AbstractIn our present work, we present the numerically transfer heat and thermal stratification that may occur in an elbow with T-junction. More specifically, in this analysis, we purpose the visualization of the temperature field in order to locate the thermal stratification. The parameters studied are: i) the inlet cold water velocity and ii) the location and the size of the T-junction. The governing equations system about flow and heat transfer is solved numerically. The mesh was created using the software Gambit. Calculations and post processing were performed with the FLUENT code. Parametric simulations have been performed. The results are compared to those reports in the experimental literature
Turbulent mixing of hot and cold fluids may lead to high-cycle thermal fatigue in piping of nuclear ...
In this paper we present a detailed study of turbulent mixing between a cold crossflow and a hot inc...
AbstractThis paper deals with the fluid flow in the T-junction with the 90°C angle of the adjacent b...
AbstractIn our present work, we present the numerically transfer heat and thermal stratification tha...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
T-junctions are present in a wide range of industry and facilitate the mixing of fluids that are oft...
Thermal stratification of hot and cold water may cause damages in pipes of power plants. The main ai...
International audienceThis article reports new experiments performed with the purpose of generating ...
This paper investigates the effects of different inlet flow profiles on thermal mixing within a T-ju...
Thermal stratification and striping are observed in many piping systems including those of nuclear p...
This work reports three-dimensional simulation results of thermal mixing in rectangular T-junction c...
This paper describes the methodology adopted to perform a CFD analysis with the aim to study thermal...
AbstractThermal stratification is a phenomenon where a hot layer of fluid flows over a cold layer of...
Temperature fluctuation in fluid causes high cycle thermal fatigue in shroud structure according to ...
Thermal fatigue of the coolant circuits of PWR plants is among the major issues for nuclear safety. ...
Turbulent mixing of hot and cold fluids may lead to high-cycle thermal fatigue in piping of nuclear ...
In this paper we present a detailed study of turbulent mixing between a cold crossflow and a hot inc...
AbstractThis paper deals with the fluid flow in the T-junction with the 90°C angle of the adjacent b...
AbstractIn our present work, we present the numerically transfer heat and thermal stratification tha...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
T-junctions are present in a wide range of industry and facilitate the mixing of fluids that are oft...
Thermal stratification of hot and cold water may cause damages in pipes of power plants. The main ai...
International audienceThis article reports new experiments performed with the purpose of generating ...
This paper investigates the effects of different inlet flow profiles on thermal mixing within a T-ju...
Thermal stratification and striping are observed in many piping systems including those of nuclear p...
This work reports three-dimensional simulation results of thermal mixing in rectangular T-junction c...
This paper describes the methodology adopted to perform a CFD analysis with the aim to study thermal...
AbstractThermal stratification is a phenomenon where a hot layer of fluid flows over a cold layer of...
Temperature fluctuation in fluid causes high cycle thermal fatigue in shroud structure according to ...
Thermal fatigue of the coolant circuits of PWR plants is among the major issues for nuclear safety. ...
Turbulent mixing of hot and cold fluids may lead to high-cycle thermal fatigue in piping of nuclear ...
In this paper we present a detailed study of turbulent mixing between a cold crossflow and a hot inc...
AbstractThis paper deals with the fluid flow in the T-junction with the 90°C angle of the adjacent b...