Lecture Notes

 

Professor Heinz Pitsch's Lecture Notes:

  1. Lecture 1 - Fundamentals
  2. Lecture 2 - Thermodynamics
  3. Lecture 3 - Fluid Dynamics and Balance Equations
  4. Lecture 4 - Laminar Premixed Flames 
  5. Lecture 5 - Laminar Premixed Flames: Flame Structure
  6. Lecture 6 - Laminar Diffusion Flames
  7. Lecture 7 - Turbulence
  8. Lecture 8 - Turbulent Premixed Combustion 
  9. Lecture 9 - Turbulent Non-Premixed Combustion
  10. Lecture 10 - Modeling Turbulent Combustion
  11. Lecture 11 - Applications

Professor William H. Green's Lecture Notes:

  1. Part 1 - Big Picture & Motivation
  2. Part 2 - Intro to Kinetics, Combustion Chemistry
  3. Part 3 - Thermochemistry
  4. Part 3A - Thermochemistry
  5. Part 4 - Kinetics & Mechanism
  6. Part 4A - Kinetics & Mechanism
  7. Part 5 - Computational Kinetics
  8. Other

Professor Rolf D. Reitz's Lecture Notes:

  1. Part 1 - IC Engine Review
  2. Part 2 - Turbochargers
  3. Part 3 - Chemical Kinetics, HCCI & SI Combustion
  4. Part 4 - Heat Transfer, NOx and Soot Emissions
  5. Part 5 - Atomization, Drop Breakup/Coalescence
  6. Part 6 - Drop Drag/Wall Impinge/Vaporization Sprays
  7. Part 7 - Diesel Combustin adn SI Knock Modeling
  8. Part 8 - Optimization and Low Temperature Combustion
  9. Part 9 - Fuels, After-Treatment and Controls
  10. Part 10 - Vehicle Applicatons, Future of IC Engines
  11. References

Professor Timothy C. Lieuwen's Lecture Notes:

  1. Unsteady Combustor Processes

Dr. Geo Richards' Lecture Notes:

  1. Part 1 - Inherent Carbon Capture: Chemical Looping Combustion
  2. Part 2 - Step-Change in Generator Efficiency
  3. Part 3 - Making Oxy-Fuel Combustion an Advantage