NOC:Chemical Engineering Thermodynamics


Lecture 1 - Introduction


Lecture 2 - First law for closed systems


Lecture 3 - First law for open systems


Lecture 4 - Simple processes


Lecture 5 - Processes involving liquids and ideal gases


Lecture 6 - Temperature dependency of Cp in an ideal gas


Lecture 7 - Efficiency of Heat engines and Statement of Second Law


Lecture 8 - Entropy


Lecture 9 - Lost Work


Lecture 10 - Maxwell's Relations


Lecture 11 - Thermodynamic Diagrams


Lecture 12 - Thermodynamic Tables, Residual Properties


Lecture 13 - Virial Equation of State


Lecture 14 - Residual property relations from EoS


Lecture 15 - Cubic Equation of State


Lecture 16 - Cubic Equation of State


Lecture 17 - Thermodynamic Tables


Lecture 18 - Correlations for Liquids


Lecture 19 - Process Involving Phase Changes


Lecture 20 - Chemical potential


Lecture 21 - Partial molar properties


Lecture 22 - Examples


Lecture 23 - Ideal Solutions


Lecture 24 - Excess Properties


Lecture 25 - Fugacity


Lecture 26 - Calculation of Fugacity using EoS - Part 1


Lecture 27 - Calculation of Fugacity using EoS - Part 2


Lecture 28 - Calculation of Fugacity in Mixtures using Cubic EoS


Lecture 29 - Fugacity in Liquids, Activity Coeffcient


Lecture 30 - Models for Excess Gibbs free energy - Part 1


Lecture 31 - Models for Excess Gibbs free energy - Part 2


Lecture 32 - Vapor Liquid Equilibrium - Part 1


Lecture 33 - Vapor Liquid Equilibrium - Part 2


Lecture 34 - Azeotropes


Lecture 35 - Gamma/Phi Formulation


Lecture 36 - LLE


Lecture 37 - VLLE


Lecture 38 - Enthalpy changes upon reaction


Lecture 39 - Reaction coordinate


Lecture 40 - Equilibrium constant


Lecture 41 - Examples


Lecture 42 - Conclusion