Temperature fluctuations occur due to thermal mixing of hot and cold streams in the T-junctions of the piping system in nuclear power plants, which may cause thermal fatigue of piping system. In this paper, three-dimensional, unsteady numerical simulations of coolant temperature fluctuations at a mixing T-junction of equal diameter pipes were performed using the large eddy simulation (LES) turbulent model. The experiments used in this paper to benchmark the simulations were performed by Hitachi Ltd. The calculated normalized mean temperatures and fluctuating temperatures are in good agreement with the measurements. The influence of the time-step ranging from 100 Hz to 1000 Hz on the numerical simulation results was explored. The simulation ...
The nuclear industry in the 21st century has caught an increased percentage of the governments’ atte...
International audienceThermal fatigue is a major problem for liquid metal fast reactors due to the h...
Thermal distribution and fluctuation in any piping component due to turbulent mixing of flows with d...
Thermal mixing and thermal fatigue has led to component failures in the nuclear industry. The therma...
International audienceThis study analyses the mixing and thermal fluctuations induced in a mixing te...
Turbulent mixing of hot and cold fluids may lead to high-cycle thermal fatigue in piping of nuclear ...
Thermal fatigue cracks have been found at mixing tees in nuclear power plants. The mixing flow of hi...
Large-eddy simulations (LESs) for two different T-junctions are performed for the prediction of ther...
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. ...
Thermal fatigue cracks may occur in a T-junction pipe due to the mixing of hot and cold fluids. To d...
Thermal striping caused by the mixing of fluids at different temperatures is one of the most importa...
Turbulent mixing of cold and hot fluids can lead to high-cycle thermal fatigue in T-junctions, but m...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
Unsteady temperature fluctuations of non-isothermal turbulent jets are encountered in many engineeri...
The nuclear industry in the 21st century has caught an increased percentage of the governments’ atte...
International audienceThermal fatigue is a major problem for liquid metal fast reactors due to the h...
Thermal distribution and fluctuation in any piping component due to turbulent mixing of flows with d...
Thermal mixing and thermal fatigue has led to component failures in the nuclear industry. The therma...
International audienceThis study analyses the mixing and thermal fluctuations induced in a mixing te...
Turbulent mixing of hot and cold fluids may lead to high-cycle thermal fatigue in piping of nuclear ...
Thermal fatigue cracks have been found at mixing tees in nuclear power plants. The mixing flow of hi...
Large-eddy simulations (LESs) for two different T-junctions are performed for the prediction of ther...
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. ...
Thermal fatigue cracks may occur in a T-junction pipe due to the mixing of hot and cold fluids. To d...
Thermal striping caused by the mixing of fluids at different temperatures is one of the most importa...
Turbulent mixing of cold and hot fluids can lead to high-cycle thermal fatigue in T-junctions, but m...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
Unsteady temperature fluctuations of non-isothermal turbulent jets are encountered in many engineeri...
The nuclear industry in the 21st century has caught an increased percentage of the governments’ atte...
International audienceThermal fatigue is a major problem for liquid metal fast reactors due to the h...
Thermal distribution and fluctuation in any piping component due to turbulent mixing of flows with d...