UID:
almahu_9948026225902882
Format:
1 online resource (415 p.)
ISBN:
1-282-87959-6
,
9786612879593
,
0-12-382099-5
Content:
Rotating flow is critically important across a wide range of scientific, engineering and product applications, providing design and modeling capability for diverse products such as jet engines, pumps and vacuum cleaners, as well as geophysical flows. Developed over the course of 20 years' research into rotating fluids and associated heat transfer at the University of Sussex Thermo-Fluid Mechanics Research Centre (TFMRC), Rotating Flow is an indispensable reference and resource for all those working within the gas turbine and rotating machinery industries. Traditional fluid and flow dynamics
Note:
Description based upon print version of record.
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Cover; Rotating Flow; Copyright; Foreword; Contents; Preface; About the Author; Notation and Units; Chapter 1. Introduction to Rotating Flow; 1.1. Introduction; 1.2. Geometric Configurations; 1.3. Geophysical Flow; 1.4. Conclusions; References; Chapter 2. Laws of Motion; 2.1. Introduction; 2.2. Navier-Stokes Equations; 2.3. Continuity Equation; 2.4. Solution of the Governing Equations of Fluid Mechanics; 2.5. Equations of Motion in a Rotating Coordinate System; 2.6. Dimensional Analysis and Similarity; 2.7. Conclusions; References; Chapter 3. Vorticity and Rotation; 3.1. Introduction
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3.2. Vortex Flow3.3. Taylor-Proudman Theorem; 3.4. Conclusions; References; Chapter 4. Introduction to Rotating Disc Systems; 4.1. Introduction; 4.2. The Free Disc; 4.3. A Rotating Fluid above a Stationary Disc; 4.4. Turbulent Flow over a Single Disc; 4.5. Impinging Flow on a Rotating Disc; 4.6. Conclusions; References; Chapter 5. Rotor-Stator Disc Cavity Flow; 5.1. Introduction; 5.2. Enclosed Rotor-Stator Disc Systems; 5.3. Inviscid Equations of M; 5.4. Rotor-Stator with Radial Outflow; 5.5. Rotor-Stator with Radial Inflow; 5.6. Rotor-Stator with Stationary Shroud and Radial Outflow
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5.7. Rotor-Stator with Stationary Shroud and External Flow5.8. Static and Rotating Protrusions; 5.9. Thrust on a Disc; 5.10. Conclusions; References; Chapter 6. Rotating Cylinders, Annuli, and Spheres; 6.1. Introduction; 6.2. Rotating Cylinder Flow; 6.3. Rotating Couette Flow; 6.4. Flow Instabilities and Taylor Vortex Flow; 6.5. Journal Bearings; 6.6. Rotating Cylinders and Spheres with Cross-flow; 6.7. Conclusions; References; Chapter 7. Rotating Cavities; 7.1. Introduction; 7.2. Boundary Layer Approximation for Rotating Cavity Flows; 7.3. Linear Ekman Layer Equations
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7.4. Integral Equations7.5. Modeling of Selected Rotating Cavity Applications; 7.6. Conclusions; References; Chapter 8. Atmospheric and Oceanic Circulations; 8.1. Introduction; 8.2. Atmospheric Circulation; 8.3. Pressure Systems and Fronts; 8.4. Intense Atmospheric Vortices; 8.5. Oceanic Circulation; 8.6. Conclusions; References; Appendix A: Properties of Air; Appendix B: The Vector Cross Product; Appendix C: Glossary; Index
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English
Additional Edition:
ISBN 0-12-810212-8
Additional Edition:
ISBN 0-12-382098-7
Language:
English
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