AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power plant. One of the regions most at risk of suffering from thermal fatigue is a small elbow pipe branching off from the main pipe of the coolant loop for the drain or letdown system in the chemical and volume control system (CVCS). This work focuses on a fundamental description of the thermal stratification caused by turbulent penetration and buoyancy effects in the elbow branch pipe using large-eddy simulations (LESs). The LES results for the normalized temperature, mean temperature, and root-mean square (RMS) temperature were found to be in good agreement with the available experimental data which confirms that LES can predict the thermal strati...
Thermal mixing and thermal fatigue has led to component failures in the nuclear industry. The therma...
AbstractNuclear power plant piping may be submitted to High Cycle Thermal Fatigue phenomenon in mixi...
Temperature fluctuations occur due to thermal mixing of hot and cold streams in the T-junctions of t...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
Thermal stratification has continuously caused several piping failures in nuclear power plants since...
AbstractThermal stratification is a phenomenon where a hot layer of fluid flows over a cold layer of...
Thermal stratification and striping are observed in many piping systems including those of nuclear p...
AbstractIn our present work, we present the numerically transfer heat and thermal stratification tha...
Thermal fatigue is a significant long-term degradation mechanism in nuclear power plants. In particu...
Thermal stratification has drawn much attention because of the malfunctions at various nuclear plant...
In the nuclear power plants, there are many branch pipes with closed-end which are attached vertical...
Thermal stratification has continuously caused several piping failures in nuclear power plants since...
Temperature fluctuation in fluid causes high cycle thermal fatigue in shroud structure according to ...
Thermal fatigue cracks have been found at mixing tees in nuclear power plants. The mixing flow of hi...
T-junctions are present in a wide range of industry and facilitate the mixing of fluids that are oft...
Thermal mixing and thermal fatigue has led to component failures in the nuclear industry. The therma...
AbstractNuclear power plant piping may be submitted to High Cycle Thermal Fatigue phenomenon in mixi...
Temperature fluctuations occur due to thermal mixing of hot and cold streams in the T-junctions of t...
AbstractThermal stratification can cause thermal fatigue of the piping system of a nuclear power pla...
Thermal stratification has continuously caused several piping failures in nuclear power plants since...
AbstractThermal stratification is a phenomenon where a hot layer of fluid flows over a cold layer of...
Thermal stratification and striping are observed in many piping systems including those of nuclear p...
AbstractIn our present work, we present the numerically transfer heat and thermal stratification tha...
Thermal fatigue is a significant long-term degradation mechanism in nuclear power plants. In particu...
Thermal stratification has drawn much attention because of the malfunctions at various nuclear plant...
In the nuclear power plants, there are many branch pipes with closed-end which are attached vertical...
Thermal stratification has continuously caused several piping failures in nuclear power plants since...
Temperature fluctuation in fluid causes high cycle thermal fatigue in shroud structure according to ...
Thermal fatigue cracks have been found at mixing tees in nuclear power plants. The mixing flow of hi...
T-junctions are present in a wide range of industry and facilitate the mixing of fluids that are oft...
Thermal mixing and thermal fatigue has led to component failures in the nuclear industry. The therma...
AbstractNuclear power plant piping may be submitted to High Cycle Thermal Fatigue phenomenon in mixi...
Temperature fluctuations occur due to thermal mixing of hot and cold streams in the T-junctions of t...