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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics. Instructor: Prof. M. S. Ananth, Department of Chemical Engineering, IIT Madras. This course is primarily concerned with the application of thermodynamics to phase equilibria and reaction equilibria in multi-component systems and to the calculation of extrema in the work involved in separation processes. Of secondary importance in this context is its application to heat-work interconversion devices, which are studied in detail by mechanical engineers. Phase and reaction equilibria involving two or more solid phases are of primary interest to metallurgists. (from nptel.ac.in)

Lecture 26 - Illustrative Examples of Reaction Equilibria


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Lecture 01 - Thermodynamics and the Chemical Industry
Lecture 02 - James Prescott Joule and the First Law
Lecture 03 - Sadi Carnot and the Second Law
Lecture 04 - Equilibrium and Extrema in Work
Lecture 05 - Illustrative Calculations I
Lecture 06 - Properties of Pure Substances
Lecture 07 - The P-H Chart
Lecture 08 - Work Calculation
Lecture 09 - Illustrative Calculations II
Lecture 10 - Heat-Work Interconversion Devices
Lecture 11 - Refrigeration/Thermodynamics of Mixtures
Lecture 12 - The Gibbs Duhem Equation
Lecture 13 - Models for the Excess Gibbs Free Energy
Lecture 14 - Van Laar Model
Lecture 15 - Gaseous and Liquid Mixtures
Lecture 16 - Separation Work/ Equations of State
Lecture 17 - Chemical Potentials in Gas and Condensed Phases
Lecture 18 - Vapour Liquid Equilibria
Lecture 19 - Vapour Liquid Equilibria (cont.)
Lecture 20 - Solvent-Solvent Mixtures
Lecture 21 - Solvent-Solute Mixtures
Lecture 22 - Liquid-Liquid Equilibria
Lecture 23 - An Industrial Example: Azade Reaction - Biopesticide
Lecture 24 - Liquid-Liquid Equilibria, Reaction Equilibria
Lecture 25 - Reaction Equilibria
Lecture 26 - Illustrative Examples of Reaction Equilibria
Lecture 27 - Illustrative Examples of Reaction Equilibria (cont.)
Lecture 28 - Illustrative Examples of Reaction Equilibria (cont.)
Lecture 29 - Simultaneous Relations
Lecture 30 - Thermodynamics Consistency, Reverse Osmosis
Lecture 31 - Miscellaneous Topics in Phase Equilibria
Lecture 32 - Absorption Refrigeration
Lecture 33 - Summary of Classical Thermodynamics
Lecture 34 - Molecular Basis of Thermodynamics
Lecture 35 - Molecular Basis of Thermodynamics (cont.)