论文信息 - Is plane-channel flow a friendly case for the testing of large-eddy simulation subgrid-scale models?

Is plane-channel flow a friendly case for the testing of large-eddy simulation subgrid-scale models?

We present the grid-convergence behavior of channel-flow direct numerical simulations (DNS) at coarse resolutions typically encountered in large-eddy simulation subgrid-model testing. An energy-conservative discretization method is used to systematically vary the streamwise (Nx) and spanwise (Nz) resolution. We observe that the skin friction does not converge monotonously, and at coarse resolutions, a line of Nx–Nz combinations is found where the error on the skinfriction is zero. Along this line, mean profiles are evaluated and found to fit surprisingly well fully resolved DNS results. The location of this line is shown to depend on the Reynolds number and the wall-normal resolution.

Johan Meyers | Pierre Sagaut | P. Sagaut | J. Meyers

[1] A. Veldman,et al. Symmetry-preserving discretization of turbulent flow , 2003 .

[2] Nobuhide Kasagi,et al. Reynolds Number Effect on Wall Turbulence: Toward Effective Feedback Control , 2002 .

[3] John Kim,et al. DIRECT NUMERICAL SIMULATION OF TURBULENT CHANNEL FLOWS UP TO RE=590 , 1999 .

[4] Johan Meyers,et al. Optimal model parameters for multi-objective large-eddy simulations , 2006 .