Advances in turbulence VI: proceedings of the Sixth European Turbulence Conference held in Lausanne, Switzerland, 2-5 July 1996
Kluwer Academic Publishers, 1996 - Mathematics - 627 pages
Advances in Turbulence VI presents an update on the state of turbulence research with some bias towards research in Europe, since it represents an almost complete collection of the paper presentations at the Sixth European Turbulence Conference, sponsored by EUROMECH, ERCOFTAC and COST, and held at the Swiss Federal Institute of Technology in Lausanne, July 2-5, 1996. The problem of transition, together with the structural description of turbulence, and the scaling laws of fully developed turbulence have continued to receive most attention by the research community and much progress has been made since the last European Turbulence Conference in 1994. The volume is thus geared towards specialists in the area of flow turbulence who could not attend the conference, as well as anybody who wishes quickly to assess the most active current research areas and the groups associated with them.
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LargeEddy Simulation of Aircraft Exhaust Plumes in the Free
A New Explicit Algebraic Reynolds Stress Model
Instability Considerations for Velocity Streaks in NearWall Turbulence
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Advances in Turbulence VI: Proceedings of the Sixth European Turbulence ...
S. Gavrilakis,L. Machiels,P.A. Monkewitz
No preview available - 2011
Advances in Turbulence amplitude analysis bubble coefficients coherent structures component computational convection correlation Couette flow cylinder density developed turbulence diffusion dimensional direct numerical simulation distribution downstream dynamics effects enstrophy evolution experimental experiments exponents Figure flow field fluctuations Fluid Mech frequency Gavrilakis gradient grid homogeneous incompressible instability interaction interface intermittency investigate isotropic isotropic turbulence kinetic energy Kolmogorov large eddy large eddy simulation large-eddy simulation length scale linear mean flow mean velocity measurements Mechanics mixing layer modes Navier-Stokes equations near-wall nonlinear observed obtained oscillating parameters particles perturbation Phys plane predictions pressure region Reynolds number Reynolds stress Reynolds stress model rotation scalar shear flow shear layer shown shows spanwise spatial spectral stability statistical streamwise structure functions tensor three-dimensional transition turbulence models turbulent boundary layer turbulent flows two-dimensional values vector velocity field velocity profile viscous vortex tube vorticity wake wall wave wavelet wavenumber