Finite element analysis for the laminar flow heat transfer in the entrance region of concentric annuli has been carried out for power law fluids. Simultaneously developing hydrodynamic and thermal boundary layers have been considered with one wall of the annulus isothermal and the other adiabatic. A linearization iterative procedure has been used to solve the hydrodynamic entry length problem. The results are used for the solution of the energy equation. Numerical calculations 'have been carried out for various values of the Prandtl number, aspect ratio and the flow behaviour index. The local Nusselt number and mixing cup temperature have been calculated. The comparison of particular results for a Newtonian fluid with those obtained earlier...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...
Fundamental solutions of the first and second kind boundary conditions were obtained analytically fo...
This paper presents a relatively simple numerical method to investigate the flow and heat transfer o...
A finite difference analysis of the entrance region flow heat transfer of Herschel-Bulkley fluids in...
A theoretical analysis of heat transfer in fully-developed laminar flow in a concentric annulus with...
"The general problem of heat transfer in a concentric annulus with hydrodynamically fully establishe...
The present paper is an extension of the previous study on fully developed laminar heat transfer of ...
A finite difference analysis of the entrance region flow heat transfer of Bingham fluid in concentri...
The present numerical study investigates the influence of fluid axial heat conduction, viscous dissi...
The present study deals with a numerical investigation of steady laminar mixed convection heat trans...
Consideration is given to the effects of viscous dissipation on the developing heat transfer between...
The present paper which is an extension of the previous study^ on the combined effects of viscous di...
614-622The problem of laminar flow heat transfer in channels of annular cross section formed by conc...
Forced and free convective heat transfer for thermally developing and thermally fully developed lami...
Based on the integral momentum and energy balance equations, the laminar boundary layer heat transfe...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...
Fundamental solutions of the first and second kind boundary conditions were obtained analytically fo...
This paper presents a relatively simple numerical method to investigate the flow and heat transfer o...
A finite difference analysis of the entrance region flow heat transfer of Herschel-Bulkley fluids in...
A theoretical analysis of heat transfer in fully-developed laminar flow in a concentric annulus with...
"The general problem of heat transfer in a concentric annulus with hydrodynamically fully establishe...
The present paper is an extension of the previous study on fully developed laminar heat transfer of ...
A finite difference analysis of the entrance region flow heat transfer of Bingham fluid in concentri...
The present numerical study investigates the influence of fluid axial heat conduction, viscous dissi...
The present study deals with a numerical investigation of steady laminar mixed convection heat trans...
Consideration is given to the effects of viscous dissipation on the developing heat transfer between...
The present paper which is an extension of the previous study^ on the combined effects of viscous di...
614-622The problem of laminar flow heat transfer in channels of annular cross section formed by conc...
Forced and free convective heat transfer for thermally developing and thermally fully developed lami...
Based on the integral momentum and energy balance equations, the laminar boundary layer heat transfe...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...
Fundamental solutions of the first and second kind boundary conditions were obtained analytically fo...
This paper presents a relatively simple numerical method to investigate the flow and heat transfer o...