Parametrical study and turbulence analysis of high-speed flows around an open cavity using large eddy simulation

Abstract

Large eddy simulation is used in this work to simulate the three-dimensional turbulent flow in an open cavity, with special attention paid to the parametrical effect and turbulence analysis. The effect of mesh resolution, the sub-grid model and the advection scheme on the resolved flow structure is discussed in detail. Then, the mechanism of flow-induced pressure fluctuation associated with the primary and secondary vortex in the shear layer is clarified quantitatively and qualitatively. Finally, the turbulent kinetic energy and turbulence production rate, the contribution of three components to total turbulence production rate and the main single contributor are analyzed systematically. The present simulations are performed for two Reynolds numbers and the results show that the flow is more turbulent with the increase in Reynolds number, but the general flow morphology is almost the same. It is expected that the basic founding is useful for understanding such similar flows and will provide some guidelines for controlling the vortex-induced flow instability in engineering applications.