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Conference Structure
The
Conference has consist of invited lectures by international experts on
a broad range of phenomena, where non-equilibrium turbulent processes
occcur, contributed talks an poster presentations by particpants, round
tables, tutorial for graduate and professional learning, and open
discussions.
I. Invited lectures and contributed talks
- Canonical Turbulent and Turbulent Mixing: invariant, scaling, spectral properties, scalar transports, convection
- Wall-Bounded Flows:
structure and fundamentals, non-canonical turbulent boundary layers,
including unsteady and transitional flows, supersonic and hypersonic
flows, shock-boundary layer interactions
- Non-Equilibrium Processes: unsteady, multiphase and shock-driven
turbulent flows,
anisotropic non-local dynamics, connection of continuous description at
macro-scales to kinetic processes at atomistic scales
- Interfacial Dynamics: the instabilities of Rayleigh-Taylor, Kelvin-Helmholtz,
Richtmyer-Meshkov, Landau-Darrieus, Saffmann-Taylor
- High Energy Density Physics: inertial
confinement and heavy-ion fusion, Z-pinches, light-material and
laser-plasma interaction, non-equilibrium heat transfer
- Material Science: material transformation under high strain rates, equation of
state, impact dynamics, mixing at nano- and micro-scales
- Astrophysics: supernovae, interstellar medium, star formation, stellar interiors,
early Universe, cosmic-microwave background, accretion disks
- Magneto-hydrodynamics: magnetic
fusion and magnetically confined plasmas, magneto-convection, magneto-rotational
instability, dynamo
- Canonical Plasmas: coupled plasmas, anomalous resistance, ionosphere
- Physics of Atmosphere: environmental fluid dynamics, forecasting, turbulent flows in stratified media and atmosphere
- Geophysics and Earth Science: mantle-lithosphere tectonics, oceanography,
turbulent convection under rotation, planetary interiors
- Combustion: dynamics
of flames and fires, deflagration-to-detonation transition, blast waves and
explosions, flows with chemical reactions, reactive flows in jet engines
- Mathematical Aspects of Non-Equilibrium Dynamics: vortex dynamics, singularities, discontinuities,
asymptotic dynamics, weak solutions, well- and ill-posedness, continuous transports
out of thermodynamic equilibrium
- Stochastic Processes and Probabilistic Description: long-tail distributions and anomalous diffusion, data
assimilation and processing methodologies, error estimate and uncertainty
quantification, statistically unsteady processes
- Advanced Numerical Simulations: continuous DNS/LES/RANS, Molecular dynamics,
Monte-Carlo, predictive modeling, validation and verification of numerical
models
- Experimental Diagnostics: model experiments in high energy density and low
energy density regimes, plasma diagnostics, fluid flow visualizations and
control, opto-fluidics, novel optical method, holography, advanced technologies
II. Poster presentations by participants
III. Tutorials for graduate and professional learning
- experiments
and experimental diagnostics in fluids and plasmas
- methodologies on
data assimilation, processing and analysis
IV. Round table and open discussions
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