Influence of MHD on micropolar fluid flow past a sphere implanted in porous media

This work is devoted to find the impact of the magnetic field on the motion of incompressible micropolar fluid past a sphere implanted in Brinkman’s porous media. The flow is considered to be uniform, at a distance away from the sphere. The boundary conditions applicable at the interface are vanishing of velocity components (no-slip) and vanishing of microrotation (no-spin). Expressions for stream function and microrotation are presented in terms of modified Bessel functions. An explicit expression for drag force exerted on the sphere under the magnetic effect is calculated. Representation of coefficient of drag and tangential velocity for varying physical parameters including Hartmann number, permeability, micropolarity parameter and radius is exhibited pictorially in graphical form. The results reveal the influence of the pertinent parameters on the characteristics of flow and thus provide a way to alter the flow rate. Some special cases of flow past the impermeable sphere are validated with existing results.