Lecture 1 - Introduction
Lecture 2 - Combustion processes in ICE and Gas turbine engines
Lecture 3 - Combustion in solid and liquid rocket motors
Lecture 4 - Equilibrium
Lecture 5 - Chemical kinetics, Equilibrium vs rate controlled
Lecture 6 - Demonstration of NASA-CEA
Lecture 7 - Premixed and diffusion flames: principal features and differences - Part I
Lecture 8 - Premixed and diffusion flames: principal features and differences - Part II
Lecture 9 - Quenching, flammability and other limit phenomena
Lecture 10 - Conservation equations
Lecture 11 - Integral Analysis of flame
Lecture 12 - Solid propellant combustion
Lecture 13 - Erosive burning
Lecture 14 - Instability in solid rockets
Lecture 15 - Analysis of p-t traces - Part II
Lecture 16 - Statistical representation of composite propellants in HeQu1D - geometry and thermochemistry
Lecture 17 - HeQu1D model - Parameter estimation
Lecture 18 - Effects of Al - extended HeQu1D model
Lecture 19 - Instability in solid rockets - II
Lecture 20 - Tutorial
Lecture 21 - Liquid propellant rockets - Part I
Lecture 22 - Liquid propellant rockets - Part II
Lecture 23 - Combustion in liquid rockets
Lecture 24 - Instabilities in liquid rockets and gas turbine after burners
Lecture 25 - CFD modeling aspects - Fundamentals
Lecture 26 - CFD modeling aspects - Modeling appraches
Lecture 27 - Effect of turbulence on flames
Lecture 28 - Scramjets - Part I
Lecture 29 - Scramjets - Part II
Lecture 30 - Summary - Premixed flames
Lecture 31 - Summary - Non-premixed flames
Lecture 32 - Summary - Solid rocket propulsion
Lecture 33 - Additional Insights