Transient low prandtl number fluid convection in a lid-driven cavity

TLDR: In this paper, the authors analyzed the effect of lid shear on convective motion and heat transfer in a square cavity driven by combined temperature gradient and imposed lid-shear, and the evolution of unsteady flow in a cavity is discussed.

Abstract: Transient convective motion and heat transfer in a square cavity driven by combined temperature gradient and imposed lid shear are analyzed. The cavity is filled with a low Prandtl fluid, and the vertical walls are maintained at different but constant temperatures. The horizontal connecting walls are adiabatic. The upper wall is moving and either aids or opposes the buoyancy-driven motion. A control volume method is employed to compute the flow and temperature fields. Numerical results are reported for Pr = 0·005, Gr = 1 × I07, and a range of Reynolds numbers for both aiding and opposing flow situations. The evolution of unsteady flow in a cavity is discussed. For GrIRe2 ≥ 1 the effect of inertia is insignificant. For GrIRe2 ≤ 1 the inertia stabilizes the flow, regardless of the direction of the applied shear force.