Convective Heat Transfer

摘要: Foundations of Heat Transfer Nomenclature Introductory Remarks Modes Continuum Concept Some Definitions and Concepts Thermodynamics General Laws Particular Problems References Suggested Reading Governing Equations Convective Introduction Continuity Equation Momentum Energy Discussion the Fundamental Similarities in Fluid Flow Boundary-Layer Approximations for Laminar Boundary Layer Incompressible External Layers: Similarity Solutions Velocity Thermal Friction Flows with Pressure Gradients Integral Method Forced over a Flat Plate on an Isothermal Constant Surface Flux Varying Temperature Gradient Convection Pipes Ducts Turbulent Exact Navier-Stokes Factor Noncircular Cross-Sectional Conditions Circular Fully Developed Entrance Region Duct Combined between Two Parallel Plates Asymptotic Values Heat-Transfer Coefficients Effect Circumferential Heat-Flux Variation Annular Passages Steady Turbulence Models Distribution Factors Analogies Further Variable Unsteady Transient Analysis Timewise Inlet Empirical Correlations Single-Phase Dimensional Effects Physical Properties Smooth Straight Liquid Metal Summary Natural Basic Pohlhausen Solution Vertical Uniform Inclined Horizontal Surfaces Property Free Approximate Plate: Von Karman-Pohlhausen Interferometric Studies Enclosed Spaces Enclosures High-Speed Stagnation Adiabatic Wall Recovery High-Velocity 2D Layers Microchannels Gaseous Jump Viscous Dissipation Channel Roughness Enhancement Nanofluids Nanofluid Modeling Correlation Appendices Index