Hydrodynamic Instabilities and Turbulence
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Hydrodynamic Instabilities and Turbulence
Rayleigh-Taylor, Richtmyer-Meshkov, and Kelvin-Helmholtz Mixing
Zhou, Ye
Cambridge University Press
12/2024
612
Dura
Inglês
9781108489645
Pré-lançamento - envio 15 a 20 dias após a sua edição
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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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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.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.