Abstract
The influence of rotation and physical properties of bounding walls on a generalized one-dimensional Hartmann flow (HF) and heat transfer is investigated. The channel rotates with a constant angular velocity about an axis perpendicular to the walls in a uniform transverse magnetic field. Exact solutions for the velocity, magnetic field, viscous stress, current density, temperature distribution, yield components, net electric current components, mean temperature as well as Nusselt numbers are derived. Effects of relevant parameters such as rotation parameter, Hartmann, Eckert and Prandtl numbers, wall conductivities, wall thicknesses are examined numerically and shown graphically.
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