ME 314 Heat and Mass Transfer (4 cr.)
Prerequisites:	ME 310
Corequisites:	NONE
Textbooks:	F. P. Incropera and D.P. Dewitt, Fundamentals of Heat and Mass Transfer, Wiley, Sixth Edition, 2006.
Description:	Fundamental principles of heat transfer by conduction, convection, and radiation; mass transfer by diffusion and convection. Application to engineering situations.
Goals:	To teach students a basic understanding of the laws of heat and mass transfer and to provide the opportunity to apply these laws to simple engineering situations.
Lecture Outcomes:
Laboratory Outcomes:
Topics:	1. Rate equations and conservation laws (1 class) 2. Diffusion of heat and mass (10 classes)       a) The diffusion equation       b) One dimensional steady state conduction       c) Two dimensional steady state conduction       d) Transient conduction 3. Convection (8 classes)       a) Boundary layers, analogies       b) External flow       c) Internal flow       d) Free convection       e) Mixed convection 4. Radiation (5 classes)       a) Fundamental concepts       b) Radiation exchange between surfaces 5. Multi-mode heat and mass transfer (1 class) 6. Review (1 class) 7. Tests (3 classes)
Laboratory Experiments:	1) Conduction Along a Simple Bar   2) Conduction Along a Composite Bar   3) Conduction in Fluids   4) Heat Transfer from Fins   5) Lumped Heat Capacitance   6) 2-D Heat Conduction   7) 2-D Heat Convection (numerical)   8) Free Convection   9) Boiling Heat Transfer   10) Heat Exchangers   11) Stefan-Boltzmann Law   12) Radiant Intercommunication
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