Description: Combustion
Curriculum
- 1 Section
- 36 Lessons
- 10 Weeks
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- Combustion36
- 2.1Thermodynamics-Lecture 1 : Introduction
- 2.2Thermodynamics-Lecture 2 : Chemical Reactions, Heats of Reaction and Formation
- 2.3Thermodynamics-Lecture 3 : Sensible Enthalpy and Adiabatic Flame Temperature
- 2.4Thermodynamics-Lecture 4 : Dissociation of Products, Role of Pressure
- 2.5Thermodynamics-Lecture 5 : Numerical Calculation of Adiabatic Flame Temperature, Chemical Kinetics 1
- 2.6Chemical Kinetics-Lecture 6 : Chemical Kinetics 2
- 2.7Chemical Kinetics-Lecture 7 : Equilibrium Reactions, Global Kinetics, Order of Reaction
- 2.8Chemical Kinetics-Lecture 8 : Reduced Chemistry, Steady State Approximation
- 2.9Chemical Kinetics-Lecture 9 : Steady State Approximation, Partial Equilibrium Approximation
- 2.10Chemical Kinetics-Lecture 10: Partial Equilibrium Approximation, Chemical Explosions
- 2.11Chemical Kinetics-Lecture 11: Combining Chemical and Thermal Processes 1
- 2.12Chemical Kinetics-Lecture 12: Combining Chemical and Thermal Processes 2
- 2.13Chemical Kinetics-Lecture 13: Combining Chemical and Thermal Processes 3
- 2.14Chemical Kinetics-Lecture 14: Combining Chemical and Thermal Processes 4
- 2.15Mass Transfer Definitions-Lecture 15: Mass and Molar Diffusion, Fick’s Law
- 2.16Conservation Equations-Lecture 16: Conservation Equations for Multi-Component Mixtures
- 2.17Conservation Equations-Lecture 17: Multi-Component Diffusion Equation
- 2.18Conservation Equations-Lecture 18: Multi-Component Momentum Equation
- 2.19Conservation Equations-Lecture 19: Energy Equation
- 2.20Conservation Equations-Lecture 20: One Dimensional Steady Flow
- 2.21Schvab-Zeldovich Formulation-Lecture 21: Schvab-Zeldovich Formulation 1
- 2.22Schvab-Zeldovich Formulation-Lecture 22: Schvab-Zeldovich Formulation 2
- 2.23Schvab-Zeldovich Formulation-Lecture 23: Rankine-Hugoniot Relations 1
- 2.24Rankine-Hugoniot Relations-Lecture 24: Rankine-Hugoniot Relations 2
- 2.25Rankine-Hugoniot Relations-Lecture 25: Rankine-Hugoniot Relations 3
- 2.26Rankine-Hugoniot Relations-Lecture 26: Velocity, Temperature and Entropy Variation along Hugoniot Curve
- 2.27Laminar Premixed Flames-Lecture 27: Laminar Premixed Flames
- 2.28Laminar Premixed Flames-Lecture 28: Laminar Premixed Flames – Corrections
- 2.29Laminar Premixed Flames-Lecture 29: Laminar Premixed Flames – Rigorous Analysis 1
- 2.30Laminar Premixed Flames-Lecture 30: Laminar Premixed Flames – Rigorous Analysis 2
- 2.31Laminar Premixed Flames-Lecture 31: Flame Speed Dependencies, G-Equation
- 2.32Laminar Premixed Flames-Lecture 32: Bunsen Burner 1
- 2.33Laminar Premixed Flames-Lecture 33: Bunsen Burner 2
- 2.34Laminar Premixed Flames-Lecture 34: Flame Stabilisation 1
- 2.35Laminar Premixed Flames-Lecture 35: Flame Stabilisation 2
- 2.36Laminar Premixed Flames-Lecture 36: Ignition
