NOC:Fundamentals Of Combustion-I


Lecture 1 - Introduction to fundamentals of combustion


Lecture 2 - Scope and applications of combustion


Lecture 3 - Scope of combustion (Continued...) and types of fuel and oxidizers


Lecture 4 - Characterization of liquid and gaseous fuel


Lecture 5 - Properties of liquid and solid fuels, various modes of combustion


Lecture 6 - Thermodynamics of combustion


Lecture 7 - Thermodynamics of combustion (Continued...)


Lecture 8 - Laws of thermodynamics and Stoichiometry


Lecture 9 - Stoichiometric calculations for air-gas mixture


Lecture 10 - Mixture fraction calculation for diffusion flames


Lecture 11 - Thermochemistry


Lecture 12 - Heat of reaction and bond energy


Lecture 13 - Adiabatic flame temperature


Lecture 14 - Adiabatic flame temperature and its effect on various parameters


Lecture 15 - Introduction to chemical equilibrium


Lecture 16 - Chemical equilibrium and Gibbs free energy


Lecture 17 - Equilibrium constants and Le chatlier principle


Lecture 18 - Determination of chemical equilibrium composition


Lecture 19 - Chemical and reaction kinetics


Lecture 20 - Compact notation and reaction rate of chemical reaction


Lecture 21 - Collision Theory


Lecture 22 - Collision theory (Continued...)


Lecture 23 - Collision frequency of molecules


Lecture 24 - Specific reaction rate and Arrhenius law


Lecture 25 - First order, Second order and Third-order reactions


Lecture 26 - Classification of chemical reactions


Lecture 27 - Elementary chain reactions


Lecture 28 - Quasi-steady state and partial equilibrium approximation


Lecture 29 - Physics of combustion


Lecture 30 - Transport equations and molecular model for transport process


Lecture 31 - Mean free path length


Lecture 32 - Lennard-Jones potential model for diffusivity


Lecture 33 - Lennard-Jones potential model (Continued...)


Lecture 34 - Mass conservation law


Lecture 35 - Momentum conservation equation


Lecture 36 - Introduction to mass transfer


Lecture 37 - Species transport equation


Lecture 38 - Energy conservation equation


Lecture 39 - Conserved scalar approach for one dimensional flows


Lecture 40 - Introduction to turbulent combustion