Statistical Theories and Computational Approaches to Turbulence

I Application of the Statistical Theory to Stratified and Rotating Turbulence.- Computational Challenges for Global Dynamics of Fully Developed Turbulence in the Context of Geophysical Flows.- Structural and Statistical Aspects of Stably Stratified Turbulence.- Dynamics of Rotating Stably Stratified Flows.- An Introduction to Mixing in a Stably Stratified Fluid.- Linear Processes in Stratified Turbulence with Rotation or Mean Shear.- II Wall-Bounded Flows.- Very Large Anisotropic Scales in Turbulent Wall-Bounded Flows.- Turbulent Plume Diffusion in a Pipe Flow by the PDF Method.- A Hybrid RANS/LES Calculation of Turbulent Channel Flow.- Anisotropy versus Universality in Shear Flow Turbulence.- LES Study on the Very Large-Scale Structures of Wall-Bounded Turbulence and an Effect of Thermal Stratification.- III Statistical Theory of Turbulence and LES Modeling.- High Resolution DNS of Incompressible Homogeneous Forced Turbulence —Time Dependence of the Statistics—.- Subgrid Models for Two-Dimensional Turbulence based on Lagrangian Spectral Theory.- LES Modelings based on the Lagrangian Renormalized Approximation.- LES of Stably Stratified Turbulence.- The Eulerian Time Correlation Function in Homogeneous Isotropic Turbulence.- Predictability of 3D Isotropic Turbulence —Effect of Data Assimilation—.- Orthonormal Divergence-Free Wavelet Analysis of Spatial Correlation between Kinetic Energy and Nonlinear Transfer in Turbulence.- Statistics of the Energy Dissipation Rate in Turbulence.- Lyapunov Exponent of the System Described by Kuramoto-Sivashinsky Equation.- IV Geophysical Turbulence.- Toward a Statistical Ocean Dynamics.- Internal-Wave-Packet Propagation and Breaking.- Pattern Formation in Two-Dimensional Turbulence on a Rotating Sphere.- Quasi-GeostrophicTurbulence in a One-Layer Ocean affected by Horizontal Divergence.- Self-Similarity of Decaying Two-Dimensional Turbulence governed by the Charney—Hasegawa—Mima Equation.- A Fast Method for the Calculation of the Fluid Flow on a Sphere using a Combined Compact Difference Scheme.- V Panel Sessions.- Panel Session 1: Advanced Computational Approaches in Turbulence Research.- Panel Session 2: Turbulence Research for Geophysical Applications.