EFFECT OF MAGNETIC FIELD ON NEWTONIAN FLUID SANDWICHED BETWEEN NON-NEWTONIAN FLUIDS THROUGH POROUS CYLINDRICAL SHELLS
Deepak Kumar Maurya, Satya Deo
Abstract
The present work deals with the influence of magnetic field on Newtonian fluid sandwiched between two porous cylindrical pipes which are filled with micropolar fluids. Fluid motion is occurring along the z*-axis and an applied magnetic field is taken in the direction perpendicular to the direction of fluid motion. On applying appropriate boundary conditions, velocity profiles, microrotations, flow rate, and shear stresses are obtained for the corresponding fluid regions. The graphs for volumetric flow rate and fluid velocity are plotted and discussed for different values of micropolar parameter, couple stress parameter, porosity, viscosity ratio parameter, Hartmann number, conductivity ratio parameters, and Darcy numbers.