Numerical Study of Lorentz Force Interaction with Micro Structure in Channel Flow

The heat transfer Magnetohydrodynamics flows have been potentially used to enhance the thermal characteristics of several systems such as exchangers, electromagnetic casting, adjusting blood flow, X-rays, magnetic drug treatment, cooling nuclear reactors, and devices for cell separation. Our concern in this article is numerically investigate flow an incompressible micropolar fluid with transportation through a channel having porous walls. By employing suitable dimensionless coordinates, model equations are converted into nonlinear system ordinary differential equations, which then treated different preeminent parameters help quasi-linearization. complex can efficiently be solved using technique. Impact problem microrotation, temperature, velocity interpreted discussed tables graphs. present numerical results compared those presented previous literature examined good contact them. It has noted that imposed field acts frictional force not only increases shear stresses rates at walls, but also tends rotate micro particles more rapidly. Furthermore, viscous dissipation may raise temperature level possibility reversal exists, geometric boundaries domain. therefore recommended external fields effects considered caution applications where control required.