CHE 715 Transport Phenomena
3 Credit Hours
Advanced course in heat and mass transfer and fluid mechanics, including conservation and constitutive equations, scaling and solution methods for handling boundary value problems, and coupling of chemical reaction/adsorption with diffusion and fluid flow.
Course Prerequisite
Undergraduate transport courses or instructor permission.
Course Objectives
The objective of this advanced course is to provide to the student a sufficient background to be able to understand the fundamental phenomena, governing equations and assumptions used in the analysis of transport processes. We address aspects of three fundamental transport processes, momentum, heat and mass, including conservation and constitutive equations, and solution methods to solve a variety of problems.
Course Topics
- Math preliminaries (vector/tensors)
- Conservation of mass and momentum, conservation of mass and momentum (appendix, 1.1-1.2, 2.1-2.3, 6)
- Fundamentals of fluid flow (ch. 6 and 7)
- Unidirectional and nearly unidirectional flow (ch. 7)
- Creeping flow (ch. 8)
- Irrotational flow and boundary layers (ch. 9)
- Diffusive fluxes and material properties (back to ch.1)
- Fundamentals of heat and mass transfer (ch. 2 and 3)
- Scaling and approximation techniques (ch. 3 and 4)
- Solution methods for conduction and diffusion (ch. 4 and 5)
- Convective heat and mass transfer (ch. 10 and 11)
- Special topics (if time permits)
Course Requirements
HOMEWORK: 16%
THREE EXAMS OF EQUAL WEIGHT: 84%
Textbook
Deen, William M., Analysis of Transport Phenomena, Second Edition. Oxford University Press, 2011. ISBN-10: 0199740283 | ISBN-13: 978-0199740284 |
Updated 10/07/2020