Large-Eddy Simulations of TurbulenceLarge-Eddy Simulations of Turbulence is an ideal introduction for people new to LES [large-eddy simulation], direct numerical simulation and Reynolds-averaged Navier-Stokes simulation, and as a reference for researchers. Of particular interest in the text are the detailed discussion, in Chapter 2, of vorticity, pressure, and the velocity gradient tensor, quantities useful for probing the results of a simulation, particularly when looking for coherent vortices and coherent structures. Chapters 4 and 5 feature an in-depth discussion of spectral subgrid-scale modeling. Although physical-space models are generally more readily applied, spectral models give insight into the requirements and limitations in subgrid-scale modeling and backscattering. A third special feature is the detailed discussion in Chapter 7, of large-eddy simulation of compressible flows previously only available in articles scattered throughout the literature. This will be of interest to those dealing with supersonic flows, combustion, astrophysics, and other related topics. |
Contents
3 | 6 |
1 | 13 |
2 | 21 |
Spectral LES for isotropic turbulence | 50 |
Spectral LES for inhomogeneous turbulence | 80 |
LES of compressible turbulence | 127 |
39 | 133 |
51 | 155 |
55 | 169 |
Geophysical fluid dynamics | 185 |
| 205 | |
| 208 | |
Common terms and phrases
Animation anticyclonic backscatter baroclinic baroclinic instability boundary layer Boussinesq approximation cavity channel Chapter coefficient coherent vortices compressible computational convective Mach number corresponds Courtesy cyclonic decaying Delcayre density direct numerical simulations dissipative domain downstream Dubief Ducros duct dynamic eddy viscosity EDQNM ejected evolution Figure filtered flat plate fluctuations Fluid Mech flux gradient Grenoble grid hairpins heated wall Hermès incompressible initial instability isosurfaces isotropic turbulence kinetic kinetic-energy spectrum Kolmogorov Lamballais large-eddy simulation Lesieur 170 linear-stability longitudinal velocity longitudinal vorticity Métais mixing layer molecular Navier-Stokes equation numerical simulation perturbation Phys plane plateau-peak positive Q present pressure Q isosurfaces quasi-two-dimensional region Reynolds number Reynolds stresses riblets Rossby number rotation scalar scales SF model shows spanwise direction spatial streaks streamwise stress structure subgrid-scale temperature tensor three-dimensional turbulent boundary layer turbulent flows two-dimensional U₁ upstream velocity velocity profile vortex vortex lines wall units wavenumber