Numerical investigation have been performed by solving the conservation equations of mass, momentum, energy with two equation based k-e model to determine the wall temperature, outlet temperature and Nusselt number of an internally ribbed tube. It has been found from the numerical investigation that the heat transfer and pressure drop is increased by increasing the rib height and rib number. It was also found that there exists an optimum angle of inclination for maximum heat transfer and minimum pressure drop. The heat transfer is found to be highest in triangular rib compare to other shape
AbstractThis paper presents the results of numerical study of turbulent flow and heat transfer in a ...
This study investigates the turbulent heat transfer and friction in a trapezoidal channel with oppos...
Numerical studies of the flow field and heat transfer in a fully developed ribbed channel have been ...
Numerical investigation have been performed by solving the conservation equations of mass, momentum,...
Heat transfer through tube walls can be promoted using a ribbed tube configuration. Most of the ribs...
The paper deals with numerical investigation for the influence of separated ports assembly ribs on h...
Periodic rib turbulators were used in advanced turbine cooling designs to enhance the internal heat ...
Papers presented to the 12th International Conference on Heat Transfer, Fluid Mechanics and Thermody...
Heat exchangers are an integral part of any power plant, sometimes representing as much as one-third...
This paper presents a three-dimensional numerical investigation carried out in turbulent forced con-...
AbstractAn experimental work on heat transfer enhancement in a round tube by insertion of double twi...
The heat transfer and friction augmentation in the fully developed portion of a 2:1 aspect ratio rec...
Turbulent forced convection of coolant air flow (10 m/s velocity) in a steel tube of 50 cm long havi...
For internal cooling of a turbine blade, various advanced rib turbulators can markedly contribute to...
Computational Fluid Dynamics (CFD) simulation of heat transfer and fluid flow analysis in the turb...
AbstractThis paper presents the results of numerical study of turbulent flow and heat transfer in a ...
This study investigates the turbulent heat transfer and friction in a trapezoidal channel with oppos...
Numerical studies of the flow field and heat transfer in a fully developed ribbed channel have been ...
Numerical investigation have been performed by solving the conservation equations of mass, momentum,...
Heat transfer through tube walls can be promoted using a ribbed tube configuration. Most of the ribs...
The paper deals with numerical investigation for the influence of separated ports assembly ribs on h...
Periodic rib turbulators were used in advanced turbine cooling designs to enhance the internal heat ...
Papers presented to the 12th International Conference on Heat Transfer, Fluid Mechanics and Thermody...
Heat exchangers are an integral part of any power plant, sometimes representing as much as one-third...
This paper presents a three-dimensional numerical investigation carried out in turbulent forced con-...
AbstractAn experimental work on heat transfer enhancement in a round tube by insertion of double twi...
The heat transfer and friction augmentation in the fully developed portion of a 2:1 aspect ratio rec...
Turbulent forced convection of coolant air flow (10 m/s velocity) in a steel tube of 50 cm long havi...
For internal cooling of a turbine blade, various advanced rib turbulators can markedly contribute to...
Computational Fluid Dynamics (CFD) simulation of heat transfer and fluid flow analysis in the turb...
AbstractThis paper presents the results of numerical study of turbulent flow and heat transfer in a ...
This study investigates the turbulent heat transfer and friction in a trapezoidal channel with oppos...
Numerical studies of the flow field and heat transfer in a fully developed ribbed channel have been ...