NPTEL : NOC:Advanced Thermodynamics and Combustion (Mechanical Engineering)

Co-ordinators : Prof. Niranjan Sahoo


Lecture 1 - Temperature and Zeroth Law of Thermodynamics

Lecture 2 - Work and Heat Transfer - First Law of Thermodynamics

Lecture 3 - Heat Engines and Refrigerators/Heat Pump - Second Law of Thermodynamics

Lecture 4 - Entropy Analysis - Part I

Lecture 5 - Entropy Analysis - Part II

Lecture 6 - Entropy Analysis - Part III

Lecture 7 - Exergy Analysis - Part I

Lecture 8 - Exergy Analysis - Part II

Lecture 9 - Exergy Analysis - Part III

Lecture 10 - Thermodynamic Functions and Maxwell's Equations

Lecture 11 - Property Relations for Phase Change Processes

Lecture 12 - Property Relations for Single Phase Systems

Lecture 13 - Heat Capacity Equations and its Applications

Lecture 14 - Joule - Thomson Coefficient and Liquefaction of Gases

Lecture 15 - Ideal Gas and Real Gas

Lecture 16 - Gas Mixtures and Multi-Component System

Lecture 17 - Ideal Gas Mixture

Lecture 18 - Mixing Analysis of Thermodynamic Systems

Lecture 19 - Thermodynamic Considerations of Combustion

Lecture 20 - Conservation of Energy for Reacting Systems

Lecture 21 - Adiabatic Flame Temperature, Entropy and Gibbs Function for Reacting System

Lecture 22 - Equilibrium Products of Combustion and Effective Energy Utilization

Lecture 23 - Fundamentals of Chemical Reactions

Lecture 24 - Reaction Mechanisms - Part I

Lecture 25 - Reaction Mechanisms - Part II

Lecture 26 - Chemical and Thermal Analysis of Reacting Systems

Lecture 27 - Simplified Conservation Equations for Reacting Flows

Lecture 28 - Laminar Premixed Flame - Part I

Lecture 29 - Laminar Premixed Flame - Part II

Lecture 30 - Laminar Diffusion Flame

Lecture 31 - Droplet Evaporation and Turbulent Flame

Lecture 32 - Engine Combustion and Pollution