Hall and Ion-Slip Effects on Natural Convection Flow in a Vertical Channel Filled with Nanofluid

In this paper, the natural convection flow of incompressible electrically conducting nanofluid in a vertical channel is investigated. A magnetic field of uniform strength is applied perpendicular to the vertical channel. The magnetic Reynolds number is assumed very small so that the induced magnetic field effect is negligible. The injection/suction velocity at both plates is constant. Taking Hall current and Ion-slip effect into account, the governing nonlinear equations are non-dimensionalized and then solved using the homotopy analysis method. The effect of various parameters on velocity, temperature and nanoparticle concentration are examined and shown graphically.