Convection induced by a cusp-shaped magnetic field for air in a cube heated from above and cooled from below

Magnetizing force, which acts in a magnetic field of steep gradient, was applied to air in a cube heated from above and cooled from below and with the four vertical walls thermally insulated. A four-poles magnet was installed to apply the cusp-shaped magnetic field to air in the cubic enclosure. A simple model equation was derived for magnetizing force and numerically computed for the system. Without a magnetic field, the conduction was stable, but under the magnetizing force a strong downward flow occurred front the center of the top heated plate and the average Nusselt number attained Nu = 1.17 at Ra 10(5) and gamma = 0.5, which is equivalent to a temperature difference of 4 [degreesC] between the top and bottom walls under a maximum magnetic induction of 0.9 [T] inside a cube of (0.064)(3) [m(3)] heated from above. The flow visualization experiment with hot incense smoke proved the downward flow from the top hot plate.