Convective heat transfer / Sadik Kakac, Yaman Yener, and Anchasa Pramuanjaroenkij.

Includes bibliographical references.

Foundations of Heat TransferNomenclatureIntroductory RemarksModes of Heat TransferContinuum ConceptSome Definitions and Concepts of ThermodynamicsGeneral LawsParticular LawsProblemsReferencesSuggested ReadingGoverning Equations of Convective Heat TransferNomenclatureIntroductionContinuity EquationMomentum EquationsEnergy EquationDiscussion of the Fundamental EquationsSimilarities in Fluid Flow and Heat TransferProblemsReferencesBoundary-Layer Approximations for Laminar FlowNomenclatureIntroductionMomentum Equations of the Boundary LayerBoundary-Layer Energy EquationProblemsReferencesHeat Transfer in Incompressible Laminar External Boundary Layers:Similarity SolutionsNomenclatureIntroductionLaminar Velocity Boundary LayerThermal Boundary LayerFluid Friction and Heat TransferFlows with Pressure GradientsProblemsReferencesIntegral MethodNomenclatureIntroductionMomentum Integral EquationEnergy Integral EquationLaminar Forced Flow over a Flat PlateThermal Boundary Layer on an Isothermal Flat PlateThermal Boundary Layer on a Flat Plate with Constant Surface Heat FluxFlat Plate with Varying Surface TemperatureFlows with Pressure GradientProblemsReferencesLaminar Forced Convection in Pipes and DuctsNomenclatureIntroductionLaminar and Turbulent Flows in DuctsSome Exact Solutions of Navier-Stokes EquationsFriction FactorNoncircular Cross-Sectional DuctsLaminar Forced Convection in DuctsThermal Boundary ConditionsLaminar Forced Convection in Circular Pipes with Fully DevelopedConditionsLaminar Forced Convection in the Thermal Entrance Region of a CircularDuctLaminar Flow Heat Transfer in the Combined Entrance Region ofCircular DuctsLaminar Convective Heat Transfer between Two Parallel PlatesIntegral MethodAsymptotic Values of Heat-Transfer Coefficients in DuctsEffect of Circumferential Heat-Flux VariationHeat Transfer in Annular PassagesProblemsReferencesForced Convection in Turbulent FlowNomenclatureIntroductionGoverning Equations with Steady Turbulent FlowTurbulence ModelsVelocity Distribution in Turbulent FlowFriction Factors for Turbulent FlowAnalogies between Heat and Momentum TransferFurther Analogies in Turbulent FlowTurbulent Heat Transfer in a Circular Duct with Variable CircumferentialHeat FluxTurbulent Heat Transfer in Annular PassagesEffect of Boundary Conditions on Heat TransferTurbulent Flow on a Flat PlateProblemsReferencesUnsteady Forced Convection in DuctsNomenclatureIntroductionTransient Laminar Forced Convection in DuctsTransient Turbulent Forced Convection in DuctsAnalysis of Transient Forced Convection for Timewise Variation of InletTemperatureProblemsReferencesEmpirical Correlations for Single-Phase Forced Convection in DuctsNomenclatureIntroductionDimensional Analysis of Forced ConvectionLaminar Forced ConvectionEffects of Variable Physical PropertiesTurbulent Forced ConvectionTurbulent Flow in Smooth Straight Noncircular DuctsEffects of Variable Physical Properties in Turbulent Forced ConvectionLiquid Metal Heat TransferSummaryProblemsReferencesHeat Transfer in Natural ConvectionNomenclatureIntroductionBasic Equations of Laminar Boundary LayerPohlhausen Solution for Laminar Boundary Layer over a ConstantTemperature Vertical Flat PlateExact Solution of Boundary-Layer Equations for Uniform Heat FluxInclined and Horizontal SurfacesProperty Variation in Free ConvectionApproximate Solution of Laminar Free Convection on a Vertical Plate:Von Karman-Pohlhausen Integral MethodTurbulent Heat Transfer on a Vertical PlateDimensional Analysis in Natural ConvectionInterferometric StudiesNatural Convection in Enclosed SpacesCorrelations for Natural Convection in EnclosuresCombined Free and Forced ConvectionProblemsReferencesHeat Transfer in High-Speed FlowNomenclatureIntroductionStagnation TemperatureAdiabatic Wall Temperature and Recovery FactorGoverning Equations in High-Velocity FlowThermal Boundary Layer over a Flat Plate in High-Speed FlowHeat Transfer in 2D Turbulent Boundary LayersProblemsReferencesConvective Heat Transfer in MicrochannelsNomenclatureIntroductionDefinitions in MicrochannelsConvective Heat Transfer for Gaseous Flow in MicrochannelsEffects of Temperature JumpEffects of Viscous DissipationEffects of Channel RoughnessEffects of Variable Fluid PropertiesEmpirical Correlations for Gaseous Forced Convection inMicrochannelsEmpirical Correlations for Liquid Forced Convection in MicrochannelsProblemsReferencesEnhancement of Convective Heat Transfer with NanofluidsNomenclatureIntroductionNanofluid Convective Heat-Transfer ModelingEmpirical Correlation for Single-Phase Forced Convection with NanofluidsProblemsReferencesAppendicesIndex

"With clear, concise coverage of the basics of convection, this textbook is written for senior/graduate students, from mechanical and other engineering majors, who have taken a basic heat transfer course. Balancing basic concepts with engineering applications, the new edition is ideal for those wanting to learn more heat transfer for research work and advanced coursework. Convective heat transfer is important for many areas, including biomedical applications and energy technologies. This third edition features a complete new chapter on microscale and nanoscale convective heat transfer, and more coverage of numerical/computer methods"--