Synopses & Reviews
This book provides an in-depth look at fluid turbulence: the archetypal non-linear, non-equilibrium problem of statistical physics which has witnessed significant progress in recent years, facilitated by advances in laser anemometry, computer technology, and theoretical methods from quantum physics. A fully integrated work, The Physics of Fluid Turbulence approaches its subject as a universal phenomenon with a universal behavior. It includes a concise summary of the theory and practice of turbulence science up to 1960, followed by a detailed analysis of more recent developments in this area, including a rigorous formulation of the turbulence problem as an example of a non-equilibrium statistical system with strong coupling, along with the application of renormalized perturbation theory. Designed for those new to the subject, the book will also be useful to those who are familiar with the study of turbulence but have not yet approached the subject utilizing the theoretical methods from quantum physics that are covered here.
Review
"This book will become a classic text for turbulence modeling. It is clear, comprehensive, and balanced" --SIAM Review
"Quite accessible, thorough and complete." --Science
"An impressive collection of different results both experimental and theoretical, which makes this book a good source for both the beginner and the expert." -- Mathematical Reviews
Table of Contents
1. The Semi-Empirical Picture of Turbulent Shear Flow
2. The Fundamental Approach
3. Some Recent Developments in the Study of Turbulence
4. Statistical Formulation of the General Problem
5. Renormalized Perturbation Theory and the Turbulence Closure Problem
6. Renormalized Perturbation Theories of the First Kind
7. Renormalized Perturbation Theories of the Second Kind
8. An Assessment of Renormalized Perturbation Theories
9. Renormalization Group Theories
10. Numerical Simulation of Turbulence
11. Coherent Structures
12. Turbulent Diffusion: The Lagrangian Picture
13. Turbulent Diffusion: The Eulerian Picture
14. Non-Newtonian Fluid Turbulence