1. | Chapter 1. INTRODUCTION | Measures of amount or size, pressure, work, energy, heat | ||
2. | Chapter 2. THE FIRST LAW AND OTHER BASIC CONCEPTS | Internal energy The first law of thermodynamics Energy balance for closed systems Thermodynamics state and state functions, equlibrium, the phuse rule | ||
3. | Chapter 2. THE FIRST LAW AND OTHER BASIC CONCEPTS | constant-V and constant-P processes, enthalpy, heat capacity, mass and energy balances for open systems | ||
4. | Chapter 3. VOLUMETRIC PROPERTIES OF PURE FLUIDS | P, V, T diagram Virial equation of state Ideal Gas | ||
5. | Chapter 3. VOLUMETRIC PROPERTIES OF PURE FLUIDS | Application of the virial equations, Cubic equations of state, Generalized correlations for gases | ||
6. | Chapter 4. HEAT EFFECTS | Sensible heat effect Latent heats of pure substances | ||
7. | Chapter 4. HEAT EFFECTS | Standard heat of reaction Standard heat of formation Temperature dependence of ΔH | ||
9. | Chapter 10. VAPOR/LIQUID EQUILBRIUM: INTRODUCTION | VLE. Qualitative behavior | ||
10. | Chapter 10. VAPOR/LIQUID EQUILBRIUM: INTRODUCTION | Simple models for Vapor/Liquid Equilibrium: Raoult's law, Henry's law VLE by modified Raoult's law | ||
11. | Chapter 10. VAPOR/LIQUID EQUILBRIUM: INTRODUCTION Chapter 11. SOLUTION THERMODYNAMICS: THEORY | VLE from k-value correlations. Fundamental property relation |
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12. | Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Partial properties | ||
13. | Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Ideal gas micture model | ||
14. | Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Fugacity and fugacity coefficient: Pure species | ||
15. | Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Fugacity and fugacity coefficient: Species in solution | ||
Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Generalized correlations for the fogacity coefficient Ideal solution | |||
Chapter 11. SOLUTION THERMODYNAMICS: THEORY | Excess properties | |||
Chapter 12. SOLUTION THERMODYNAMICS: APPLICATIONS | Liquid phase proporties from VLE data Henry's law와 L/R rule의 관계 | |||
Chapter 12. SOLUTION THERMODYNAMICS: APPLICATIONS | Ecess Gibbs energy | |||
Chapter 12. SOLUTION THERMODYNAMICS: APPLICATIONS | Models for the exess Gibbs energy Property changes of mixing |