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Analysis of Transport Phenomena (Topics in Chemical Engineering)

Analysis of Transport Phenomena (Topics in Chemical Engineering) Cover

 

Synopses & Reviews

Publisher Comments:

Analysis of Transport Phenomena, International Second Edition, provides a unified treatment of momentum, heat, and mass transfer, emphasizing the concepts and analytical techniques that apply to these transport processes.

The international second edition has been revised to reinforce the progression from simple to complex topics and to better introduce the applied mathematics that is needed both to understand classical results and to model novel systems. A common set of formulation, simplification, and solution methods is applied first to heat or mass transfer in stationary media and then to fluid mechanics, convective heat or mass transfer, and systems involving various kinds of coupled fluxes.

FEATURES:

* Explains classical methods and results, preparing students for engineering practice and more advanced study or research

* Covers everything from heat and mass transfer in stationary media to fluid mechanics, free convection, and turbulence

* Improved organization, including the establishment of a more integrative approach

* Emphasizes concepts and analytical techniques that apply to all transport processes

* Mathematical techniques are introduced more gradually to provide students with a better foundation for more complicated topics discussed in later chapters

About the Author

Professor William M. Deen is the Carbon P. Dubbs Professor of Chemical Engineering at the Massachusetts Institute of Technology.

Table of Contents

Preface

List of Symbols

CHAPTER 1. DIFFUSIVE FLUXES AND MATERIAL PROPERTIES

1.1 INTRODUCTION

1.2 BASIC CONSTITUTIVE EQUATIONS

1.3 DIFFUSIVITIES FOR ENERGY, SPECIES, AND MOMENTUM

1.4 MAGNITUDES OF TRANSPORT COEFFICIENTS

1.5 MOLECULAR INTERPRETATION OF TRANSPORT COEFFICIENTS

1.6 LIMITATIONS ON LENGTH AND TIME SCALES

References

Problems

CHAPTER 2. FUNDAMENTALS OF HEAT AND MASS TRANSFER

2.1 INTRODUCTION

2.2 GENERAL FORMS OF CONSERVATION EQUATIONS

2.3 CONSERVATION OF MASS

2.4 CONSERVATION OF ENERGY: THERMAL EFFECTS

2.5 HEAT TRANSFER AT INTERFACES

2.6 CONSERVATION OF CHEMICAL SPECIES

2.7 MASS TRANSFER AT INTERFACES

2.8 MOLECULAR VIEW OF SPECIES CONSERVATION

References

Problems

CHAPTER 3. FORMULATION AND APPROXIMATION

3.1 INTRODUCTION

3.2 ONE-DIMENSIONAL EXAMPLES

3.3 ORDER-OF-MAGNITUDE ESTIMATION AND SCALING

3.4 "DIMENSIONALITY" IN MODELING

3.5 TIME SCALES IN MODELING

References

Problems

CHAPTER 4. SOLUTION METHODS BASED ON SCALING CONCEPTS

4.1 INTRODUCTION

4.2 SIMILARITY METHOD

4.3 REGULAR PERTURBATION ANALYSIS

4.4 SINGULAR PERTURBATION ANALYSIS

References

Problems

CHAPTER 5. SOLUTION METHODS FOR LINEAR PROBLEMS

5.1 INTRODUCTION

5.2 PROPERTIES OF LINEAR BOUNDARY-VALUE PROBLEMS

5.3 FINITE FOURIER TRANSFORM METHOD

5.4 BASIS FUNCTIONS

5.5 FOURIER SERIES

5.6 FFT SOLUTIONS FOR RECTANGULAR GEOMETRIES

5.7 FFT SOLUTIONS FOR CYLINDRICAL GEOMETRIES

5.8 FFT SOLUTIONS FOR SPHERICAL GEOMETRIES

5.9 POINT-SOURCE SOLUTIONS

5.10 MORE ON SELF-ADJOINT EIGENVALUE PROBLEMS AND FFT

SOLUTIONS

References

Problems

CHAPTER 6. FUNDAMENTALS OF FLUID MECHANICS

6.1 INTRODUCTION

6.2 CONSERVATION OF MOMENTUM

6.3 TOTAL STRESS, PRESSURE, AND VISCOUS STRESS

6.4 FLUID KINEMATICS

6.5 CONSTITUTIVE EQUATIONS FOR VISCOUS STRESS

6.6 FLUID MECHANICS AT INTERFACES

6.7 FORCE CALCULATIONS

6.8 STREAM FUNCTION

6.9 DIMENSIONLESS GROUPS AND FLOW REGIMES

References

Problems

CHAPTER 7. UNIDIRECTIONAL AND NEARLY UNIDIRECTIONAL FLOW

7.1 INTRODUCTION

7.2 STEADY FLOW WITH A PRESSURE GRADIENT

7.3 STEADY FLOW WITH A MOVING SURFACE

7.4 TIME-DEPENDENT FLOW

7.5 LIMITATIONS OF EXACT SOLUTIONS

7.6 NEARLY UNIDIRECTIONAL FLOW

References

Problems

CHAPTER 8. CREEPING FLOW

8.1 INTRODUCTION

8.2 GENERAL FEATURES OF LOW REYNOLDS NUMBER FLOW

8.3 UNIDIRECTIONAL AND NEARLY UNIDIRECTIONAL SOLUTIONS

8.4 STREAM-FUNCTION SOLUTIONS

8.5 POINT-FORCE SOLUTIONS

8.6 PARTICLES AND SUSPENSIONS

8.7 CORRECTIONS TO STOKES' LAW

References

Problems

CHAPTER 9. LAMINAR FLOW AT HIGH REYNOLDS NUMBER

9.1 INTRODUCTION

9.2 GENERAL FEATURES OF HIGH REYNOLDS NUMBER FLOW

9.3 IRROTATIONAL FLOW

9.4 BOUNDARY LAYERS AT SOLID SURFACES

9.5 INTERNAL BOUNDARY LAYERS

References

Problems

CHAPTER 10. FORCED-CONVECTION HEAT AND MASS TRANSFER IN CONFINED LAMINAR FLOWS

10.1 INTRODUCTION

10.2 PÉCLET NUMBER

10.3 NUSSELT AND SHERWOOD NUMBERS

10.4 ENTRANCE REGION

10.5 FULLY DEVELOPED REGION

10.6 CONSERVATION OF ENERGY: MECHANICAL EFFECTS

10.7 TAYLOR DISPERSION

References

Problems

CHAPTER 11. FORCED-CONVECTION HEAT AND MASS TRANSFER IN UNCONFINED LAMINAR FLOWS

11.1 INTRODUCTION

11.2 HEAT AND MASS TRANSFER IN CREEPING FLOW

11.3 HEAT AND MASS TRANSFER IN LAMINAR BOUNDARY LAYERS

11.4 SCALING LAWS FOR NUSSELT AND SHERWOOD NUMBERS

References

Problems

CHAPTER 12. TRANSPORT IN BUOYANCY-DRIVEN FLOW

12.1 INTRODUCTION

12.2 BUOYANCY AND THE BOUSSINESQ APPROXIMATION

12.3 CONFINED FLOWS

12.4 DIMENSIONAL ANALYSIS AND BOUNDARY-LAYER EQUATIONS

12.5 UNCONFINED FLOWS

References

Problems

CHAPTER 13. TRANSPORT IN TURBULENT FLOW

13.1 INTRODUCTION

13.2 BASIC FEATURES OF TURBULENCE

13.3 TIME-SMOOTHED EQUATIONS

13.4 EDDY DIFFUSIVITY MODELS

13.5 OTHER APPROACHES FOR TURBULENT-FLOW CALCULATIONS

References

Problems

CHAPTER 14. SIMULTANEOUS ENERGY AND MASS TRANSFER AND MULTICOMPONENT SYSTEMS

14.1 INTRODUCTION

14.2 CONSERVATION OF ENERGY: MULTICOMPONENT SYSTEMS

14.3 SIMULTANEOUS HEAT AND MASS TRANSFER

14.4 INTRODUCTION TO COUPLED FLUXES

14.5 STEFAN-MAXWELL EQUATIONS

14.6 GENERALIZED DIFFUSION IN DILUTE MIXTURES

14.7 GENERALIZED STEFAN-MAXWELL EQUATIONS

References

Problems

CHAPTER 15. TRANSPORT IN ELECTROLYTE SOLUTIONS

15.1 INTRODUCTION

15.2 FORMULATION OF MACROSCOPIC PROBLEMS

15.3 MACROSCOPIC EXAMPLES

15.4 EQUILIBRIUM DOUBLE LAYERS

15.5 ELECTROKINETIC PHENOMENA

References

Problems

APPENDIX A. VECTORS AND TENSORS

A.1 INTRODUCTION

A.2 REPRESENTATION OF VECTORS AND TENSORS

A.3 VECTOR AND TENSOR PRODUCTS

A.4 VECTOR-DIFFERENTIAL OPERATORS

A.5 INTEGRAL TRANSFORMATIONS

A.6 POSITION VECTORS

A.7 ORTHOGONAL CURVILINEAR COORDINATES

A.8 SURFACE GEOMETRY

References

APPENDIX B. ORDINARY DIFFERENTIAL EQUATIONS AND SPECIAL FUNCTIONS

B.1 INTRODUCTION

B.2 FIRST-ORDER EQUATIONS

B.3 EQUATIONS WITH CONSTANT COEFFICIENTS

B.4 BESSEL AND SPHERICAL BESSEL EQUATIONS

B.5 OTHER EQUATIONS WITH VARIABLE COEFFICIENTS

References

Index

Product Details

ISBN:
9780199740253
Publisher:
Oxford University Press, USA
Subject:
Engineering - Chemical & Biochemical
Author:
Deen, William M.
Subject:
Engineering & Technology | Chemical Engineering
Subject:
Mathematics-Applied
Publication Date:
20120727
Binding:
Paperback
Language:
English
Pages:
624
Dimensions:
6.5 x 9.2 x 1.1 in 1.75 lb

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Analysis of Transport Phenomena (Topics in Chemical Engineering)
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