Appropriate for graduate students, this text explains analytical and computational methods for solving problems related to motion of particles through flow of a viscous fluid. 99 figures. 47 tables. 1991 edition.
Inhaltsverzeichnis
I. Governing Equations and Fundamental Theorems
1. Microhydrodynamic Phenomena
2. General Properties and Fundamental Theorems
II. Dynamics of a Single Particle
3. The Disturbance Field of a Single Particle in a Steady Flow
4. Solutions in Spherical Coordinates
5. Resistance and Mobility Relations
6. Transient Stokes Flows
III. Hydrodynamic Interactions
7.General Formulation of Resistance and Mobility Relations
8. Particles Widely Separated: The Method of Reflections
9. Particles Near Contact
10. Interactions Between Large and Small Particles
11. The Complete Set of Resistance and Mobility Functions for Two Rigid Spheres
12. Particle-Wall Interactions
13. Boundary-Multipole Collocation
IV. Foundations of Parallel Computational Microhydrodynamics
14. The Boundary Integral Equations for Stokes Flow
15. Odqvist's Approach for a Single Particle Surface
16. Multiparticle Problems in Bounded and Unbounded Domains
17. Iterative Solutions for Mobility Problems
18. Fourier Analysis for Axisymmetric Boundaries
19. Three-Dimensional Numerical Results
References
Notation
Index
