform a detailed numerical study of turbulent channel flow with s...
We perform Direct Numerical Simulations (DNS) of a turbulent channel flow with temperature dependent...
We perform Direct Numerical Simulations (DNS) of a turbulent channel flow with temperature dependent...
We theoretically and numerically investigate the effect of temperature dependent density and viscosi...
In this work, we run a numerical experiment to study the behaviour of incompressible Newtonian fluid...
A direct numerical simulation (DNS) of an asymmetrically heated turbulent channel flow has been perf...
Direct numerical simulation of fully developed, internally heated channel flows with isothermal wall...
Direct numerical simulation of fully developed, internally heated channel flows with isothermal wall...
We investigate the effectiveness of the semi-local Reynolds number Re τ to parametrize wall-bounded fl...
We investigate the effectiveness of the semi-local Reynolds number Re τ to parametrize wall-bounded fl...
Direct numerical simulation (DNS) is used to study the behaviour of stably-stratified turbulent chan...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
In this work, Thermal Large Eddy Simulation (TLES) is performed to study the behavior of weakly comp...
Direct numerical simulation was performed for a turbulent channel flow where the time mean temperatu...
Purpose - This paper sets out to perform a detailed numerical study of turbulent channel flow with s...