论文信息 - Approximating the larger eddies in fluid motion V: Kinetic energy balance of scale similarity models

Approximating the larger eddies in fluid motion V: Kinetic energy balance of scale similarity models

We first review a classical scale-similarity model used to simulate the motion of large eddies in a turbulent flow. The kinetic energy balance of this model is very unclear in theory. Experiments with it often have reported that an additional Smagorinski type subgridscale term is needed. This term is not benign; it can alter significantly the predicted long term dynamics of the large eddies. However, we also show that the principal of scale-similarity (introduced in 1980 by Bardina, Ferziger and Reynolds) can also give rise to other scale similarity models which have the correct kinetic energy balance.

William Layton

[1] T. Hughes,et al. Large Eddy Simulation and the variational multiscale method , 2000 .

[2] Á. Aldama. Filtering Techniques for Turbulent Flow Simulation , 1990 .

[3] J. Smagorinsky,et al. GENERAL CIRCULATION EXPERIMENTS WITH THE PRIMITIVE EQUATIONS , 1963 .

[4] Endre Süli,et al. Modeling subgrid viscosity for advection–diffusion problems , 2000 .

[5] William J. Layton. A Nonlinear, Subgridscale Model for Incompressible viscous Flow Problems , 1996, SIAM J. Sci. Comput..

[6] Jean-Luc Guermond,et al. Stabilisation par viscosité de sous-maille pour l'approximation de Galerkin des opérateurs linéaires monotones , 1999 .

[7] Jean-Luc Guermond,et al. Subgrid stabilization of Galerkin approximations of monotone operators , 1999 .

[8] William Layton,et al. APPROXIMATION OF THE LARGER EDDIES IN FLUID MOTIONS II: A MODEL FOR SPACE-FILTERED FLOW , 2000 .