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Combustion

Combustion. Instructor: Prof. S. R. Chakravarthy, Department of Aerospace Engineering, IIT Madras. This course deals with topics in combustion, the process of burning: Review of thermodynamics, Chemical kinetics, Mass transfer definitions - Fick's law, Conservation equations, Schvab-Zeldovich formulation, Rankine-Hugoniot relations, Laminar premixed flames, Laminar diffusion flames, Partially premixed flames, Introduction to turbulent flames, Solid propellant combustion, Spray combustion, and Combustion instabilities. (from nptel.ac.in)

Lecture 09 - Steady State Approximation, Partial Equilibrium Approximation


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Thermodynamics
Lecture 01 - Introduction
Lecture 02 - Chemical Reactions, Heat of Reactions and Formation
Lecture 03 - Sensible Enthalpy and Adiabatic Flame Temperature
Lecture 04 - Dissociation of Products, Role of Pressure
Lecture 05 - Numerical Calculation of AFT, Chemical Kinetics
Chemical Kinetics
Lecture 06 - Chemical Kinetics
Lecture 07 - Equilibrium Reactions, Global Kinetic, Order of Reaction
Lecture 08 - Reduced Chemistry, Steady State Approximation
Lecture 09 - Steady State Approximation, Partial Equilibrium Approximation
Lecture 10 - Partial Equilibrium Approximation, Chemical Explosions
Lecture 11 - Combining Chemical and Thermal Processes 1
Lecture 12 - Combining Chemical and Thermal Processes 2
Lecture 13 - Combining Chemical and Thermal Processes 3
Lecture 14 - Combining Chemical and Thermal Processes 4
Mass Transfer Definitions
Lecture 15 - Mass and Molar Diffusion, Fick's Law
Conservation Equations
Lecture 16 - Conservation Equations for Multi-Component Mixtures
Lecture 17 - Multi-Component Diffusion Equation
Lecture 18 - Multi-Component Momentum Equation
Lecture 19 - Energy Equation
Lecture 20 - One Dimensional Steady Flow
Schvab-Zeldovich Formulation
Lecture 21 - Schvab-Zeldovich Formulation
Lecture 22 - Schvab-Zeldovich Formulation (cont.)
Rankine-Hugoniot Relations
Lecture 23 - Rankine-Hugoniot Relations 1
Lecture 24 - Rankine-Hugoniot Relations 2
Lecture 25 - Rankine-Hugoniot Relations 3
Lecture 26 - Velocity, Temperature and Entropy Variation along Hugoniot Curve
Laminar Premixed Flames
Lecture 27 - Laminar Premixed Flames
Lecture 28 - Laminar Premixed Flames: Corrections
Lecture 29 - Laminar Premixed Flames: Rigorous Analysis
Lecture 30 - Laminar Premixed Flames: Rigorous Analysis (cont.)
Lecture 31 - Flame Speed Dependencies, G-Equation
Lecture 32 - Bunsen Burner
Lecture 33 - Bunsen Burner (cont.)
Lecture 34 - Flame Stabilisation
Lecture 35 - Flame Stabilisation (cont.)
Lecture 36 - Ignition
Diffusion Flames
Lecture 37 - Burke-Schumann Problem 1
Lecture 38 - Burke-Schumann Problem 2
Lecture 39 - Burke-Schumann Problem 3
Flame Structure and Mixture Fraction Formulation
Lecture 40 - Flame Structure
Lecture 41 - Mixture Fraction Formulation
Lecture 42 - Mixture Fraction Formulation (cont.)
Droplet Burning and Spray Combustion
Lecture 43 - Droplet Burning
Lecture 44 - Droplet Burning (cont.)
Lecture 45 - Spray Combustion
Lecture 46 - Spray Combustion (cont.)
Turbulent Flames
Lecture 47 - Turbulent Combustion
Lecture 48 - Turbulent Combustion (cont.)
Combustion Instabilities
Lecture 49 - Combustion Instabilities
Detonations
Lecture 50 - Detonations
Lecture 51 - Detonation Wave - ZND Structure