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    Thermodynamic models for industrial applications : from classical and advanced mixing rules to association theories / Georgios M. Kontogeorgis, Georgios K. Folas.

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    • Title:Thermodynamic models for industrial applications : from classical and advanced mixing rules to association theories / Georgios M. Kontogeorgis, Georgios K. Folas.
    •    
    • Author/Creator:Kontogeorgis, Georgios M.
    • Other Contributors/Collections:Folas, Georgios K.
    • Published/Created:Chichester, U.K. : Wiley, 2010.

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    • Library of Congress Subjects:Thermodynamics--Industrial applications.
      Chemical engineering.
    • Description:xxxi, 692 p. : ill ; 26 cm.
    • Notes:Includes bibliographical references and index.
    • ISBN:9780470697269 (cloth)
      0470697261 (cloth)
    • Contents:Pt. A. Introduction
      1. Thermodynamics for process and product design
      2. Intermolecular forces and thermodynamic models
      Pt. B. Classical Models
      3. Cubic equations of state: the classical mixing rules
      4. Activity coefficient models Part 1: random-mixing models
      5. Activity coefficient models Part 2: local composition models, from Wilson and NRTL to UNIQUAC and UNIFAC
      6. EoS/G[superscript E] mixing rules for cubic equations of state
      Pt. C. Advanced Models and Their Applications
      7. Association theories and models: the role of spectroscopy
      8. Statistical Associating Fluid Theory (SAFT)
      9. Cubic-Plus-Association equation of state
      10. Applications of CPA to the oil and gas industry
      11. Applications of CPA to chemical industries
      12. Extension of CPA and SAFT to new systems: worked examples and guidelines
      13. Applications of SAFT to polar and associating mixtures
      14. Application of SAFT to polymers
      Pt. D. Thermodynamics and Other Disciplines
      15. Models for electrolyte systems
      16. Quantum chemistry in engineering thermodynamics
      17. Environmental thermodynamics
      18. Thermodynamics and colloid and surface chemistry
      19. Thermodynamics for biotechnology
      20. Epilogue: thermodynamic challenges in the twenty-first century.
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