Chapter 1: Introduction

(origins, rate equations, conservation of energy, relevance, units and dimensions)

Chapter 2: Introduction to Conduction

(conduction, heat diffusion, heat flux, boundary conditions)

Chapter 3: One-Dimensional, Steady-State Conduction

(plane wall, radial systems, heat generation, extended surfaces, pins)

Chapter 4: Two-Dimensional, Steady-State Conduction

(conduction shape factor, dimensionless groups, finite-differences)

Chapter 5: Transient Conduction

(lumped capacitance, spatial effects, convection, periodic heating)

Chapter 6: Introduction to Convection

(boundary layers, laminar, turbulent flow, convection coefficient)

Chapter 7: External Flow

(cross flow, parallel flow, flow across banks, packed beds)

Chapter 8: Internal Flow

(internal flow, convection correlations, enhancement)

Chapter 9: Free Convection

(free convection, turbulence, enclosures, combined flow)

Chapter 10: Boiling and Condensation

(boiling, pool boiling, convective boiling, film condensation)

Chapter 11: Heat Exchangers

(heat exchangers, heat transfer coefficient, NTU method)

Chapter 12: Radiation: Processes and Properties

(intensity, blackbody, emission, adsorption, Kirchoff's law)

Chapter 13: Radiation: Exchange Between Surfaces

(view factor, multimode transfer, appendices)

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Funded by the National Science Foundation and the Department of Chemical and Biological Engineering at the University of Colorado Boulder with support from Shell and the Engineering Excellence Fund at the University of Colorado Boulder.