Introduction (WRF Chapters 14 & 15, WWWR Chapters 15 & 16, ID Chapters 1-2)
Classification of conduction, convection & radiation. Differential equations of heat transfer. Fundamental concepts.
Steady-state conduction (WRF Chapter 16, WWWR Chapter 17, ID Chapters 3-4)
One-dimensional conduction. Heat transfer from extended surfaces.
Unsteady-state conduction (WRF Chapter 17, WWWR Chapter 18, ID Chapter 5)
Analytical solutions. Numerical solution for transient conduction analysis.
Convective Heat Transfer (WRF Chapter 19, WWWR Chapter 19, ID Chapter 6)
Dimensional analysis. Energy- and momentum transfer analogies. Turbulent flow considerations.
Convective Heat- Transfer Correlations (WRF Chapter 19, WWWR Chapter 20, ID Chapters 7-9)
Natural convection.Forced convection for internal flow. Forced convection for external flow.
Boiling and Condensation. (WRF Chapter 20, WWWR Chapter 21, ID Chapter 10)
Heat-transfer Equipment. (WWWR Chapter 22, ID Chapter 11)
Heat exchanger, Log-mean temperature difference.
Radiation Heat Transfer (WWWR Chapter 23, ID Chapters 12-13)
Planck’s law of radiation. Stefan-Boltzmann Law. Emissivity and absorptivity of solid surface. Radiant heat transfer between black bodies and gray surfaces.
Introduction (WRF Chapters 22-23, WWWR Chapters 24 & 25, ID Chapter 14)
Classification of molecular diffusion and convective mass transfer. Fundamental concepts. Differential equations in mass transfer.
Steady State Diffusion (Chapter 26)
One-dimensional diffusion without chemical reactions.
Unsteady State Diffusion (Chapter 27)
Fick’s second law. Transient diffusion in semi-infinite medium. Graphical solutions.
Convective Mass Transfer (Chapter 28 & 29)
Fundamentals and parameters. Dimensional analysis. Analogies of mass, energy and momentum transfer.