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Lecture 1: Definitions of System, Property, State, and Weight Process; First Law and Energy
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Classroom Contents
Advanced Thermodynamics - Spring 2024
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- 1 Lecture 1: Definitions of System, Property, State, and Weight Process; First Law and Energy
- 2 Lecture 2: Second Law and Entropy; Adiabatic Availability; Maximum Entropy Principle
- 3 Lecture 3: Energy vs Entropy Diagrams to Represent Equilibrium and Nonequilibrium States
- 4 Lecture 4: Temperature, Pressure, Chemical Potentials; the Clausius Statement of the Second Law
- 5 Lecture 5: Definition of Heat Interaction; First and Second Law Efficiencies
- 6 Lecture 6: Free Energies, Available Energies, and Stability Conditions
- 7 Lecture 7: Availability Functions and the LeChatelier-Braun Principle
- 8 Lecture 8: Few versus Many Particles: The Euler Relation; Review of Various Forms of Exergy (Part I)
- 9 Lecture 9: Minimum Work of Partitioning Small Systems; The Gibbs Phase Rule; The Van der Waals Model
- 10 Lecture 10: Review of Various Forms of Exergy (Part II); Allocation of Consumptions in Cogeneration
- 11 Lecture 11: Allocation in Hybrid Power Production; Chemical Potentials and Partial Pressures
- 12 Lecture 12: Ideal Mixture Behavior; Work from Reversible Mixing; Entropy of Irreversible Mixing
- 13 Lecture 13: The Gibbs Paradox; Shannon Information Entropy; Single Quantum Particle in a Box
- 14 Lecture 14: Ideal Solution Model; Osmotic Pressure; Blue Energy; Minimum Work of Separation
- 15 Lecture 15: Stratification in Gas and Liquid Mixtures; Liquid-Vapor Spinodal Decomposition
- 16 Lecture 16: Liquid-Vapor Equilibria in Mixtures; Ideal and Excess Chemical Potentials
- 17 Lecture 17: Liquid-Liquid Spinodal Decomposition; Introduction to Systems with Chemical Reactions
- 18 Lecture 18: Properties of Reaction; Heating Values and Exergy of Fuels; Adiabatic Flame Temperature
- 19 Lecture 19: Affinity and Nonequilibrium Law of Mass Action; Potential Energy Surface
- 20 Lecture 20: Chemical Kinetics; The Arrhenius Law; Degree of Disequilibrium; Principle of...
- 21 Lecture 21: Introduction to Nonequilibrium Theory; Onsager Reciprocity and Maximum Entropy...
- 22 Lecture 22: Definition of “Heat&Diffusion” Interaction; Diffusive and Convective Fluxes
- 23 Lecture 23: Direct and Cross Effects; General Principles of Entropy Production; The Fourth Law
- 24 Lecture 24: Relative Diffusion Fluxes; Thermoelectric Effects
- 25 Lecture 25: Thermodiffusive Effects; Multicomponent Transport
