A multiscale subgrid model for both free vortex flows and wall-bounded flows

A new subgrid-scale (SGS) model which has an adequate behavior in both vortical flows and wall-bounded flows is proposed. In wall-bounded flows with "wall-resolved" large eddy simulation (LES), the theory predicts that the SGS dissipation should vanish as y(+3) near the wall. In free vortex flows, one needs to have models which do not dissipate energy in the strongly vortical and essentially laminar part of the flow, e. g., in the vortex core regions. The wall adapting local eddy (WALE) viscosity model of Nicoud and Ducros (Flow, Turbul. Combust. 62, 183 (1999)] has the correct near-wall behavior. It is, however, demonstrated here that it produces values of effective eddy viscosity which are too high in vortical flows: this constitutes a major drawback for LES of vortex flows. On the other hand, the regularized variational multiscale models are suitable to simulate vortical flows as demonstrated by Cocle et al. [Complex Effects in LES (Springer, New York, 2007), p. 56], but they do not have a correct behavior in wall-bounded flows as shown by Jeanmart and Winckelmans [Phys. Fluids 19, 055110 (2007)]. The model presented here aims at combining the strengths of the two models: it is a multiscale model, thus acting on the high pass filtered LES field, and for which the SGS viscosity is evaluated using the WALE model, itself also computed using the high pass filtered field. Hence, this model is only active when there is locally a significant high wavenumber content in the flow and it has a natural near-wall damping behavior. The ability of this model to simulate vortex and wall-bounded flows is demonstrated on three test cases. The first case is the turbulent channel flow at Re-tau=395 and Re-tau=590. The second test concerns a counter-rotating four-vortex system at Re-Gamma=20 000. The third case concerns a two-vortex system in ground effect at Re-Gamma=20 000. It is shown that the model allows to perform successfully the LES of these flows with the proper dissipative behavior in both the near-wall and the vortical regions. (C) 2009 American Institute of Physics. [doi:10.1063/1.3241991]

[1]  Byung Do Oh,et al.  Canonical fractional-step methods and consistent boundary conditions for the incompressible Navier—Stokes equations , 2001 .

[2]  Laurent Bricteux,et al.  Scale dependence and asymptotic very high Reynolds number spectral behavior of multiscale subgrid models , 2009 .

[3]  F. Nicoud,et al.  Subgrid-Scale Stress Modelling Based on the Square of the Velocity Gradient Tensor , 1999 .

[4]  Hervé Jeanmart,et al.  Investigation of eddy-viscosity models modified using discrete filters : A simplified regularized variational multiscale model and an enhanced field model , 2007 .

[5]  Bernardus J. Geurts,et al.  Direct and Large-Eddy Simulation V , 2004 .

[6]  Thomas J. R. Hughes,et al.  The multiscale formulation of large eddy simulation: Decay of homogeneous isotropic turbulence , 2001 .

[7]  B. Geurts,et al.  Direct and large-eddy simulation IV , 2001 .

[8]  Ugo Piomelli,et al.  On the large‐eddy simulation of transitional wall‐bounded flows , 1990 .

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

[10]  Thomas J. R. Hughes,et al.  Multiscale and Stabilized Methods , 2007 .

[12]  Leonhard Kleiser,et al.  High-pass filtered eddy-viscosity models for large-eddy simulations of transitional and turbulent flow , 2005 .

[13]  Johan Meyers,et al.  Quality and Reliability of Large-Eddy Simulations , 2008 .

[14]  P. Moin,et al.  A dynamic subgrid‐scale eddy viscosity model , 1990 .

[15]  P. Sagaut BOOK REVIEW: Large Eddy Simulation for Incompressible Flows. An Introduction , 2001 .

[16]  Laurent Bricteux,et al.  Spectral Behavior of Various Subgrid-Scale Models in LES at Very High Reynolds Number , 2008 .

[17]  Grégoire Winckelmans,et al.  Investigation of multiscale subgrid models for LES of instabilities and turbulence in wake vortex systems , 2007 .

[18]  Oleg V. Vasilyev High Order Finite Difference Schemes on Non-uniform Meshes with Good Conservation Properties , 2000 .

[19]  H. Vollmers,et al.  INSTABILITY AND UNSTEADINESS OF AIRCRAFT WAKE VORTICES , 2003 .

[20]  Daniel W. Meyer,et al.  High-Pass Filtered Eddy-Viscosity Models for LES , 2004 .

[21]  Hervé Jeanmart,et al.  Assessment of some models for LES without/with explicit filtering , 2001 .

[22]  K. Lilly On the application of the eddy viscosity concept in the Inertial sub-range of turbulence , 1966 .

[23]  A. W. Vreman The filtering analog of the variational multiscale method in large-eddy simulation , 2003 .

[24]  P. Sagaut,et al.  A finite-volume variational multiscale method coupled with a discrete interpolation filter for large-eddy simulation of isotropic turbulence and fully developed channel flow , 2006 .

[25]  K. Lilly The representation of small-scale turbulence in numerical simulation experiments , 1966 .

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