Wentworth
Institute of Technology
Transport Phenomena An Introduction to Advanced Topics.
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| Main Author: | |
|---|---|
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Newark :
John Wiley & Sons, Incorporated,
2010.
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| Series: | New York Academy of Sciences Ser.
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| Subjects: | |
| Online Access: |
Full text (Wentworth users only) |
| Local Note: | ProQuest Ebook Central |
Table of Contents:
- TRANSPORT PHENOMENA: An Introduction to Advanced Topics
- CONTENTS
- PREFACE
- 1 INTRODUCTION AND SOME USEFUL REVIEW
- 1.1 A MESSAGE FOR THE STUDENT
- 1.2 DIFFERENTIAL EQUATIONS
- 1.3 CLASSIFICATION OF PARTIAL DIFFERENTIAL EQUATIONS AND BOUNDARY CONDITIONS
- 1.4 NUMERICAL SOLUTIONS FOR PARTIAL DIFFERENTIAL EQUATIONS
- 1.5 VECTORS, TENSORS, AND THE EQUATION OF MOTION
- 1.6 THE MEN FOR WHOM THE NAVIER-STOKES EQUATIONS ARE NAMED
- 1.7 SIR ISAAC NEWTON
- REFERENCES
- 2 INVISCID FLOW: SIMPLIFIED FLUID MOTION
- 2.1 INTRODUCTION
- 2.2 TWO-DIMENSIONAL POTENTIAL FLOW
- 2.3 NUMERICAL SOLUTION OF POTENTIAL FLOW PROBLEMS
- 2.4 CONCLUSION
- REFERENCES
- 3 LAMINAR FLOWS IN DUCTS AND ENCLOSURES
- 3.1 INTRODUCTION
- 3.2 HAGEN-POISEUILLE FLOW
- 3.3 TRANSIENT HAGEN-POISEUILLE FLOW
- 3.4 POISEUILLE FLOW IN AN ANNULUS
- 3.5 DUCTS WITH OTHER CROSS SECTIONS
- 3.6 COMBINED COUETTE AND POISEUILLE FLOWS
- 3.7 COUETTE FLOWS IN ENCLOSURES
- 3.8 GENERALIZED TWO-DIMENSIONAL FLUID MOTION IN DUCTS
- 3.9 SOME CONCERNS IN COMPUTATIONAL FLUID MECHANICS
- 3.10 FLOW IN THE ENTRANCE OF DUCTS
- 3.11 CREEPING FLUID MOTIONS IN DUCTS AND CAVITIES
- 3.12 MICROFLUIDICS: FLOW IN VERY SMALL CHANNELS
- 3.12.1 Electrokinetic Phenomena
- 3.12.2 Gases in Microfluidics
- 3.13 FLOWS IN OPEN CHANNELS
- 3.14 PULSATILE FLOWS IN CYLINDRICAL DUCTS
- 3.15 SOME CONCLUDING REMARKS FOR INCOMPRESSIBLE VISCOUS FLOWS
- REFERENCES
- 4 EXTERNAL LAMINAR FLOWS AND BOUNDARY-LAYER THEORY
- 4.1 INTRODUCTION
- 4.2 THE FLAT PLATE
- 4.3 FLOW SEPARATION PHENOMENA ABOUT BLUFF BODIES
- 4.4 BOUNDARY LAYER ON A WEDGE: THE FALKNER-SKAN PROBLEM
- 4.5 THE FREE JET
- 4.6 INTEGRAL MOMENTUM EQUATIONS
- 4.7 HIEMENZ STAGNATION FLOW
- 4.8 FLOW IN THE WAKE OF A FLAT PLATE AT ZERO INCIDENCE
- 4.9 CONCLUSION
- REFERENCES
- 5 INSTABILITY, TRANSITION, AND TURBULENCE
- 5.1 INTRODUCTION
- 5.2 LINEARIZED HYDRODYNAMIC STABILITY THEORY
- 5.3 INVISCID STABILITY: THE RAYLEIGH EQUATION
- 5.4 STABILITY OF FLOW BETWEEN CONCENTRIC CYLINDERS
- 5.5 TRANSITION
- 5.5.1 Transition in Hagen-Poiseuille Flow
- 5.5.2 Transition for the Blasius Case
- 5.6 TURBULENCE
- 5.7 HIGHER ORDER CLOSURE SCHEMES
- 5.7.1 Variations
- 5.8 INTRODUCTION TO THE STATISTICAL THEORY OF TURBULENCE
- 5.9 CONCLUSION
- REFERENCES
- 6 HEAT TRANSFER BY CONDUCTION
- 6.1 INTRODUCTION
- 6.2 STEADY-STATE CONDUCTION PROBLEMS IN RECTANGULAR COORDINATES
- 6.3 TRANSIENT CONDUCTION PROBLEMS IN RECTANGULAR COORDINATES
- 6.4 STEADY-STATE CONDUCTION PROBLEMS IN CYLINDRICAL COORDINATES
- 6.5 TRANSIENT CONDUCTION PROBLEMS IN CYLINDRICAL COORDINATES
- 6.6 STEADY-STATE CONDUCTION PROBLEMS IN SPHERICAL COORDINATES
- 6.7 TRANSIENT CONDUCTION PROBLEMS IN SPHERICAL COORDINATES
- 6.8 KELVIN'S ESTIMATE OF THE AGE OF THE EARTH
- 6.9 SOME SPECIALIZED TOPICS IN CONDUCTION
- 6.9.1 Conduction in Extended Surface Heat Transfer