UID:
almafu_9959228673802883
Umfang:
1 online resource (319 p.)
ISBN:
1-281-05432-1
,
9786611054328
,
0-08-053663-8
Inhalt:
This concise book is intended to fulfill two purposes: to provide an important supplement to classic texts by carrying fluid dynamics students on into the realm of free boundary flows; and to demonstrate the art of mathematical modeling based on knowledge, intuition, and observation. In the authors words, the overall goal is make the complex simple, without losing the essence--the virtue--of the complexity.Modeling Axisymmetric Flows: Dynamics of Films, Jets, and Drops is the first book to cover the topics of axisymmetric laminar flows; free-boundary flows; and dynamics of drops, je
Anmerkung:
Description based upon print version of record.
,
Front Cover; Modeling Axisymmetric Flows: Dynamics of Films, Jets, and Drops; Copyright Page; Contents; Preface; Acknowledgments; Chapter 1. Laminar Axisymmetric Flows; 1-1 Basic Dynamic and Kinematic Equations; 1-2 Steady Fully Developed (Poiseuille) Flow; 1-3 Flow through a Tube with a Variable Radiusu-The Lubrication Approximation; 1-4 An Integral Technique for Solution of the Lubrication Equations; 1-5 Axisymmetric Flow through a Leaky Tube; Problems; References; Chapter 2. Laminar Flow through a Tube with a Thin Annular Adherent Liquid Film
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2-1 Axisymmetric Flow through a Lubricated Tube2-2 Removal of an Annular Liquid Layer by Shearingm-A Quasi-steady Model; 2-3 The Instability of a Static Annular Film of Liquid; 2-4 The Deposition of a Thin Annular Film of Liquid inside Capillary; 2-5 A More Careful Discussion of the Geometry and Dynamics of a Free Boundary Problem; 2-6 Depletion of an Annular Liquid Film; Problems; References; Chapter 3. Steady Laminar Axisymmetric Flow from a Tube: Exit Effects; 3-1 The Horizontal Jet; 3-2 Draw-Down of a Vertical Jet; 3-3 A Note on Dimensionless Groups; Problems; References
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Chapter 4. The Transitions from Drops to a Coherent Jet and Back to Drops4-1 Dripping from a Vertical Tube; 4-2 Drops on Demand; 4-3 Stability of the Horizontal Jet; Problems; References; Chapter 5. Impingement of a Coherent Jet Normal to a Rigid Surface; 5-1 Introduction; 5-2 A Boundary Layer Model (Watson, 1964); 5-3 The Hydraulic Jump; 5-4 Displacement of a Thin Viscous Film by an Impinging Turbulent Jet; 5-5 Two-Fluid Homann Flow; 5-6 Laminar Flow over a Disk; Problems; References; Chapter 6. The Transfer of a Drop from a Capillary to an Impermeable Surface; 6-1 Introduction
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6-2 Shape of a Static Drop6-3 Breakaway of a Pendent Drop; 6-4 Stability of an Axisymmetric Bridge; 6-5 Impact of a Drop with a Solid Surface; Problems; References; Chapter 7. The Isolated Drop on an Impermeable Surface; 7-1 Spreading of an Isolated Drop with No Surface Tension; 7-2 Spreading of a Drop with Surface Tension; Problems; References; Chapter 8. Capillary Penetration Dynamics; 8-1 Introduction; 8-2 Capillary Wicking; 8-3 Radial Penetration through a Narrow Planar Space; 8-4 Penetration Fed by a Drop of Finite Volume; 8-5 Wicking of a Drop into a Porous Surface; Problems; References
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Chapter 9. Ultrathin Films: Disjoining Pressure9-1 Introduction; 9-2 Effect of the Disjoining Pressure on Equilibrium Films; 9-3 Dewetting; Problems; References; Chapter 10. The Interaction of a Deformable Drop with a Surface; 10-1 The Approach of a Solid Sphere to a Rigid Plane; 10-2 Slow Approach of a Viscous Drop to a Solid Surface; 10-3 The Dimpled Drop; 10-4 Film Evolution Equation for the Dimpled Drop; 10-5 Drops and Bubbles Crossing Liquid Interfaces; 10-6 Coalescence of Drops and Bubbles; Problems; References; Afterword; Index; Color Plate Section
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English
Weitere Ausg.:
ISBN 0-12-494950-9
Sprache:
Englisch
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