09.06 - Fugacity Criteria for Phase Equilibria
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- Chapter 1 - Basic concepts
- Chapter 2 - The energy balance
- Chapter 3 - Energy balances for composite systems.
- Chapter 4 - Entropy
- Chapter 5 - Thermodynamics of Processes
- Chapter 6 - Classical Thermodynamics - Generalization to any Fluid
- Chapter 7 - Engineering Equations of State for PVT Properties
- Chapter 8 - Departure functions
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Chapter 9 - Phase Equlibrium in a Pure Fluid
- 09.01 - Criteria for Phase Equilibrium
- 09.02 - The Clausius-Clapeyron Equation
- 09.03 - Shortcut Estimation of Saturation Properties
- 09.04 - Changes in Gibbs Energy with Pressure
- 09.05 - Fugacity and Fugacity Coefficient
- 09.06 - Fugacity Criteria for Phase Equilibria
- 09.07 - Calculation of Fugacity (Gases)
- 09.08 - Calculation of Fugacity (Liquids)
- 09.09 - Calculation of Fugacity (Solids)
- 09.10 - Saturation Conditions from an Equation of State
- 09.11 - Stable Roots and Saturation Conditions
- Chapter 10 - Introduction to Multicomponent Systems
- Chapter 11 - An Introduction to Activity Models
- Chapter 12 - Van der Waals Activity Models
- Chapter 13 - Local Composition Activity Models
- Chapter 14 - Liquid-liquid and solid-liquid equilibria
- Chapter 16 - Advanced Phase Diagrams
- Chapter 15 - Phase Equilibria in Mixtures by an Equation of State
- Chapter 17 - Reaction Equilibria
- Chapter 18 - Electrolyte Solutions
Adding Liquid to an Evacuated Tank
When liquid is added to an evacuated tank of fixed volume, equilibrium is established between the vapor and liquid. (3min,learncheme.com) The fugacity criterion characterizes this equilibrium as occurring when the escaping tendency from each phase is equal.