Litcius/Paper detail

Compressibility effect on interaction of shock wave and turbulent boundary layer

Zhou Jiang, Yongchao Ji, Jianchun Wang

2022Physics of Fluids10 citationsDOI

Abstract

The compressibility effect when an oblique shock wave impinges on a turbulent boundary layer was analyzed with a direct numerical simulation using Helmholtz decomposition. The turbulent intensity near the impinging region is significantly enhanced by the interaction of the shock wave and boundary layer. In particular, the interaction behavior can enhance the dilatational components of the Reynolds stress and velocity fluctuations. This also enhances the negative correlation between the dilatational components of streamwise and normal velocity fluctuations. The dilatation fluctuation in the impinging region increases significantly. Moreover, in the impinging region, the dilatational components of the production term and transport term contribute to the production and transport terms of the kinetic energy equation mainly in the vicinity of the interface. This simulation shows that the interaction behavior of an oblique shock wave and turbulent boundary layer can enhance flow compressibility significantly. In the interaction region, the turbulent intensity of the flow field is stronger than those upstream and downstream. This study provides a theoretical basis for the improvement of other simulation methods and turbulence modeling for the interaction of an oblique shock wave and turbulent boundary layer.

Topics & Concepts

PhysicsMechanicsTurbulenceOblique shockTurbulence kinetic energyBoundary layerReynolds stressShock waveShock (circulatory)CompressibilityK-epsilon turbulence modelClassical mechanicsMedicineInternal medicineFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and AerodynamicsParticle Dynamics in Fluid Flows