论文信息 - Modeling the turbulent kinetic energy equation for compressible, homogeneous turbulence

Modeling the turbulent kinetic energy equation for compressible, homogeneous turbulence

The turbulent kinetic energy transport equation, which is the basis of turbulence models, is investigated for homogeneous, compressible turbulence using direct numerical simulations performed at CTR. It is shown that the partition between dilatational and solenoidal modes is very sensitive to initial conditions for isotropic decaying turbulence but not for sheared flows. The importance of the dilatational dissipation and of the pressure-dilatation term is evidenced from simulations and a transport equation is proposed to evaluate the pressure-dilatation term evolution. This transport equation seems to work well for sheared flows but does not account for initial condition sensitivity in isotropic decay. An improved model is proposed.

[1] Gordon Erlebacher,et al. The analysis and simulation of compressible turbulence , 1990, Theoretical and Computational Fluid Dynamics.

[2] Gordon Erlebacher,et al. The analysis and modelling of dilatational terms in compressible turbulence , 1989, Journal of Fluid Mechanics.

[3] G. Blaisdell,et al. Numerical simulation of compressible homogeneous turbulence , 1991 .

[4] Gordon Erlebacher,et al. Direct simulation of compressible turbulence , 1989 .

[5] Otto Zeman,et al. Dilatation dissipation: The concept and application in modeling compressible mixing layers , 1990 .