Mixed Convection Heat Transfer in a Lid-Driven Cavity under the Effect of a Partial Magnetic Field
Bengisen Pekmen, Hakan F. Öztop
Abstract
Mixed convection flow in a lid-driven cavity in the presence of a uniform partial magnetic field is investigated utilizing the pseudo spectral method based on polyharmonic spline radial basis functions. The two-dimensional problem is concerned in a unit square cavity designed by adiabatic horizontal walls and vertical walls with constant temperatures. The top wall moves either in the positive x or in the negative x directions. The partial magnetic field is taken into account in the positive y direction. Working fluid is chosen as air. Efficiency of dimensionless Hartmann number and Richardson number on fluid flow and heat transfer is presented as well as the length and the central location of partial magnetic field. Flow is affected in the direction of vertical partial magnetic field, and is propelled to the other parts of the cavity regarding the central location of magnetic field. In case of middle centered partial magnetic field. The increase in the length of the partial magnetic field and the middle centered partial magnetic field as well reduce the convective heat transfer. The negative x directed lid-driven cavity has less influence on convection than the positive x directed lid-driven cavity.