This volume offers a critical review of the literature concerning the fluid dynamics, heat transfer, and mass transfer of single bubbles, drops, and particles. Upper-level undergraduates and graduate students, as well as professionals in the fields of engineering, physics, chemistry, geophysics, and applied mathematics, will find it a unified treatment of solid particles, liquid drops, and gas bubbles.
Starting with a summary of the fundamental principles and equations governing the behavior of bubbles, drops, and solid particles in Newtonian fluids, the text proceeds to a survey of the parameters used to characterize the shape of rigid particles, and of the factors that determine the shape of bubbles and drops. Succeeding chapters examine the behavior of solid and fluid particles under steady incompressible flow in an extended external phase. The text concludes with an exploration of effects that complicate the relatively simple case of a particle moving steadily through an unbounded fluid.
By:
Martin E Weber, Roland Clift, Martin E Weber Imprint: Dover Country of Publication: United States Dimensions:
Height: 235mm,
Width: 154mm,
Spine: 19mm
Weight: 515g ISBN:9780486445809 ISBN 10: 0486445801 Series:Dover Civil and Mechanical Engineering Pages: 381 Publication Date:02 December 2005 Audience:
General/trade
,
ELT Advanced
Format:Paperback Publisher's Status: Unspecified
Preface Acknowledgments 1. Basic Principles 2. Shapes of Rigid and Fluid Particles 3. Slow Viscous Flow Past Spheres 4. Slow Viscous Flow Past Nonspherical Rigid Particles 5. Spheres at Higher Reynolds Numbers 6. Nonspherical Rigid Particles at Higher Reynolds Numbers 7. Ellipsoidal Fluid Particles 8. Deformed Fluid Particles of Large Size 9. Wall Effects 10. Surface Effects, Field Gradients, and Other Influences 11. Accelerated Motion without Volume Change 12. Formation and Breakup of Fluid Particles Appendices Nomenclature Index Errata
