Unit I: First and Second Laws
Chapter 1: Basic Concepts
Chapter 2: The Energy Balance
Chapter 3: Energy Balances for Composite Systems
Chapter 4: Entropy 1
Chapter 5: Thermodynamics Of Processes
Unit II: Generalized Analysis of Fluid Properties
Chapter 6: Classical Thermodynamics – Generalizations For Any Fluid
Chapter 7: Engineering Equations of State for PVT Properties
Chapter 8: Departure Functions
Chapter 9: Phase Equilibrium in a Pure Fluid
Unit III: Fluid Phase Equilibria in Mixtures
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 Phase Equilibria
Chapter 15: Phase Equilibria in Mixtures by an Equation of State
Chapter 16: Advanced Phase Diagrams
Unit IV: Reaction Equilibria
Chapter 17: Reaction Equilibria
Chapter 18: Electrolyte Solutions
Chapter 19: Molecular Association and Solvation
Appendix A: Summary of Computer Programs
Appendix B: Mathematics
Appendix C: Strategies for Solving VLE Problems
Appendix D: Models for Process Simulators
Appendix E: Themodynamic Properties
Index