"Dispersed multiphase flows are frequently found in nature and have diverse geophysical, environmental, industrial, and energy applications. This book targets a beginning graduate student looking to learn about the physical processes that govern these flows, going from the fundamentals to the state of the art, with many exercises included"--
Inhaltsverzeichnis
1. Introduction; 2. Scales, mechanisms, and parameters; 3. Description of the dispersed phase; 4. Isolated rigid particle in an unbounded ambient flow; 5. Lift force and torque in unbounded ambient flows; 6. Heat and mass transfer from an isolated sphere; 7. Particle-turbulence interaction in the dilute limit; 8. Particle-wall hydrodynamic interactions; 9. Particle-particle interactions; 10. Collisions, coagulation, and breakup; 11. Filtered multiphase flow equations; 12. Equilibrium particle fields; 13. Multiphase flow approaches; 14. Particle-resolved simulations; 15. Euler-Lagrange approach; 16. Euler-Euler approach; A. Index notation; B. Vector calculus; C. Added dissipation of an isolated particle; D. Solution of the Helmholtz equation; E. Derivation of the perturbation force of the BBO equation; F. Derivation of MRG equation with reciprocal theorem; References; Index.
