The performance of an explicit algebraic stress model with a cubic equation for closure constants is assessed in predicting the turbulent flow dynamics of ducts relevant for heat exchangers. The use of a cubic equation allows elimination of any damping functions in the tensor representation for the Reynolds stresses and thereby improves prediction of turbulent stresses theoretically. The methodology used here allows for prediction of Cm in any spatial points and eliminates the use of damping functions in the turbulent viscosity. A flow parameter, which characterizes the flow type from plane strain and plane shear to elliptical flows, is used to prescribe the flow type in the ducts under consideration. In all cases, isothermal conditions are...
The phenomenon of forced convection with turbulent flow of industrial processes is complicated to de...
This work presents numerical prediction for the turbulent flow field confined in a circular duct pas...
This study comprehensively simulate the use of k-ε model for predicting flow and heat transfer with ...
The performance of an explicit algebraic stress model is assessed in predicting the turbulent flow a...
Th need for a reliable and reasonable accurate turbulence model without specific convergence problem...
The ability of three types of turbulence models to accurately predict the effects of curvature on th...
International audienceThe ability of two explicit algebraic Reynolds stress models (EARSMs) to accur...
The ability to accurately predict turbulent heat transfer in massively separated flows is of immense...
A numerical investigation has been carried Out for the turbulent fluid flow and heat transfer in per...
A simple algebraic methodology for computing turbulent stresses and fluxes in arrays of heat exchang...
Computations based on steady RANS with and without conjugate analysis were performed to study the ef...
The abilities of three types of turbulence models to accurately predict the effects of curvature on ...
The flow and thermal field in a square-sectioned 180o U-bend were investigated using five turbulence...
We carry out direct numerical simulations (DNS) of flow in a turbulent square duct by focusing on he...
ACTInternational audienceThis study deals with the heat transfer calculations between the internal w...
The phenomenon of forced convection with turbulent flow of industrial processes is complicated to de...
This work presents numerical prediction for the turbulent flow field confined in a circular duct pas...
This study comprehensively simulate the use of k-ε model for predicting flow and heat transfer with ...
The performance of an explicit algebraic stress model is assessed in predicting the turbulent flow a...
Th need for a reliable and reasonable accurate turbulence model without specific convergence problem...
The ability of three types of turbulence models to accurately predict the effects of curvature on th...
International audienceThe ability of two explicit algebraic Reynolds stress models (EARSMs) to accur...
The ability to accurately predict turbulent heat transfer in massively separated flows is of immense...
A numerical investigation has been carried Out for the turbulent fluid flow and heat transfer in per...
A simple algebraic methodology for computing turbulent stresses and fluxes in arrays of heat exchang...
Computations based on steady RANS with and without conjugate analysis were performed to study the ef...
The abilities of three types of turbulence models to accurately predict the effects of curvature on ...
The flow and thermal field in a square-sectioned 180o U-bend were investigated using five turbulence...
We carry out direct numerical simulations (DNS) of flow in a turbulent square duct by focusing on he...
ACTInternational audienceThis study deals with the heat transfer calculations between the internal w...
The phenomenon of forced convection with turbulent flow of industrial processes is complicated to de...
This work presents numerical prediction for the turbulent flow field confined in a circular duct pas...
This study comprehensively simulate the use of k-ε model for predicting flow and heat transfer with ...