In this work, the momentum and thermal boundary layers for power-law fluids over a thin needle have been investigated numerically under wide ranges of kinematic and physical conditions. The curvature effects are incorporated into the analysis whereas the pressure variation in the axial direction has been neglected. Extensive results on axial velocity and temperature profiles elucidating the complex interplay between the shear-thinning or shear-thickening characteristics of the fluid, size of the needle and the Reynolds number of flow are presented herein. The role of the two commonly used thermal boundary conditions (constant temperature and constant heat flux) has been illustrated by way of contrasting the resulting temperature profiles an...
The steady laminar boundary layer flow on a thin and isothermal moving cylinder in a viscous compres...
In this thesis, equations using momentum and heat transfer theory for Power-Law, non-Newtonian fluid...
In this work, the continuity and momentum equations have been solved numerically to investigate the ...
Numerical solutions are sought, using FLUENT, to the mass, momentum and thermal energy equations for...
The momentum and forced convection heat transfer characteristics for an incompressible and steady fr...
The governing equations describing the momentum and heat transfer phenomena of power-law non-Newtoni...
In this work, free convective heat transfer from a horizontal cylinder immersed in quiescent power-l...
The free surface model has been combined with the equations of motion and of thermal energy to inves...
Laminar natural convection heat transfer from a heated long cylinder of square cross-section submerg...
The momentum equations describing the steady cross-flow of power law fluids past an unconfined circu...
The steady, two-dimensional and incompressible flow of power-law fluids across an unconfined isother...
The two-dimensional flow of power-law fluids over an isolated unconfined square cylinder has been in...
An integral approach of the boundary layer analysis is em-ployed for the modeling of fluid flow arou...
Extensive numerical simulations for the 2-D laminar flow of power-law fluids over an equilateral tri...
An integral approach is employed to investigate the effects of blockage on fluid flow and heat trans...
The steady laminar boundary layer flow on a thin and isothermal moving cylinder in a viscous compres...
In this thesis, equations using momentum and heat transfer theory for Power-Law, non-Newtonian fluid...
In this work, the continuity and momentum equations have been solved numerically to investigate the ...
Numerical solutions are sought, using FLUENT, to the mass, momentum and thermal energy equations for...
The momentum and forced convection heat transfer characteristics for an incompressible and steady fr...
The governing equations describing the momentum and heat transfer phenomena of power-law non-Newtoni...
In this work, free convective heat transfer from a horizontal cylinder immersed in quiescent power-l...
The free surface model has been combined with the equations of motion and of thermal energy to inves...
Laminar natural convection heat transfer from a heated long cylinder of square cross-section submerg...
The momentum equations describing the steady cross-flow of power law fluids past an unconfined circu...
The steady, two-dimensional and incompressible flow of power-law fluids across an unconfined isother...
The two-dimensional flow of power-law fluids over an isolated unconfined square cylinder has been in...
An integral approach of the boundary layer analysis is em-ployed for the modeling of fluid flow arou...
Extensive numerical simulations for the 2-D laminar flow of power-law fluids over an equilateral tri...
An integral approach is employed to investigate the effects of blockage on fluid flow and heat trans...
The steady laminar boundary layer flow on a thin and isothermal moving cylinder in a viscous compres...
In this thesis, equations using momentum and heat transfer theory for Power-Law, non-Newtonian fluid...
In this work, the continuity and momentum equations have been solved numerically to investigate the ...