Effects of Reynolds Number on Vortex Structure Evolution in a Square Cavity with Two Opposite Moving Lids

Abstract: The vortex structure of two-dimensional flow in a cavity is calculated using the differential quadrature method. The numerical simulation focuses on investigating the effects of Reynolds number on vortex structure evolution of the flow in a square cavity with two opposite and equal speed moving lids. The streamline patterns and bifurcation diagrams are determined. The numerical results show that the flow in the cavity takes on the streamline pattern of completely symmetric vortex structure when the Reynolds nu… Show more

“…About the computational principle and algorithm of differential quadrature method, see [13]. About the quality and accuracy of differential quadrature code used to solve two-dimensional incompressible flow in a cavity, see [12].…”

“…Especially, Cheng [11] numerated the flow configuration in a single-lid-driven rectangular cavity at different aspect ratios and Reynolds numbers using lattice Boltzmann method. He [12] investigated the effects of Reynolds number on vortex structure evolution in a double-lid-driven square cavity.…”

Study on the Symmetry of Vortex Structure Distribution in a Cavity

“…About the computational principle and algorithm of differential quadrature method, see [13]. About the quality and accuracy of differential quadrature code used to solve two-dimensional incompressible flow in a cavity, see [12].…”

“…Especially, Cheng [11] numerated the flow configuration in a single-lid-driven rectangular cavity at different aspect ratios and Reynolds numbers using lattice Boltzmann method. He [12] investigated the effects of Reynolds number on vortex structure evolution in a double-lid-driven square cavity.…”

Study on the Symmetry of Vortex Structure Distribution in a Cavity

Comparative Statistical Analysis with Buoyancy Effects on Partitioned Cavity