Effect of Jeffrey Fluid Flow and First Order Chemical Reaction on Magneto Convection of Immiscible Fluids in a Perpendicular Passage

In this article describes the effects of transfer heat and mass on free convective flow of developed fully electrically conducting with electrically Non-conducting immiscible fluids towards a perpendicular parallel passage. The resulting nonlinear governing coupled equations describes the fluid behaviour for velocity and temperature distributions are analysed and by applying method regular perturbation the differential equations are analytically solved with appropriate boundary and interface conditions for each fluid. Furthermore, the jump conditions for velocity and temperature are implemented on the left and right walls in the magnetic field existence in a perpendicular passage. The solutions are revealed through graphs for major parameters like thermal Grashof number, mass Grashof number, ratio of viscosity, width and conductivity, pressure gradient, Jeffrey parameter and chemical reaction parameter.