"The first comprehensive contribution to the field of hydrodynamic instabilities in decades, this book is both a fundamental graduate resource and an authoritative reference volume. The primary focus of turbulence mixing has important applications in a wide range of disciplines including physics, engineering, meteorology, and oceanography"--
"The first comprehensive contribution to the field of hydrodynamic instabilities in decades, this book is both a fundamental graduate resource and an authoritative reference volume. The primary focus of turbulence mixing has important applications in a wide range of disciplines including physics, engineering, meteorology, and oceanography"--Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr Ye Zhou is a Physicist at Lawrence Livermore National Laboratory in California, having previously worked as a Senior Staff Scientist at the Institute for Computer Applications in Science and Engineering, NASA Langley Research Center. He has published over 130 peer-reviewed publications and is a regular invited speaker at major international conferences. He is a fellow of the American Physical Society and currently serves as an associate editor of Computers & Fluids and an editor of Physica D: Nonlinear Phenomena.
Inhaltsangabe
Part I. Fundamentals: 1. A first glimpse of RT, RM & KH instabilities 2. The linear stage for a single mode 3. The nonlinear stage for a single mode 4. Multimode instabilities: linear and nonlinear regimes 5. Global features from the lens of integrated mixing measurements 6. Internal dynamics from the lens of statistical mixing measurements 7. Elementary aspects of turbulent flows 8. Transition to turbulence Part II. Hydrodynamics of Complex Flows: 9. Influence of initial conditions 10. Flow properties 11. Rotation and time-dependent acceleration 12. Direction, strength, and shape of incident shock waves 13. Reshock and multi-shocks 14. Combined instabilities 15. Geometrical configurations 16. Convergent/divergent geometry 17. Magnetohydrodynamic fluid instabilities Part III. From the Microscopic to Cosmic Scales: 18. High energy density physics 19. Inertial confinement fusion implosion 20. Laboratory applications 21. Astrophysical and space applications 22. Mix models 23. Numerical simulations of mixing 24. Does 2D turbulence resemble 3D turbulence? References Index.
Part I. Fundamentals: 1. A first glimpse of RT, RM & KH instabilities 2. The linear stage for a single mode 3. The nonlinear stage for a single mode 4. Multimode instabilities: linear and nonlinear regimes 5. Global features from the lens of integrated mixing measurements 6. Internal dynamics from the lens of statistical mixing measurements 7. Elementary aspects of turbulent flows 8. Transition to turbulence Part II. Hydrodynamics of Complex Flows: 9. Influence of initial conditions 10. Flow properties 11. Rotation and time-dependent acceleration 12. Direction, strength, and shape of incident shock waves 13. Reshock and multi-shocks 14. Combined instabilities 15. Geometrical configurations 16. Convergent/divergent geometry 17. Magnetohydrodynamic fluid instabilities Part III. From the Microscopic to Cosmic Scales: 18. High energy density physics 19. Inertial confinement fusion implosion 20. Laboratory applications 21. Astrophysical and space applications 22. Mix models 23. Numerical simulations of mixing 24. Does 2D turbulence resemble 3D turbulence? References Index.
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