Heat And MassTransfer Mechanical Engineering Handbook
Tuesday, January 5, 2010
4.1 Conduction Heat Transfer
Introduction • Fourier’s Law • Insulations • The Plane Wall at Steady State • Long, Cylindrical Systems at Steady State • The Overall Heat Transfer Coefficient • Critical Thickness of Insulation • Internal Heat Generation• Fins • Transient Systems• Finite-Difference Analysis of Conduction
4.2 Convection Heat Transfer
Natural Convection • Forced Convection — External Flows •Forced Convection — Internal Flows
4.3 Radiation
Nature of Thermal Radiation • Blackbody Radiation •Radiative Exchange between Opaque Surfaces • Radiative Exchange within Participating Media
4.4 Phase-Change
Boiling and Condensation • Particle Gas Convection • Melting and Freezing
4.5 Heat Exchangers
Compact Heat Exchangers • Shell-and-Tube Heat Exchangers
4.6 Temperature and Heat Transfer Measurements
Temperature Measurement • Heat Flux • Sensor Environmental Errors • Evaluating the Heat Transfer Coefficient
4.7 Mass Transfer
Introduction • Concentrations, Velocities, and Fluxes • Mechanisms of Diffusion • Species Conservation Equation •Diffusion in a Stationary Medium • Diffusion in a Moving Medium • Mass Convection
4.8 Applications
Enhancement • Cooling Towers • Heat Pipes • Cooling Electronic Equipment
4.9 Non-Newtonian Fluids — Heat Transfer
Introduction • Laminar Duct Heat Transfer — Purely Viscous,Time-Independent Non-Newtonian Fluids • Turbulent Duct Flow for Purely Viscous Time-Independent Non-Newtonian Fluids • Viscoelastic Fluids • Free Convection Flows and Heat Transfer
Total 228 pages 6 mb
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