Classical and Molecular Thermodynamics of Fluid Systems

Classical and Molecular Thermodynamics of Fluid Systems

Principles and Applications

Wilczek-Vera, Grazyna; Olivera-Fuentes, Claudio; Panayiotou, Costas; Vera, Juan H.

Taylor & Francis Ltd

11/2024

541

Dura

9781032557342

Pré-lançamento - envio 15 a 20 dias após a sua edição

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Section I: Fundamentals. 1. Basic Concepts and Definitions. 2. The First and Second Laws of Thermodynamics. 3. Conservation of Energy in an Open Flow System: Definition of Enthalpy. 4. The Algebra of State Functions: The Helmholtz and Gibbs Functions. 5. Calculation of Changes in the Value of Thermodynamic Properties. Section II: Mixtures. 6. Partial Molar Properties and Property Changes by Mixing. 7. The Chemical Potential and the Gibbs-Helmholtz Equation. 8. The Principles of Physical and Chemical Equilibrium. 9. The Phase Rule and Duhem's Theorem. 10. Generality of the Thermodynamic Treatment for More Complex Systems. 11. Ideal Gas and Ideal Gas Mixtures. 12. Equilibrium in Terms of Fugacity and Activity. 13. Calculation of Fugacities from Equations of State. 14. Fugacity of a Mixture and of Its Components. 15. Fugacities, Activities, and Activity Coefficients in Liquid Mixtures of Nonelectrolytes. 16. Activity Coefficients and Excess Properties. 17. Mixture Behavior, Stability, and Azeotropy. 18. The Thermodynamics of Aqueous Electrolyte Solutions. 19. The Thermodynamics of Polymer Solutions. Section III: Applications. 20. Applications of Polymer Solution Thermodynamics. 21. The Thermodynamics of Chemical Reactions. 22. The Thermodynamics of Equilibrium-Based Separation Processes. 23. Heat Effects. 24. Adsorption of Gases on Solids. Section IV: Special Topics. 25. Thermodynamics of Flow of Compressible Fluids. 26. Elements of Statistical Thermodynamics. 27. Statistical Thermodynamics Basis of Equations of State. 28. Statistical Thermodynamics Justification of Some Commonly Used Expressions for the Excess Gibbs Energy. 29. Statistical Thermodynamics Approach to the Generalized van der Waals Theory: Toward Understanding of the Molecular Behavior of Fluids. 30. Generalized Lattice-Fluid Model. 31. COSMO-RS-Type Models. 32. Thermodynamics of Hydrogen Bonding. 33. The Family of SAFT Equation-of-State Models. 34. The Activity of Individual Ions-Past, Present and Future: In Memory of Dr. Dan Fraenkel, April 1, 1946-March 8, 2023. Section V: Appendices. Section VI: Solutions to End-of-Chapter Problems.
chemical thermodynamics;fluid thermodynamics;practical thermodynamics;chemical engineering thermodynamics;classical thermodynamics;chemical equilibrium;phase equilibrium;adsorption;ions;electrolyte solutions;group methods;equation of state;entropy;enthalpy;thermodynamics;thermodynamics of fluid systems;Grazyna Wilczek-Vera