Litcius/Paper detail

On the turbulence amplification in shock-wave/turbulent boundary layer interaction

Jian Fang, Александр Андреевич Желтоводов, Yufeng Yao, Charles Moulinec, David R. Emerson

2020Journal of Fluid Mechanics111 citationsDOIOpen Access PDF

Abstract

The mechanism of turbulence amplification in shock-wave/boundary layer interactions is reviewed, and a new turbulence amplification mechanism is proposed based on the analysis of data from direct numerical simulation of an oblique shock-wave/flat-plate boundary layer interaction at Mach 2.25. In the upstream part of the interaction zone, the amplification of turbulence is not essentially shear driven, but induced by the interaction of the deceleration of mean flow with streamwise velocity fluctuations, which causes a rapid increase of turbulence intensity in the near-wall region. In the downstream part of the interaction zone, the high turbulence intensity is mainly due to the free shear layer generated in the interaction zone. During the initial stage of turbulence amplification, the characteristics of wall turbulence, including compact velocity streaks, streamwise vortices and an anisotropic Reynolds stress, are well preserved. The mechanism proposed explains the high level of turbulence in the near-wall region observed in some experiments and numerical simulations.

Topics & Concepts

TurbulenceBoundary layerMechanicsShock wavePhysicsK-epsilon turbulence modelShock (circulatory)Turbulence modelingMedicineInternal medicineFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and AerodynamicsCombustion and flame dynamics
On the turbulence amplification in shock-wave/turbulent boundary layer interaction | Litcius