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Gathering contributions by the most prominent researchers in a highly specialised field, this proceedings volume clarifies selected aspects of the physics of turbulent cascades and their statistical universalities under complex stationary and non-homogeneous conditions.
Here, these conditions are induced by the presence of a gas/liquid interface, inertial particles, strong shear, rotation, MHD and stratification. By proposing different ways to model turbulence effects under these complex conditions, the book will be of considerable interest not only to academic researchers, but also to specialists and junior researchers in the domain of propulsion and power, as well as those whose work involves various applications related to atmospheric, oceanic and planetary physics.
List of contents
Part I: Multi-scales Interactions and Non-stationary Cascades: Physics, Models and Tools.- Chapter 1. Infrared Dynamics and Decay of Helicity in Homogeneous Isotropic Turbulence.- Chapter 2. Dual Cascades in Axisymmetric Turbulence.- Chapter 3. A Rigorous Entropy Law for the Turbulent Cascade.- Chapter 4. Evolution of Local Structure of Turbulent Flow along Pathlines.- Chapter 5. Renormalized Equations in Turbulent Immiscible Gas-liquid Flows - The Target on LES-formulation.- Part II: Compressibility Turbulence; Turbulence Atomization.- Chapter 6. Energy Transfer and Spectra in Simulations of Two-dimensional Compressible Turbulence.- Chapter 7. The Exact Solution to the 3D Vortex Compressible Euler Equation and the Clay Millennium Problem Generalization.- Chapter 8. A Subgrid-Scale Model for Large-Eddy Simulation of Liquid/Gas Interfaces Based on One-Dimensional Turbulence.- Part III: Effects of Shear and Rotation.- Chapter 9. Energy Transfer Between Scales and Position in a Turbulent Recirculation Bubble.- Chapter 10. Nonlinear Transverse Cascade - A Key Factor of Sustenance of Subcritical Turbulence in Shear Flows.- Chapter 11. Incompressible Homogeneous Buoyancy-Driven Turbulence.- Chapter 12. Small Scale Statistics of Turbulent uctuations Close to a Stagnation Point.- Chapter 13. Anisotropic Turbulent Cascades in Rotating Homogeneous Turbulence.- Part IV: Turbulence Scalars.- Chapter 14. Self-similarity in Slightly Heated Annular Jet with Large Diameter Ratios.- Part V: Turbulence under "Active" Particles.- Chapter 16. Parametric Instability and Turbulent Cascades in Space Plasmas.- Chapter 17. Large-Scale Structures in a Turbulent Fluid with Solid Particles and with Gas Bubbles.- Chapter 18. Cloud Turbulence and Droplets.- Chapter 19. Bubble-Induced Turbulence.- Chapter 20. Non Spherical and Inertial Particles in Couette Turbulent Large Scale Structures.- Part VI: Particles under the Turbulence.- Chapter 21. Preferential Concentration of Finite Ssolid Particles in a Swirling von Karman Flow of Water.- Chapter 22. Relative Dispersion in Direct Cascades of Generalized Two-dimensional Turbulence.- Chapter 23. Thermally Responsive Particles in Rayleigh-Benard Convection.- Part VII Interplay of Waves and Turbulence.- Chapter 24. The Energy Cascade of Surface Wave Turbulence: Toward Identifying the Active Wave Coupling.- Part VIII: Presence of Free Gas/Liquid Interface.- Chapter 25. Interactions between Turbulence and Interfaces with Surface Tension.- Chapter 26. A Dual-Scale Approach for Modeling Turbulent Liquid/Gas Phase Interfaces.- Part IX: Multi-scales Interactions and Non-stationary Cascades: Physics, Models and Tools.- Chapter 27. The Turbulence Cascade in Physical Space. Chapter 28. Effects of Regenerating Cycle on Lagrangian Acceleration in Homogeneous Shear Flow.- Part X: Posters.- Chapter 29. Precession of Plumes in the Presence of Background Rotation.- Chapter 30. Flow Structures and Scale Interactions in Stable Atmospheric Boundary Layer Turbulence.- Chapter 31. Approximating Turbulent and Non-turbulent Events with the Tensor Train Decomposition Method.
Summary
Gathering contributions by the most prominent researchers in a highly specialised field, this proceedings volume clarifies selected aspects of the physics of turbulent cascades and their statistical universalities under complex stationary and non-homogeneous conditions.
Here, these conditions are induced by the presence of a gas/liquid interface, inertial particles, strong shear, rotation, MHD and stratification. By proposing different ways to model turbulence effects under these complex conditions, the book will be of considerable interest not only to academic researchers, but also to specialists and junior researchers in the domain of propulsion and power, as well as those whose work involves various applications related to atmospheric, oceanic and planetary physics.
