Heat Convection 1st Edition by Latif Jiji ISBN 9783540306948 3540306943

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Product details:
ISBN 10: 3540306943
ISBN 13: 9783540306948
Author: Latif Jiji 

Heat Convection 1st Edition Table of contents:

Part I: Fundamentals of Heat Convection

1. Introduction to Heat Transfer

   • Modes of Heat Transfer: Conduction, Convection, and Radiation
   • Significance of Heat Convection in Engineering and Nature
   • Mathematical Formulation of Heat Transfer
   • Governing Equations and Boundary Conditions

2. Basic Principles of Fluid Flow

   • Fluid Mechanics and Flow Regimes
   • Continuity, Momentum, and Energy Equations
   • Laminar and Turbulent Flow in Convection
   • Reynolds Number and Flow Regimes

3. The Physical Mechanisms of Convection

   • Heat Transfer by Conduction and Diffusion
   • Convection as Coupled Energy and Momentum Transfer
   • Temperature Gradients and Velocity Profiles
   • Buoyancy-Driven Flow and Forced Convection

4. Dimensional Analysis and Similarity in Heat Convection

   • Buckingham Pi Theorem
   • Nusselt Number, Reynolds Number, and Prandtl Number
   • Scaling Laws in Convection Problems
   • Experimental and Theoretical Correlations

Part II: Forced Convection

5. Introduction to Forced Convection

   • Flow Over Flat Plates and Cylinders
   • Local and Average Heat Transfer Coefficients
   • Velocity and Temperature Profiles in Forced Convection
   • Heat Transfer in Laminar, Transitional, and Turbulent Flow

6. Heat Transfer in Internal Flow

   • Flow in Pipes, Tubes, and Ducts
   • Fully Developed and Developing Flow
   • Pressure Drop and Heat Transfer in Ducts
   • Forced Convection in Compact Heat Exchangers

7. Forced Convection in Non-Circular Channels

   • Heat Transfer in Rectangular, Annular, and Other Geometries
   • Flow Regimes and Transition in Non-Circular Cross-Sections
   • Numerical and Analytical Methods for Non-Circular Channels
   • Case Studies and Applications

Part III: Natural Convection

8. Introduction to Natural Convection

   • Gravitational Forces and Buoyancy-Driven Flow
   • Governing Equations for Natural Convection
   • Rayleigh and Nusselt Numbers for Natural Convection
   • Flow Patterns in Natural Convection

9. Natural Convection in Enclosures

   • Heat Transfer in Vertical and Horizontal Plates
   • Natural Convection in Rectangular and Cylindrical Enclosures
   • Rayleigh-Bénard Convection and Thermal Boundary Layers
   • Numerical Solutions for Enclosure Convection

10. Natural Convection in Porous Media

    • Fluid Flow and Heat Transfer in Porous Media
    • Darcy’s Law and Effective Thermal Conductivity
    • Natural Convection in Saturated and Unsaturated Porous Materials
    • Applications in Geotechnical and Biological Systems

Part IV: Combined Convection and Radiation

11. Convection and Radiation in Heat Transfer

    • Interaction Between Convection and Thermal Radiation
    • Stefan-Boltzmann Law and Radiative Heat Transfer
    • Combined Heat Transfer Models for Engineering Applications
    • Radiative Heat Exchange in Convection Systems

12. Thermal Management in Engineering Applications

    • Heat Transfer in Electronic Cooling Systems
    • Heat Exchangers: Design and Optimization
    • Thermal Insulation and Convection Control
    • Cooling of High-Temperature Systems

Part V: Advanced Topics in Heat Convection

13. Turbulent Convection

    • Turbulence Models for Convection Heat Transfer
    • Reynolds-Averaged Navier-Stokes (RANS) Equations
    • Large Eddy Simulation (LES) and Direct Numerical Simulation (DNS)
    • Experimental Techniques for Turbulent Convection

14. Microscale and Nanoscale Heat Convection

    • Heat Transfer in Microchannels and Microfluidics
    • Nanoscale Convection Phenomena
    • Thermal Conductivity in Nanofluids
    • Applications in MEMS and NEMS

15. Non-Newtonian Fluids and Heat Convection

    • Heat Transfer in Non-Newtonian Fluids
    • Viscosity and Thermal Conductivity Effects
    • Convection in Polymer Melts and Suspensions
    • Industrial Applications of Non-Newtonian Fluids

Part VI: Computational Methods and Modeling

16. Numerical Methods in Heat Convection

    • Introduction to Computational Fluid Dynamics (CFD)
    • Finite Difference and Finite Volume Methods
    • Discretization of Convection-Diffusion Equations
    • Boundary Conditions and Grid Generation in CFD

17. Heat Transfer Simulations for Convection

    • Steady-State and Transient Heat Transfer Simulations
    • Validation and Verification of CFD Models
    • Case Studies in Forced and Natural Convection
    • Multiphase Flow and Heat Transfer Simulations

18. Optimization and Control of Convection Systems

    • Optimization Techniques in Heat Transfer Systems
    • Control of Flow and Temperature Distributions
    • Artificial Intelligence and Machine Learning in Heat Transfer Design
    • Real-Time Control of Heat Exchanger Networks

Part VII: Applications and Case Studies

19. Heat Convection in Industrial Processes

    • Convection in Chemical Reactors and Furnaces
    • Heat Transfer in Boilers and Steam Generators
    • Cooling of Metals and Alloys
    • Convection in Food Processing and Bioreactors

20. Environmental and Energy Applications

    • Heat Transfer in Solar Collectors and Heat Pumps
    • Energy Efficiency in Buildings: Convection in HVAC Systems
    • Cooling Systems for Power Plants and High-Rise Buildings
    • Climate Control in Sustainable Architecture

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