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Transport Phenomena An Introduction to Advanced Topics.

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Glasgow, Larry A.
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Newark : John Wiley & Sons, Incorporated, 2010.
Colección:	New York Academy of Sciences Ser.
Temas:	Electronic books.
Acceso en línea:	Texto completo

Tabla de Contenidos:

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

Transport Phenomena An Introduction to Advanced Topics.

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