Turbulent Mixing and BeyondSecond International Conference and Advanced School27 July - 07 August, 2009The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy |
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Outline of Themes of the Conference and Topics of the SchoolNon-equilibrium Turbulent Processes
play a key role in a wide variety of phenomena,
ranging from astrophysical to atomistic scales, under either high or
low energy
density conditions. Inertial confinement and magnetic fusion,
light-matter interaction and non- equilibrium heat transfer, strong
shocks and explosions, material transformation under high
strain
rate, supernovae and accretion disks, stellar non-Boussinesq and
magneto-convection, planetary interiors and mantle-lithosphere
tectonics,
premixed and non-premixed combustion, non-canonical wall-bounded flows,
hypersonic and supersonic boundary layers, dynamics of atmosphere and
oceanography,
are just a few examples to list. A grip on non-equilibrium turbulent
processes
is crucial for cutting-edge technology such as laser micro-machining, nano-electronics, free-space optical telecommunications,
and for
industrial applications in the areas of aeronautics and aerodynamics.
Non-equilibrium Turbulent Processes are anisotropic, non-local, multi-scale and multi-phase, and often are driven by shocks or acceleration. Their scaling, spectral and invariant properties differ substantially from those of classical Kolmogorov turbulence. At atomistic and meso-scales, the non-equilibrium dynamics depart dramatically from a standard scenario given by Gibbs statistic ensemble average and quasi-static Boltzmann equation. The singular aspect and the similarity of the non-equilibrium dynamics at macroscopic scales are interplayed with the fundamental properties of the Euler and compressible Navier-Stokes equations and with the problem sensitivity to the boundary conditions at discontinuities. The state-of-the-art numerical simulations of multi-phase flows suggest new methods for predictive modeling of the multi-scale non-equilibrium dynamics in fluids and plasmas, up to peta-scale level, for error estimate and uncertainty quantification, as well as for novel data assimilation techniques. The Conference and the School “Turbulent Mixing and Beyond” is structured to encourage the participants’ communications with experts from different fields, to promote the exchange of ideas and suggestion of open problems, and to motivate the discussions of rigorous mathematical issues, theoretical approaches and state-of-the-art numerical simulations along with advanced experimental techniques and technological applications. The sessions are intended to run sequentially. |