Handouts
Momentum Heat and Mass Transfer
ChemE 530
Posted
Topic
Week 1
1A: Mass Transfer Definitions and Relationships (Lecture Notes)
1B: Coordinate Transformation Eqn Sheet
1C: Constitutive Equations Recap
Recitation 1 Notes
Recitation 1 Problems
Week 2
2A: Gas Kinetic Theory Recap
2B: Mass Diffusion Models for Gases
2C: Knudsen Diffusion
2D: Gas Diffusion Models Recap
2E: Example Chapman-Enskog (Gas Diffusion) Calculation
2F: Mass Diffusion Models for Liquids
2G: Example Liquid Diffusion Calculation
2H: Mass Transfer Diffusion Tables
2I: Diffusion Data for Diluted Liquid Systems and Solids
Week 3
3A: Approx. heat and mass conservation equation in different geometries
3B: Effectiveness factor plot for porous catalysts
3C: Conservation Equations Recap
3D: Conservation Equations Recap Continued
3E: Thermal Conservation Equation Recap
3F: Mass Conservation Equation Recap
3G: Heated Wire Example Problem
3H: Rev. Homogenous Reaction Example
3I: Reaction in Binary Gas Example
3J: Reaction in Spherical Pellet Example
Physical Constants provided on Quizzes / Exams
Recitation Problems
Week 4
Exam Preparation: Sample Exam 1
4A: Reaction in porous catalyst - example
4B: Reaction Examples Recap
4C: Pseudosteady vs Lumped - Handout
4D: Melting of a Small Crystal - Example
4E: Series Resistance/Fin Approximation Recap
Week 5
5A: Error Function Table
5B: Similarity Method Recap
Week 6
6A: Cauchy Stress Tensor and Stress Vectors
6B: Multiple Operation Involving del Operator
6C: Linear Momentum and Stress Equilibrium Recap
6D: Cauchy Momentum Equation Recap
6E: Strain Deformation Recap (11/05/19)
6F: Deformation in Fluids and Navier Stokes (11/07/19)
Week 7
2019 Handouts
7A: Conservation of Momentum Eqns Recap (11/12/19)
7B: Surface Stress Balances (11/13/19)
7C: Lecture 11/13/19 Recap
7D: Navier-Stokes and Simplifications/Special Cases
2018 Handouts
Elementary Flow – Building Blocks
Review on Inviscid Flow and Potential Flow
Surface Energy-Tension-Wetting_Capillary
Shear Deformation Recap
Navier-Stokes Recap
Force on Surface Calculation
Experimental Drag Coefficient
Week 8
8A: List of Fluid Mechanics Equations
8B: Non-Newtonian Equation, Surface Tension Recap
8C: Bi-Directional Flow/Streamline Equations
Recitation Streamline Problems
Week 9
9A: Bidirectional Flow Recap (11/21/19)
9B: High Reynold’s Number Bidirectional Flow
9C: Potential Flow Around Cylinder
9B: Numerical Solution to Blasius Boundary Layer Equation
9C: Numerical Solution to Falkner Skan
9D: Visualization and Effects of Boundary Layer Separation
9E: Bi-Directional Flow Equations
9F: Planar and Axisymmetric Flow
9G: Table of Flow Equations
Bi-Directional Flow Recap
Week 10
10A: Recap Nov. 27th Lecture
10B: Blasius: Modified Stream Function Solution to Laminar Boundary Layer Problem
10C: Elementary Flows (Stream Functions and Velocity Potential Expressions)
Crossflow around a cylinder with viscous boundary layer (Karman-Pohlhausen)
Wedgeflow with viscous boundary layer (Falkner-Skan)
Stream Function Recap
Lecture Notes 12/03 – Flow around a Cylinder
Lecture on Drag Forces
Recap on Boundary Layer Introduction
Lecture on Boundary Layer
Molecular Tribology