The spacetime conservation element-solution element(CE/SE)method is extended to two-dimensional incompressible viscous flow in a two-sided lid-driven square cavity.Based on the SIMPLE method concept,the preconditioned...The spacetime conservation element-solution element(CE/SE)method is extended to two-dimensional incompressible viscous flow in a two-sided lid-driven square cavity.Based on the SIMPLE method concept,the preconditioned dual-time scheme is introduced for unsteady computations.The CE/SE-based code is validated by simulating one-sided lid-driven cavity flows.The two-sided lid-driven square cavity problem involves several interesting characteristics being successfully predicted,including development of a pair of off-corner vortices and a free shear layer in the case of parallel wall motion,as well as the appearance of corner vortices for lower Reynolds numbers in the case of anti-parallel motion of the walls.It is found that both the Reynolds number and the direction of the moving walls affect the fluid flow in the cavity.展开更多
基金Supported by the Institute of Crustal Dynamics,CEA under Grant No ZDJ2010-26Wenchuan Fault Scientific Drilling(WFSD-10).
文摘The spacetime conservation element-solution element(CE/SE)method is extended to two-dimensional incompressible viscous flow in a two-sided lid-driven square cavity.Based on the SIMPLE method concept,the preconditioned dual-time scheme is introduced for unsteady computations.The CE/SE-based code is validated by simulating one-sided lid-driven cavity flows.The two-sided lid-driven square cavity problem involves several interesting characteristics being successfully predicted,including development of a pair of off-corner vortices and a free shear layer in the case of parallel wall motion,as well as the appearance of corner vortices for lower Reynolds numbers in the case of anti-parallel motion of the walls.It is found that both the Reynolds number and the direction of the moving walls affect the fluid flow in the cavity.
