Dynamics of Bubbles, Drops and Rigid Particles by Z. ZapryanovDynamics of Bubbles, Drops and Rigid Particles by Z. Zapryanov

Dynamics of Bubbles, Drops and Rigid Particles

byZ. Zapryanov, S. Tabakova

Paperback | January 22, 2011

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This book considers the main hydrodynamic aspects of the dynamics of bubbles, drops and rigid particles with a special emphasis on the deformations and hydrodynamic interactions between fluid particles in uniform or shear flows and hydrodynamic interactions between rigid spherical particles in an oscillatory flow. There is no other published book to date which reveals these topics in the described manner. Readers should have a basic understanding of introductory fluid mechanics, real analysis and numerical methods. The book provides the basis for quantitative description of the phenomena that occur in the dynamics of bubbles, drops and rigid particles. The book is intended to serve both as a graduate textbook for students in chemical engineering, physics and applied mathematics, and as a reference monograph for academic and industrial researchers.
Title:Dynamics of Bubbles, Drops and Rigid ParticlesFormat:PaperbackDimensions:533 pages, 9.45 × 6.3 × 0.68 inPublished:January 22, 2011Publisher:Springer NetherlandsLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9048151309

ISBN - 13:9789048151301

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Table of Contents

Part I: Governing Equations and General Properties of Fluid Flows. 1. Governing Equations and Boundary Conditions for Fluid Flows. 2. Fundamental Theorems and General Properties of Stokes Flows. Part II: Steady Flows. Hydrodynamics of a Single Rigid or Fluid Particle. 3. Application of the Singularity Method for a Single Rigid or Fluid Particle. 4. Solutions via Superposition of Vector Harmonic Functions. 5. Other Methods to Study the Flow Past Single Rigid or Fluid Particles. 6. Deformations of a Single Fluid Particle in a Viscous FLow. Part III: Steady Flows. Hydrodynamic Intractions between Rigid or Fluid Particles. 7. Hydrodynamic Interactions between Two Rigid or Fluid Particles. 8. Boundary Effects on the Motion of a Single Rigid or Fluid Particle. 9. Many-Particles Hydrodynamic Interactions. Sedimentation. 10. Hydrodynamic Interaction between Particles and Effective Viscosity of Suspensions and Emulsions. Part IV: Unsteady Flows. Hydrodynamic Interactions between Drops, Bubbles and Rigid Particles. 11. Unsteady Motion of Rigid or Fluid Particles in Stokes Approximation. 12. Application of the Singularity Method for Unsteady Flows Past Rigid or Fluid Particles. 13. Hydrodynamic Interactions in Some Unsteady Viscous Flows. 14. Finite Deformations of Drops and Bubbles at Moderate Reynolds Numbers Flows. References. Index.