Oscillatory Flow of a Dusty Fluid in a Channel with Slip Condition

Abstract

The objective of this thesis is to analyze the consequences of velocity and thermal slip boundary conditions on the oscillatory flow of dusty nanofluid. The fluid is passing through the vertical permeable channel filled with permeable medium under the impact of magnetic field. By using similarity transformation, the governing partial differential equations are modified in non-dimensional equations, after this the systems of equations are analytically solved by employing separation of variable technique. The physical impact on flow field by different pertinent parameters are offered graphically and discussed. One can observe from the results that concentration of nanoparticles tends to increase the velocity of fluid, velocity of dust particles as well as temperature of the fluid. Velocity slip boundary condition significantly influence the velocity of the fluid rather than velocity of dust particles. Temperature of EG Fe3O4 is an increasing function of Q, furthermore the thermal boundary is increased with Q.