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Convective Heat Transfer Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)

Convective Heat Transfer By Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)

Convective Heat Transfer by Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)

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Convective Heat Transfer Summary

Convective Heat Transfer by Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)

Intended for readers who have taken a basic heat transfer course and have a basic knowledge of thermodynamics, heat transfer, fluid mechanics, and differential equations, Convective Heat Transfer, Third Edition provides an overview of phenomenological convective heat transfer. This book combines applications of engineering with the basic concepts of convection. It offers a clear and balanced presentation of essential topics using both traditional and numerical methods. The text addresses emerging science and technology matters, and highlights biomedical applications and energy technologies.

What's New in the Third Edition:

  • Includes updated chapters and two new chapters on heat transfer in microchannels and heat transfer with nanofluids
  • Expands problem sets and introduces new correlations and solved examples
  • Provides more coverage of numerical/computer methods

The third edition details the new research areas of heat transfer in microchannels and the enhancement of convective heat transfer with nanofluids. The text includes the physical mechanisms of convective heat transfer phenomena, exact or approximate solution methods, and solutions under various conditions, as well as the derivation of the basic equations of convective heat transfer and their solutions. A complete solutions manual and figure slides are also available for adopting professors.

Convective Heat Transfer, Third Edition is an ideal reference for advanced research or coursework in heat transfer, and as a textbook for senior/graduate students majoring in mechanical engineering and relevant engineering courses.

About Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)

Sadik Kakac has been known as one of the most recognized scientists in the field of heat transfer. He received his MS in mechanical engineering in 1959 and his MS in nuclear engineering in 1960, both from MIT. He received his Ph.D. from the Victoria University of Manchester, UK (1965). He has authored and co-authored over 200 scientific papers on transient and steady-state laminar forced convection, turbulent forced convection, two-phase flow instabilities, fuel cells modeling, and heat transfer in microchannels with slip flow. He is currently involved in convective heat transfer enhancement with nanofluids in single-phase and two-phase conditions.

Table of Contents

Foundations of Heat Transfer

Nomenclature

Introductory Remarks

Modes of Heat Transfer

Continuum Concept

Some Definitions and Concepts of Thermodynamics

General Laws

Particular Laws

Problems

References

Suggested Reading

Governing Equations of Convective Heat Transfer

Nomenclature

Introduction

Continuity Equation

Momentum Equations

Energy Equation

Discussion of the Fundamental Equations

Similarities in Fluid Flow and Heat Transfer

Problems

References

Boundary-Layer Approximations for Laminar Flow

Nomenclature

Introduction

Momentum Equations of the Boundary Layer

Boundary-Layer Energy Equation

Problems

References

Heat Transfer in Incompressible Laminar External Boundary Layers:

Similarity Solutions

Nomenclature

Introduction

Laminar Velocity Boundary Layer

Thermal Boundary Layer

Fluid Friction and Heat Transfer

Flows with Pressure Gradients

Problems

References

Integral Method

Nomenclature

Introduction

Momentum Integral Equation

Energy Integral Equation

Laminar Forced Flow over a Flat Plate

Thermal Boundary Layer on an Isothermal Flat Plate

Thermal Boundary Layer on a Flat Plate with Constant Surface Heat Flux

Flat Plate with Varying Surface Temperature

Flows with Pressure Gradient

Problems

References

Laminar Forced Convection in Pipes and Ducts

Nomenclature

Introduction

Laminar and Turbulent Flows in Ducts

Some Exact Solutions of Navier-Stokes Equations

Friction Factor

Noncircular Cross-Sectional Ducts

Laminar Forced Convection in Ducts

Thermal Boundary Conditions

Laminar Forced Convection in Circular Pipes with Fully Developed

Conditions

Laminar Forced Convection in the Thermal Entrance Region of a Circular

Duct

Laminar Flow Heat Transfer in the Combined Entrance Region of

Circular Ducts

Laminar Convective Heat Transfer between Two Parallel Plates

Integral Method

Asymptotic Values of Heat-Transfer Coefficients in Ducts

Effect of Circumferential Heat-Flux Variation

Heat Transfer in Annular Passages

Problems

References

Forced Convection in Turbulent Flow

Nomenclature

Introduction

Governing Equations with Steady Turbulent Flow

Turbulence Models

Velocity Distribution in Turbulent Flow

Friction Factors for Turbulent Flow

Analogies between Heat and Momentum Transfer

Further Analogies in Turbulent Flow

Turbulent Heat Transfer in a Circular Duct with Variable Circumferential

Heat Flux

Turbulent Heat Transfer in Annular Passages

Effect of Boundary Conditions on Heat Transfer

Turbulent Flow on a Flat Plate

Problems

References

Unsteady Forced Convection in Ducts

Nomenclature

Introduction

Transient Laminar Forced Convection in Ducts

Transient Turbulent Forced Convection in Ducts

Analysis of Transient Forced Convection for Timewise Variation of Inlet

Temperature

Problems

References

Empirical Correlations for Single-Phase Forced Convection in Ducts

Nomenclature

Introduction

Dimensional Analysis of Forced Convection

Laminar Forced Convection

Effects of Variable Physical Properties

Turbulent Forced Convection

Turbulent Flow in Smooth Straight Noncircular Ducts

Effects of Variable Physical Properties in Turbulent Forced Convection

Liquid Metal Heat Transfer

Summary

Problems

References

Heat Transfer in Natural Convection

Nomenclature

Introduction

Basic Equations of Laminar Boundary Layer

Pohlhausen Solution for Laminar Boundary Layer over a Constant

Temperature Vertical Flat Plate

Exact Solution of Boundary-Layer Equations for Uniform Heat Flux

Inclined and Horizontal Surfaces

Property Variation in Free Convection

Approximate Solution of Laminar Free Convection on a Vertical Plate:

Von Karman-Pohlhausen Integral Method

Turbulent Heat Transfer on a Vertical Plate

Dimensional Analysis in Natural Convection

Interferometric Studies

Natural Convection in Enclosed Spaces

Correlations for Natural Convection in Enclosures

Combined Free and Forced Convection

Problems

References

Heat Transfer in High-Speed Flow

Nomenclature

Introduction

Stagnation Temperature

Adiabatic Wall Temperature and Recovery Factor

Governing Equations in High-Velocity Flow

Thermal Boundary Layer over a Flat Plate in High-Speed Flow

Heat Transfer in 2D Turbulent Boundary Layers

Problems

References

Convective Heat Transfer in Microchannels

Nomenclature

Introduction

Definitions in Microchannels

Convective Heat Transfer for Gaseous Flow in Microchannels

Effects of Temperature Jump

Effects of Viscous Dissipation

Effects of Channel Roughness

Effects of Variable Fluid Properties

Empirical Correlations for Gaseous Forced Convection in

Microchannels

Empirical Correlations for Liquid Forced Convection in Microchannels

Problems

References

Enhancement of Convective Heat Transfer with Nanofluids

Nomenclature

Introduction

Nanofluid Convective Heat-Transfer Modeling

Empirical Correlation for Single-Phase Forced Convection with Nanofluids

Problems

References

Appendices

Index

Additional information

CIN1466583444VG
9781466583443
1466583444
Convective Heat Transfer by Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)
Sadik Kakac (TOBB University of Economics and Technology, Ankara, Turkey)
Used - Very Good
Hardback
Taylor & Francis Inc
20131129
622
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in very good condition, but if you are not entirely satisfied please get in touch with us

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