Abstract
Two- and three-dimensional numerical simulations have been performed for mixed convective upward flows over a backward-facing step in a duct. The Reynolds number, expansion ratio, and aspect ratio (in 3-D simulations) were kept constant at Re = 125, ER = 2, and AR = 16, respectively. The heat flux at the wall downstream of the step was uniform. The straight wall, the step, and the side walls (in 3-D simulations) were assumed to be adiabatic. The effect of the buoyancy level, Ri*, was the major interest in this study. It was found that the reattachment point and the peak Nusselt number point moved upstream as Ri* was increased. The secondary recirculation region, which developed at the corner of the step, became larger. A secondary flow was also found in a cross section immediately downstream of the step. Flow directed toward the center of the duct became more intensive as Ri* increased, which possibly resulted from an increase in the level of three-dimensionality of the flow and thermal fields. © 1999 Scripta Technica, Heat Trans Asian Res, 28(1): 58–76, 1999
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