Heat and Mass Transfer Analysis on Magneto Micropolar Fluid Flow with Heat Absorption in Induced Magnetic Field

Heat and mass transfer due to a magneto micropolar fluid flow along semi-infinite vertical plate bounded by porous medium are investigated in presence of induced magnetic field. In case cooling flow, heat fluxes from the subjected be constant under action sink. Mathematical model related problem is developed basis studying magnetohydrodynamics (MHD) for both lighter heavier particles. Dimensionless momentum, microrotation, induction, energy concentration equations solved simultaneously explicit scheme finite difference technique. According obtained stability convergence criteria this transient very negligible time step (Δt = 0.002) compared existing works has been taken perform numerical computation. Quantities chief physical interest as shear stress, couple current density, Nusselt number Sherwood also studied here. The numerically computed results with published available research works. Interestingly an excellent agreement found solutions implicit schemes. order discuss aspects problem, variables different values associated parameters illustrated graphs. Finally, important findings study listed concluding remarks.