Numerical analysis for forced convection over a flat plate in power law fluids

An onolysis is presented for skin friction of power law fluids in turbulent flow over a flat plate. A momentum balance is combined with a logarithmic velocity profile and the resulting equation is integrated. Skin friction is shown to be a function of nowNewtonian Reynolds number and power law shear

An analysis is performed to study the heat transfer characteristics of laminar mixed convective boundary-layer flow over a semi-infinite horizontal flat plate with non-uniform surface temperatures. The surface temperature is assumed to vary as a power of the axial coordinate measured from the leadin

The asymptotic behaviour of the temperature field for the laminar and hydrodynamically developed forced convection of a power-law fluid which flows in a circular duct is studied. The effect of viscous dissipation is taken into account, while the axial heat conduction in the fluid is considered as ne

laminar free-convection boundary-layer flow of a power-law fluid over a vertical heated plate under mixed thermal boundary conditions is investigated. A transformation relating the similarity solutions of the boundary-layer velocity and temperature profiles is obtained.