Fundamentals of Heat and Mass Transfer.

About the Book: Salient features A number of Complex problems along with the solutions are provided Objective type questions for self-evaluation and better understanding of the subject Problems related to the practical aspects of the subject have been worked out Checking the authenticity of dimensio...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Kothandaraman, C. P.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New Delhi : New Age International Pvt. Ltd., Publishers, 2006.
Edición:3rd ed.
Temas:
Heat > Transmission.
Mass transfer.
Chaleur > Transmission.
Transfert de masse.
heat transmission.
Heat > Transmission
Mass transfer
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Preface to the Third Edition
  • Contents
  • Chapter 1. An Overview of Heat Transfer
  • 1.0 Introduction
  • 1.1 Heat Transfer
  • 1.2 Modes of Heat Transfer
  • 1.3 Combined Modes of Heat Transfer
  • 1.4 Dimensions and Units
  • 1.5 Closure
  • Solved Problems
  • Exercise Problems
  • Chapter 2. Steady State Conduction
  • 2.0 Conduction
  • 2.1 The General Model for Conduction Study
  • 2.2 Steady Conduction in One Direction (One Dimensional)
  • 2.3 Conduction in Other Shapes
  • 2.4 One Dimensional Steady State Heat Conduction with Variable Heat Conductivity or Variable Area Along the Section
  • 2.5 Critical Thickness of Insulation
  • 2.6 Mean Area Concept
  • 2.7 Parallel Flow
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 3. Conduction with Heat Generation
  • 3.0 Introdution
  • 3.1 Steady State One Dimensional Conduction in a Slab with Uniform Heat Generation
  • 3.2 Steady State Radial Heat Conduction in Cylinder with Uniform Heat Generation
  • 3.3 Radial Conduction in Sphere with Uniform Heat Generation
  • 3.4 Conclusion
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 4. Heat Transfer with Extended Surfaces (FINS)
  • 4.0 Introduction
  • 4.1 Fin Model
  • 4.2 Temperature Calculation
  • 4.3 Heat Flow Calculation
  • 4.4 Fin Performance
  • 4.5 Circumferential Fins and Plate Fins of Varying Sections
  • 4.6 Optimisation
  • 4.7 Fin with Radiation Surroundings
  • 4.8 Contact Resistance
  • 4.9 Numerical Method
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 5. Two Dimensional Steady Heat Conduction
  • 5.0 Introdcution
  • 5.1 Solution to Differential Equation
  • 5.2 Graphical Method
  • 5.3 Numerical Method
  • 5.4 Electrical Analogy
  • 5.5 In the Finite Difference Formulation
  • Solved Problems
  • Exercise Problems
  • Chapter 6. Transient Heat Conduction
  • 6.0 Introduction.
  • 6.1 A Wall Exposed to the Sun
  • 6.2 Lumped Parameter Model
  • 6.3 Semi Infinite Solid
  • 6.4 Periodic Heat Conduction
  • 6.5 Transient Heat Conduction in Large Slab of Limited Thickness, Long Cylinders and Spheres
  • 6.6 Product Solution
  • 6.7 Numerical Method
  • 6.8 Graphical Method
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 7. Convection
  • 7.0 Introduction
  • 7.1 Mechanism of Convection
  • 7.2 The Concept of Velocity Boundary Layer
  • 7.3 Thermal Boundary Layer
  • 7.4 Laminar and Turbulent Flow
  • 7.5 Forced and Free Convection
  • 7.6 Methods Used in Convection Studies
  • 7.7 Energy Equation
  • 7.8 Integral Method
  • 7.9 Dimensional Analysis
  • 7.10 Analogical Methods
  • 7.11 Correlation of Experimental Results
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 8. Connective Heat Transfer-Practical Correlations-Flow Over Surfaces
  • 8.0 Introduction
  • 8.1 Flow Over Flat Plates
  • 8.2 Turbulent Flow
  • 8.3 Flow Across Cylinders
  • 8.4 Flow Across Spheres
  • 8.5 Flow Over Bluff Bodies
  • 8.6 Flow Across Bank of Tubes
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 9. Forced Convection
  • 9.0 Internal Flow
  • 9.1 Hydrodynamic Boundary Layer Development
  • 9.2 Thermal Boundary Layer
  • 9.3 Laminar Flow
  • 9.4 Turbulent Flow
  • 9.5 Liquid Metal Flow
  • 9.6 Flow Through Non-Circular Sections
  • 9.7 The Variation of Temperature Along the Flow Direction
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 10. Natural Convection
  • 10.0 Introduction
  • 10.1 Basic Nature of Flow Under Natural Convection Conditions
  • 10.2 Methods of Analysis
  • 10.3 Integral Method
  • 10.4 Correlations From Experimental Results
  • 10.5 A More Recent Set of Correlations
  • 10.6 Constant Heat Flux Condition-Vertical Surfaces
  • 10.7 Free Convection From Inclined Surfaces.
  • 10.8 Horizontal Cylinders
  • 10.9 Other Geometries
  • 10.10 Simplified Expressions For Air
  • 10.11 Free Convection in Enclosed Spaces
  • 10.12 Rotating Cylinders, Disks and Spheres
  • 10.13 Combined Forced and Free Convection
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 11. Phase Change Processes Boiling, Condensation Freezing and Melting
  • 11.0 Introduction
  • 11.1 Boiling or Evaporation
  • 11.2 The Correlations
  • 11.3 Flow Boiling
  • 11.4 Condensation
  • 11.5 Freezing and Melting
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 12. Heat Exchangers
  • 12.0 Introduction
  • 12.1 Over all Heat Transfer Coefficient
  • 12.2 Classification of Heat Exchangers
  • 12.3 Mean Temperature Difference-Log Mean Temperature Difference
  • 12.4 Regenerative Type
  • 12.5 Determination of Area in Other Arrangements
  • 12.6 Heat Exchanger Performance
  • 12.7 Storage Type Heat Exchangers
  • 12.8 Compact Heat Exchangers
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 13. Thermal Radiation
  • 13.0 Introduction
  • 13.1 Black Body
  • 13.2 Intensity of Radiation
  • 13.3 Real Surfaces
  • 13.4 Radiation Properties of Gases-Absorbing, Transmitting and Emitting Medium
  • 13.5 Heat Exchange by Radiation
  • 13.6 Radiant Heat Exchange Between Black Surfaces
  • 13.7 Heat Exchange by Radiation Between Gray Surfaces
  • 13.8 Effect of Radiation on Measurement of Temperature by a Bare Thermometer
  • 13.9 Multisurface Enclosure
  • 13.10 Surfaces Separated by an Absorbing and Transmitting Medium
  • Solved Problems
  • Objective Questions
  • Exercise Problems
  • Chapter 14. Mass Transfer
  • 14.0 Introdcution
  • 14.1 Properties of Mixture
  • 14.2 Diffusion Mass Transfer
  • 14.3 Fick's Law of Diffusion
  • 14.4 Equimolal Counter Diffusion
  • 14.5 Stationary Media with Specified Surface Concentration.
  • 14.6 Diffusion of One Component into a Stationary Component or Unidirectional Diffusion
  • 14.7 Unsteady Diffusion
  • 14.8 Convective Mass Transfer
  • 14.8 Similarity Between Heat and Mass Transfer
  • 14.9 Similarity Between Heat and Mass Transfer
  • Solved Problems
  • Exercise Problems
  • Fill in the Blanks
  • Short Problems
  • State True or False
  • Short Questions
  • Appendix
  • References.

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