Macroscopic Modelling of Turbulent Flows
Proceedings of a Workshop held at INRIA, Sophia-Antipolis, France, December 10-14, 1984
Published on 1. June 1985
Book
Paperback/Softback
X, 363 pages
978-3-540-15644-4 (ISBN)
Description
Homogenization and visco-elasticity of turbulence.- Sedimentation of a random dilute suspension.- Remarks on oscillations and Stokes' equation.- Large and small structures in the computation of transition to fully developed turbulent flows.- Eddy viscosity subgrid scale models for homogeneous turbulence.- Blow-up in the Navier-Stokes and Euler equations.- Large eddy simulations of turbulence in physical space analysis of spectral energy transfer.- Vortex stability and inertial-range cascades.- A stochastic subgrid model for sheared turbulence.- Some challenges for modelling of turbulence and internal waves in stably stratified fluids.- Numerical simulation of homogeneous turbulence.- Time-dependent rayleigh-benard convection in low prandtl number fluids.- Spectral closures to derive a subgrid scale modeling for large eddy simulations.- Modelling of three-dimensional shock wave turbulent boundary layer interactions.- Numerical and theoretical study of different flow regimes occurring in horizontal fluid layers, differentially heated.- Rotating turbulence evolving freely from an initial quasi 2D state.- Quasi-geostrophic turbulence and the mesoscale variability.- Small-scale atmospheric turbulence and its interaction with larger-scale flows.- Self-turbulizing flame fronts.- Simulation as an aid to phenomenological modeling.- Weak limits of semilinear hyperbolic systems with oscillating data.- Large scale oscillatory instability for systems with translational and galilean invariances.- The Kuramoto-Sivashinsky equation : A caricature of hydrodynamic turbulence ?.- Computation of a dimension for a model of fury developed turbulence.- Pattern formation by particles settling in viscous flows.- Liapounov exponents for the Kuramoto-Sivashinsky model.- Vortices and vortex-couples in two-dimensional turbulence long-lived couples are batchelor's couples.- Numerical simulation of decaying two-dimensional turbulence: Comparison between general periodic and Taylor-Green like flows.
More details
Series
Language
English
Place of publication
Berlin
Germany
Publishing group
Springer Berlin
Target group
Professional and scholarly
Research
Illustrations
240 s/w Abbildungen
X, 363 p. 240 illus.
Dimensions
Height: 244 mm
Width: 170 mm
Thickness: 21 mm
Weight
648 gr
ISBN-13
978-3-540-15644-4 (9783540156444)
DOI
10.1007/3-540-15644-5
Schweitzer Classification
Content
Homogenization and visco-elasticity of turbulence.- Sedimentation of a random dilute suspension.- Remarks on oscillations and Stokes' equation.- Large and small structures in the computation of transition to fully developed turbulent flows.- Eddy viscosity subgrid scale models for homogeneous turbulence.- Blow-up in the Navier-Stokes and Euler equations.- Large eddy simulations of turbulence in physical space analysis of spectral energy transfer.- Vortex stability and inertial-range cascades.- A stochastic subgrid model for sheared turbulence.- Some challenges for modelling of turbulence and internal waves in stably stratified fluids.- Numerical simulation of homogeneous turbulence.- Time-dependent rayleigh-benard convection in low prandtl number fluids.- Spectral closures to derive a subgrid scale modeling for large eddy simulations.- Modelling of three-dimensional shock wave turbulent boundary layer interactions.- Numerical and theoretical study of different flow regimes occurring in horizontal fluid layers, differentially heated.- Rotating turbulence evolving freely from an initial quasi 2D state.- Quasi-geostrophic turbulence and the mesoscale variability.- Small-scale atmospheric turbulence and its interaction with larger-scale flows.- Self-turbulizing flame fronts.- Simulation as an aid to phenomenological modeling.- Weak limits of semilinear hyperbolic systems with oscillating data.- Large scale oscillatory instability for systems with translational and galilean invariances.- The Kuramoto-Sivashinsky equation : A caricature of hydrodynamic turbulence ?.- Computation of a dimension for a model of fury developed turbulence.- Pattern formation by particles settling in viscous flows.- Liapounov exponents for the Kuramoto-Sivashinsky model.- Vortices and vortex-couples in two-dimensional turbulence long-lived couples are batchelor's couples.- Numerical simulation of decaying two-dimensional turbulence: Comparison between general periodic and Taylor-Green like flows.