Transport Phenomena Fundamentals, 3rd Edition

Transport Phenomena Fundamentals, 3rd Edition

by Joel L. Plawsky
Released January 2014
Publisher(s): CRC Press
ISBN: 9781466555358

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Book description

The third edition of Transport Phenomena Fundamentals continues with its streamlined approach to the subject of transport phenomena, based on a unified treatment of heat, mass, and momentum transport using a balance equation approach. The new edition makes more use of modern tools for working problems, such as COMSOL®, Maple®, and MATLAB®. It introduces new problems at the end of each chapter and sorts them by topic for ease of use. It also presents new concepts to expand the utility of the text beyond chemical engineering.

The text is divided into two parts, which can be used for teaching a two-term course. Part I covers the balance equation in the context of diffusive transport—momentum, energy, mass, and charge. Each chapter adds a term to the balance equation, highlighting that term's effects on the physical behavior of the system and the underlying mathematical description. Chapters familiarize students with modeling and developing mathematical expressions based on the analysis of a control volume, the derivation of the governing differential equations, and the solution to those equations with appropriate boundary conditions.

Part II builds on the diffusive transport balance equation by introducing convective transport terms, focusing on partial, rather than ordinary, differential equations. The text describes paring down the microscopic equations to simplify the models and solve problems, and it introduces macroscopic versions of the balance equations for when the microscopic approach fails or is too cumbersome. The text discusses the momentum, Bournoulli, energy, and species continuity equations, including a brief description of how these equations are applied to heat exchangers, continuous contactors, and chemical reactors. The book also introduces the three fundamental transport coefficients: the friction factor, the heat transfer coefficient, and the mass transfer coefficient in the context of boundary layer theory. The final chapter covers the basics of radiative heat transfer, including concepts such as blackbodies, graybodies, radiation shields, and enclosures. The third edition incorporates many changes to the material and includes updated discussions and examples and more than 70 new homework problems.

Table of contents

  1. Front Cover
  2. Dedication
  3. Contents (1/2)
  4. Contents (2/2)
  5. Preface
  6. Acknowledgments
  7. Author
  8. Part I Transport Fundamentals and 1- D Systems
    1. Chapter 1 Introductory Concepts (1/6)
    2. Chapter 1 Introductory Concepts (2/6)
    3. Chapter 1 Introductory Concepts (3/6)
    4. Chapter 1 Introductory Concepts (4/6)
    5. Chapter 1 Introductory Concepts (5/6)
    6. Chapter 1 Introductory Concepts (6/6)
    7. Chapter 2 Flows, Gradients, and Transport Properties (1/9)
    8. Chapter 2 Flows, Gradients, and Transport Properties (2/9)
    9. Chapter 2 Flows, Gradients, and Transport Properties (3/9)
    10. Chapter 2 Flows, Gradients, and Transport Properties (4/9)
    11. Chapter 2 Flows, Gradients, and Transport Properties (5/9)
    12. Chapter 2 Flows, Gradients, and Transport Properties (6/9)
    13. Chapter 2 Flows, Gradients, and Transport Properties (7/9)
    14. Chapter 2 Flows, Gradients, and Transport Properties (8/9)
    15. Chapter 2 Flows, Gradients, and Transport Properties (9/9)
    16. Chapter 3 Transport Properties of Materials (1/10)
    17. Chapter 3 Transport Properties of Materials (2/10)
    18. Chapter 3 Transport Properties of Materials (3/10)
    19. Chapter 3 Transport Properties of Materials (4/10)
    20. Chapter 3 Transport Properties of Materials (5/10)
    21. Chapter 3 Transport Properties of Materials (6/10)
    22. Chapter 3 Transport Properties of Materials (7/10)
    23. Chapter 3 Transport Properties of Materials (8/10)
    24. Chapter 3 Transport Properties of Materials (9/10)
    25. Chapter 3 Transport Properties of Materials (10/10)
    26. Chapter 4 1-D, Steady-State, Diffusive Transport (1/10)
    27. Chapter 4 1-D, Steady-State, Diffusive Transport (2/10)
    28. Chapter 4 1-D, Steady-State, Diffusive Transport (3/10)
    29. Chapter 4 1-D, Steady-State, Diffusive Transport (4/10)
    30. Chapter 4 1-D, Steady-State, Diffusive Transport (5/10)
    31. Chapter 4 1-D, Steady-State, Diffusive Transport (6/10)
    32. Chapter 4 1-D, Steady-State, Diffusive Transport (7/10)
    33. Chapter 4 1-D, Steady-State, Diffusive Transport (8/10)
    34. Chapter 4 1-D, Steady-State, Diffusive Transport (9/10)
    35. Chapter 4 1-D, Steady-State, Diffusive Transport (10/10)
    36. Chapter 5 Generation (1/10)
    37. Chapter 5 Generation (2/10)
    38. Chapter 5 Generation (3/10)
    39. Chapter 5 Generation (4/10)
    40. Chapter 5 Generation (5/10)
    41. Chapter 5 Generation (6/10)
    42. Chapter 5 Generation (7/10)
    43. Chapter 5 Generation (8/10)
    44. Chapter 5 Generation (9/10)
    45. Chapter 5 Generation (10/10)
    46. Chapter 6 Accumulation (1/16)
    47. Chapter 6 Accumulation (2/16)
    48. Chapter 6 Accumulation (3/16)
    49. Chapter 6 Accumulation (4/16)
    50. Chapter 6 Accumulation (5/16)
    51. Chapter 6 Accumulation (6/16)
    52. Chapter 6 Accumulation (7/16)
    53. Chapter 6 Accumulation (8/16)
    54. Chapter 6 Accumulation (9/16)
    55. Chapter 6 Accumulation (10/16)
    56. Chapter 6 Accumulation (11/16)
    57. Chapter 6 Accumulation (12/16)
    58. Chapter 6 Accumulation (13/16)
    59. Chapter 6 Accumulation (14/16)
    60. Chapter 6 Accumulation (15/16)
    61. Chapter 6 Accumulation (16/16)
    62. Chapter 7 Conservative Transport and Waves (1/5)
    63. Chapter 7 Conservative Transport and Waves (2/5)
    64. Chapter 7 Conservative Transport and Waves (3/5)
    65. Chapter 7 Conservative Transport and Waves (4/5)
    66. Chapter 7 Conservative Transport and Waves (5/5)
    67. Chapter 8 Transport Enhancement Using Extended Surfaces (1/8)
    68. Chapter 8 Transport Enhancement Using Extended Surfaces (2/8)
    69. Chapter 8 Transport Enhancement Using Extended Surfaces (3/8)
    70. Chapter 8 Transport Enhancement Using Extended Surfaces (4/8)
    71. Chapter 8 Transport Enhancement Using Extended Surfaces (5/8)
    72. Chapter 8 Transport Enhancement Using Extended Surfaces (6/8)
    73. Chapter 8 Transport Enhancement Using Extended Surfaces (7/8)
    74. Chapter 8 Transport Enhancement Using Extended Surfaces (8/8)
  9. Part II Multidimensional, Convective, and Radiative Transport
    1. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (1/11)
    2. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (2/11)
    3. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (3/11)
    4. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (4/11)
    5. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (5/11)
    6. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (6/11)
    7. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (7/11)
    8. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (8/11)
    9. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (9/11)
    10. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (10/11)
    11. Chapter 9 Multidimensional Effects, Potential Functions, and Fields (11/11)
    12. Chapter 10 Convective Transport: Microscopic Balances (1/14)
    13. Chapter 10 Convective Transport: Microscopic Balances (2/14)
    14. Chapter 10 Convective Transport: Microscopic Balances (3/14)
    15. Chapter 10 Convective Transport: Microscopic Balances (4/14)
    16. Chapter 10 Convective Transport: Microscopic Balances (5/14)
    17. Chapter 10 Convective Transport: Microscopic Balances (6/14)
    18. Chapter 10 Convective Transport: Microscopic Balances (7/14)
    19. Chapter 10 Convective Transport: Microscopic Balances (8/14)
    20. Chapter 10 Convective Transport: Microscopic Balances (9/14)
    21. Chapter 10 Convective Transport: Microscopic Balances (10/14)
    22. Chapter 10 Convective Transport: Microscopic Balances (11/14)
    23. Chapter 10 Convective Transport: Microscopic Balances (12/14)
    24. Chapter 10 Convective Transport: Microscopic Balances (13/14)
    25. Chapter 10 Convective Transport: Microscopic Balances (14/14)
    26. Chapter 11 Macroscopic or Engineering Balances (1/11)
    27. Chapter 11 Macroscopic or Engineering Balances (2/11)
    28. Chapter 11 Macroscopic or Engineering Balances (3/11)
    29. Chapter 11 Macroscopic or Engineering Balances (4/11)
    30. Chapter 11 Macroscopic or Engineering Balances (5/11)
    31. Chapter 11 Macroscopic or Engineering Balances (6/11)
    32. Chapter 11 Macroscopic or Engineering Balances (7/11)
    33. Chapter 11 Macroscopic or Engineering Balances (8/11)
    34. Chapter 11 Macroscopic or Engineering Balances (9/11)
    35. Chapter 11 Macroscopic or Engineering Balances (10/11)
    36. Chapter 11 Macroscopic or Engineering Balances (11/11)
    37. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (1/14)
    38. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (2/14)
    39. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (3/14)
    40. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (4/14)
    41. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (5/14)
    42. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (6/14)
    43. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (7/14)
    44. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (8/14)
    45. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (9/14)
    46. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (10/14)
    47. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (11/14)
    48. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (12/14)
    49. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (13/14)
    50. Chapter 12 Convective Transport on a Flat Plate (Laminar Boundary Layers) (14/14)
    51. Chapter 13 Convective Transport: Systems with Curvature (1/12)
    52. Chapter 13 Convective Transport: Systems with Curvature (2/12)
    53. Chapter 13 Convective Transport: Systems with Curvature (3/12)
    54. Chapter 13 Convective Transport: Systems with Curvature (4/12)
    55. Chapter 13 Convective Transport: Systems with Curvature (5/12)
    56. Chapter 13 Convective Transport: Systems with Curvature (6/12)
    57. Chapter 13 Convective Transport: Systems with Curvature (7/12)
    58. Chapter 13 Convective Transport: Systems with Curvature (8/12)
    59. Chapter 13 Convective Transport: Systems with Curvature (9/12)
    60. Chapter 13 Convective Transport: Systems with Curvature (10/12)
    61. Chapter 13 Convective Transport: Systems with Curvature (11/12)
    62. Chapter 13 Convective Transport: Systems with Curvature (12/12)
    63. Chapter 14 Turbulent Boundary Layers (1/9)
    64. Chapter 14 Turbulent Boundary Layers (2/9)
    65. Chapter 14 Turbulent Boundary Layers (3/9)
    66. Chapter 14 Turbulent Boundary Layers (4/9)
    67. Chapter 14 Turbulent Boundary Layers (5/9)
    68. Chapter 14 Turbulent Boundary Layers (6/9)
    69. Chapter 14 Turbulent Boundary Layers (7/9)
    70. Chapter 14 Turbulent Boundary Layers (8/9)
    71. Chapter 14 Turbulent Boundary Layers (9/9)
    72. Chapter 15 Radiative Transport (1/10)
    73. Chapter 15 Radiative Transport (2/10)
    74. Chapter 15 Radiative Transport (3/10)
    75. Chapter 15 Radiative Transport (4/10)
    76. Chapter 15 Radiative Transport (5/10)
    77. Chapter 15 Radiative Transport (6/10)
    78. Chapter 15 Radiative Transport (7/10)
    79. Chapter 15 Radiative Transport (8/10)
    80. Chapter 15 Radiative Transport (9/10)
    81. Chapter 15 Radiative Transport (10/10)
  10. Nomenclature (1/2)
  11. Nomenclature (2/2)
  12. Appendix A: Vector Mathematics
  13. Appendix B: Mathematical Functions
  14. Appendix C: First Eigenvaluefor 1-D Transient Conduction with External Convection
  15. Appendix D: Exact Solution to the Boundary Layer Equations
  16. Appendix E: Blackbody Emission Functions
  17. Appendix F: Thermodynamic and Transport Properties of Materials (1/4)
  18. Appendix F: Thermodynamic and Transport Properties of Materials (2/4)
  19. Appendix F: Thermodynamic and Transport Properties of Materials (3/4)
  20. Appendix F: Thermodynamic and Transport Properties of Materials (4/4)
  21. Appendix G: Comsol® Modules (1/2)
  22. Appendix G: Comsol® Modules (2/2)
  23. Back Cover

Product information

  • Title: Transport Phenomena Fundamentals, 3rd Edition
  • Author(s): Joel L. Plawsky
  • Release date: January 2014
  • Publisher(s): CRC Press
  • ISBN: 9781466555358