CM3110 Transport Processes I
Michigan Technological University
Prof. Faith A. Morrison
| Topics |
Readings |
Homework |
| Formulas from Inside Cover |
||
| Necessary Prereqs: Fluid
Statics (4.2) Necessary Prereqs: MEB/math/physics (1.3) Why study fluid mechanics? (Ch 1) How fluids behave? Viscosity, drag, turbulence (Ch 2) |
Morrison, Ch1, Ch2, 4.2 Felder and Rousseau (fluid statics, MEB, mass bal) Geankoplis, 2.1-2.5, 3.2-3.3 |
HW1 figure for problem |
| Continuum mechanics/Control
Volume (Ch 3) Molecular fluid forces - stress tensor (Ch 4) Fluids in motion - forces, torques (Ch 4) Newtonian constitutive equation/Navier Stokes (Ch 5,6) Internal flows/correlations/dimensional analysis (Ch 7) Noncircular ducts, packed beds (7.2) |
Morrison, Ch3, 4.3, 5.1, 5.2,
5.3.1, 6.2, 7.1, 7.2 Geankoplis: 2.6, 2.8-2.10, 3.5-3.8 |
HW2 Past year's exam |
| External
flows/correlations/dimensional analysis (Ch 8) Boundary layers - Irrotational flow (8.2) Macroscopic balances (Ch 9) Compressible flow/Advanced flows (10.6) Fluidized bed |
Morrison, 8.1, 8.2, 9.2,10.1,
10.2, 10.6 Geankoplis: 2.11, 3.1, 3.4, 3.9-3.10 Dr. Morrison's Society of Rheology lectures: CM3110 - Macroscopic Balances in Fluid Mech CM3110 - Introduction to Numerical Methods Dr. Morrison's YouTube videos (many solutions to HW3 included): email_24Oct2011a.html |
HW3 answers for problem 1 problem 9 |
| Fourier's law/calculating T
profiles Overall heat transfer coefficients Calculate T profiles with heat generation Energy Equation Dimensional analysis Dimen. Anal./Heat transfer Coefficients |
Geankoplis:
Ch1, 2.7, Ch 4 Morrison 6.1.4, 9.1.3 Felder and Rousseau, Ch 7, 8, 9 Derivation of the Macro E-Balance (from book) (Dr. Morrison) Macroscopic E-Balance Summary (CM2110) (Dr. Morrison) Microscopic Energy Balance Equation in components: handout |
HW4 |
| Heat transfer coefficients
natural convection Heat transfer coefficients phase change Heat exchanger Design/fouling Unsteady state heat transport Radiation |
Geankoplis: 4.9, Ch 5 | HW5 |
| Exam
1 with solution |
| Exam
2 with solution |
| Exam
3 with solution |
| Exam
4 with solution |
| Comsol Project Dr. Morrison's email 5Oct11 Assignment memo Typo in Part 2 size: click here Hint to making hand solution match Comsol results Instructions part 1: pressure-driven flow in a slit Note from IT Dept |
| Final
Exam 2011 solution |
| Exam
1 with solution |
| Exam
2 with solution |
| Exam
3 with solution |
| Exam
4 with solution |
| Final Exam with solution |
