AbstractIn this paper, the flow field of a third-grade non-Newtonian fluid in the annulus of rotating concentric cylinders has been investigated in the presence of magnetic field. For this purpose, the constitutive equation of such a fluid flow was simplified, and the existence of the solution to the governing equation was established using Schauder's fixed point theorem. Using the finite difference method, the numerical solution of the non-dimensionalized form of the established governing equation was obtained. The effect of sundry parameters such as the rotating speed of the cylinders, the physical properties of fluid, and magnetic field intensity on the fluid velocity field was studied as well
Abstract: Research of rotating stationary flows of conducting fluid in magnetic field was ...
The Navier-Stokes equations are a good model for the flow of a wide class of fluids. The underlying ...
AbstractThis work is focused on the analytic solution of steady boundary layer axisymmetric flow of ...
AbstractIn this paper, the flow field of a third-grade non-Newtonian fluid in the annulus of rotatin...
This work numerically studies the flow pattern of a magnetic fluid filled within an annulus whose in...
A numerical and analytical study of the steady laminar flow driven by a rotating disk at the top of ...
In this paper, we investigate the effect of a magnetic field on a rotating fluid flow in a rotating ...
In this paper we first summarize the magnetic and mechanical balance equations for magnetorheologica...
The flow of a ferrofluid due to a rotating disk in the presence of a non-uniform magnetic field in t...
Effect of an axially appliedmagnetic field on the stability of a ferrofluid flow in an annular space...
Numerical solutions for a class of non-linear second order differential equations arising in third g...
In this paper, we considered the flow of an incompressible MHD third grade fluid in the annulus of c...
A closed form solution of the Navier-Stokes equations has been obtained in the case of steady axisym...
Abstract- Steady incompressible axisymmetric flow in a circular cylinder partially filled with conce...
The governing equations for the unsteady flow of a uniformly conducting incompressible fourth-grade ...
Abstract: Research of rotating stationary flows of conducting fluid in magnetic field was ...
The Navier-Stokes equations are a good model for the flow of a wide class of fluids. The underlying ...
AbstractThis work is focused on the analytic solution of steady boundary layer axisymmetric flow of ...
AbstractIn this paper, the flow field of a third-grade non-Newtonian fluid in the annulus of rotatin...
This work numerically studies the flow pattern of a magnetic fluid filled within an annulus whose in...
A numerical and analytical study of the steady laminar flow driven by a rotating disk at the top of ...
In this paper, we investigate the effect of a magnetic field on a rotating fluid flow in a rotating ...
In this paper we first summarize the magnetic and mechanical balance equations for magnetorheologica...
The flow of a ferrofluid due to a rotating disk in the presence of a non-uniform magnetic field in t...
Effect of an axially appliedmagnetic field on the stability of a ferrofluid flow in an annular space...
Numerical solutions for a class of non-linear second order differential equations arising in third g...
In this paper, we considered the flow of an incompressible MHD third grade fluid in the annulus of c...
A closed form solution of the Navier-Stokes equations has been obtained in the case of steady axisym...
Abstract- Steady incompressible axisymmetric flow in a circular cylinder partially filled with conce...
The governing equations for the unsteady flow of a uniformly conducting incompressible fourth-grade ...
Abstract: Research of rotating stationary flows of conducting fluid in magnetic field was ...
The Navier-Stokes equations are a good model for the flow of a wide class of fluids. The underlying ...
AbstractThis work is focused on the analytic solution of steady boundary layer axisymmetric flow of ...