Add to ORKGRelated momentum and energy equations describing the heat and fluid flow of Herschel-Bulkley fluids within concentric annular ducts are analytically solved using the classical integral transform technique, which permits accurate determination of parameters of practical interest in engineering such as friction factors and Nusselt numbers for the duct length. In analyzing the problem, thermally developing flow is assumed and the duct walls are subjected to boundary conditions of first kind. Results are computed for the velocity and temperature fields as well as for the parameters cited above with different power-law indices, yield numbers and aspect ratios. Comparisons are also made with previous work available in the literature, providing di...
This work deals with the study of the steady-state analysis of conjugated heat transfer process for ...
In this study the forced convection in the laminar flow in simultaneous developing is studied by app...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...
Related momentum and energy equations describing the heat and fluid flow of Herschel-Bulkley fluids ...
The thermal entry region in laminar forced convection of Herschel-Bulkley fluids is solved analytica...
This work describes a hybrid analytical‐numerical solution employing the Generalized Integral Transf...
A theoretical analysis of heat transfer in fully-developed laminar flow in a concentric annulus with...
In this paper, a theoretical study of laminar forced convection inside ducts, subjected to periodica...
The present numerical study investigates the influence of fluid axial heat conduction, viscous dissi...
A finite difference analysis of the entrance region flow heat transfer of Herschel-Bulkley fluids in...
Laminar forced convection inside tubes of various cross-section shapes is of interest in the design ...
A hybrid numerical–analytical solution based on the Generalized Integral Transform Technique (GITT) ...
"The general problem of heat transfer in a concentric annulus with hydrodynamically fully establishe...
Abstract: A numerical study is conducted on the heat and fluid flow characteristics in an annulus be...
Finite element analysis for the laminar flow heat transfer in the entrance region of concentric annu...
This work deals with the study of the steady-state analysis of conjugated heat transfer process for ...
In this study the forced convection in the laminar flow in simultaneous developing is studied by app...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...
Related momentum and energy equations describing the heat and fluid flow of Herschel-Bulkley fluids ...
The thermal entry region in laminar forced convection of Herschel-Bulkley fluids is solved analytica...
This work describes a hybrid analytical‐numerical solution employing the Generalized Integral Transf...
A theoretical analysis of heat transfer in fully-developed laminar flow in a concentric annulus with...
In this paper, a theoretical study of laminar forced convection inside ducts, subjected to periodica...
The present numerical study investigates the influence of fluid axial heat conduction, viscous dissi...
A finite difference analysis of the entrance region flow heat transfer of Herschel-Bulkley fluids in...
Laminar forced convection inside tubes of various cross-section shapes is of interest in the design ...
A hybrid numerical–analytical solution based on the Generalized Integral Transform Technique (GITT) ...
"The general problem of heat transfer in a concentric annulus with hydrodynamically fully establishe...
Abstract: A numerical study is conducted on the heat and fluid flow characteristics in an annulus be...
Finite element analysis for the laminar flow heat transfer in the entrance region of concentric annu...
This work deals with the study of the steady-state analysis of conjugated heat transfer process for ...
In this study the forced convection in the laminar flow in simultaneous developing is studied by app...
Abstract: Laminar forced-convection heat transfer in a concentric annular pipe for a Newtonian fluid...