Bubbles have unique properties that make them of great importance in disparate fields such as energy production, acoustics, chemical engineering, material processing, biomedicine, food science and a host of others which, on the surface, appear to have little in common. Bringing together information scattered in many hundreds of sources, this book provides a unified treatment of the subject, illustrating the roots of this surprising versatility with a wealth of examples. The emphasis is on physics, explained with words and images before introducing a limited mathematical apparatus. Building on the foundation of the compressible and incompressible Rayleigh-Plesset equation, the treatment continues with the volume oscillations of gas bubbles and associated scattering and emission of sound, the diffusion of dissolved gases and of heat, boiling, nucleation and the behavior of bubbles in elastic and visco-elastic media. The book concludes with chapters on biomedical applications, sonochemistry, acoustic and flow cavitation and bubbly liquids.
Andrea Prosperetti is Homewood Professor at the Johns Hopkins University and Professor Emeritus at the University of Houston. He is a member of the US National Academy of Engineering and of the Royal Nederlands Academy of Arts and Sciences.
Preface; Notation; 1. Radial dynamics of a spherical bubble; 2. The bubble interior; 3. Small-Amplitude oscillations of gas bubbles; 4. Acoustics of gas bubbles; Part I: 5. Large-Amplitude oscillations of gas bubbles; 6. Shape oscillations and stability; 7. Acoustics of gas bubbles; Part II: 8. Translating bubbles; 9. Gas-Diffusion phenomena; 10. Vapor bubbles; 11. Nucleation; 12. Bubbles in elastic and viscoelastic media; 13. Sonochemistry; 14. Biological and medical applications; 15. Acoustic cavitation; 16. Flow cavitation; 17. Collective effects; Appendix 'Bubbles'; References; Index.