Juan H Vera, Grazyna Wilczek-Vera
Classical Thermodynamics of Fluid Systems
Principles and Applications
Juan H Vera, Grazyna Wilczek-Vera
Classical Thermodynamics of Fluid Systems
Principles and Applications
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The aim of this book is to provide an in-depth view of the subject with all its mathematical complexity while keeping the focus practical. The book covers the subject in an innovative way, from the first principles of thermodynamics to applied topics of interest for practicing engineers and researchers.
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The aim of this book is to provide an in-depth view of the subject with all its mathematical complexity while keeping the focus practical. The book covers the subject in an innovative way, from the first principles of thermodynamics to applied topics of interest for practicing engineers and researchers.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 438
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 626g
- ISBN-13: 9780367782580
- ISBN-10: 0367782588
- Artikelnr.: 61211243
- Verlag: CRC Press
- Seitenzahl: 438
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 626g
- ISBN-13: 9780367782580
- ISBN-10: 0367782588
- Artikelnr.: 61211243
Juan H. Vera is Professor Emeritus, Department of Chemical Engineering, McGill University, Montreal, Canada. He received his Dr. Ing. (Ing. Quim.) from Universidad F. Santa Maria, Chile; M.Sc. (Chem. Eng.), University of California, Berkeley; Ing. Quim., U. Tecnica del Estado, Chile; and Lic. Quim. Ind., U. Tecnica del Estado, Chile. At McGill University, he served as Associate Dean (Research), Faculty of Engineering (2000-2004); Acting Dean, Faculty of Engineering (October-November 2003); President McGill Association of University Teachers, MAUT (1997-1998); Member of the Board of ResMIQ (2002-2004); Member of the Advisory Committee of Plasma Quebec (2002-2004); Engineering Faculty Representative to Plasturgie Quebec (2003); Engineering Faculty Representative to CRIAQ (2001-2004); and Associate Dean, Faculty of Graduate Studies and Research (1985-1988). He is coauthor of two textbooks, a manual on Copper Metallurgy (in Spanish) and over 190 refereed publications in international journals. He has an International Patent on Extraction of Proteins and a Canadian Patent on Extraction of Heavy Metals. Grazyna Wilczek-Vera was Faculty Lecturer and Director of Undergraduate Studies in the Department of Chemistry and Research associate in the Department of Chemical Engineering at McGill University, Montreal, Canada, and Adjunct at the Department of Chemistry, University of Warsaw, Poland. She received the Principal's Prize for Excellence in Teaching, 2008, at McGill University. She has authored 58 refereed publications, given 38 conference presentations, and coauthored two texts: Experimental Physical Chemistry for Biology Students, University of Warsaw, 1987 and Experimental Physical Chemistry for Chemistry Students, University of Warsaw, 1985. She also translated into Polish: R. A. Y. Jones, Physical and Mechanistic Organic Chemistry, Cambridge University Press, 1984. She received her Doctorate in Chemical Sciences (with Distinction), University of Warsaw and Master of Science in Chemistry (with Distinction), University of Warsaw, Poland.
Part I: Fundamentals. Basic Concepts and Definitions. The First and Second
Laws of Thermodynamics. The Concept of Entropy. Conservation of Energy in
an Open Flow System. Definition of Enthalpy. The Algebra of State
Functions. The Helmholtz and Gibbs Functions. Calculation of Changes in the
Value of Thermodynamic Properties. Part II: Mixtures. Partial Molar
Properties and Property Changes by Mixing. The Chemical Potential and the
Gibbs-Helmholtz Equation. The Principles of Physical and Chemical
Equilibrium. The Phase Rule and Duhem Theorem. Generality of the
Thermodynamic Treatment. The Ideal Gas and Ideal Gas Mixtures. The Use of
Fugacity and Activity in Equilibrium Studies. Calculation of Fugacities
from Equations of State (EOS). Fugacity of a Mixture and of Its Components.
Fugacities and Activities in Liquid Mixtures of Non Electrolytes. Activity
Coefficients and Excess Properties. Mixture Behavior, Stability and
Azeotropy. The Thermodynamics of Aqueous Electrolyte Solutions. Part III:
Applications. The Thermodynamics of Chemical Reactions. The Thermodynamics
of Equilibrium Based Separation Processes. Heat Effects in Pure Compounds
and Mixtures. Adsorption of Gases in Solids. Part IV: Selected Topics. The
Thermodynamics of Flow of Compressible Fluids. Elements of Statistical
Thermodynamics. Statistical Thermodynamics Basis of Equations of State.
Statistical Thermodynamics Basis of Excess Gibbs Functions. The Activity
Coefficients of Individual Ions. Measurements and Modeling. Part V:
Appendices. Appendix A. Material Balances in Open Flow Systems. Appendix B.
Working with the Virial EOS. Appendix C. Working with the PRSV EOS.
Appendix D. Working with ASOG-KT.
Laws of Thermodynamics. The Concept of Entropy. Conservation of Energy in
an Open Flow System. Definition of Enthalpy. The Algebra of State
Functions. The Helmholtz and Gibbs Functions. Calculation of Changes in the
Value of Thermodynamic Properties. Part II: Mixtures. Partial Molar
Properties and Property Changes by Mixing. The Chemical Potential and the
Gibbs-Helmholtz Equation. The Principles of Physical and Chemical
Equilibrium. The Phase Rule and Duhem Theorem. Generality of the
Thermodynamic Treatment. The Ideal Gas and Ideal Gas Mixtures. The Use of
Fugacity and Activity in Equilibrium Studies. Calculation of Fugacities
from Equations of State (EOS). Fugacity of a Mixture and of Its Components.
Fugacities and Activities in Liquid Mixtures of Non Electrolytes. Activity
Coefficients and Excess Properties. Mixture Behavior, Stability and
Azeotropy. The Thermodynamics of Aqueous Electrolyte Solutions. Part III:
Applications. The Thermodynamics of Chemical Reactions. The Thermodynamics
of Equilibrium Based Separation Processes. Heat Effects in Pure Compounds
and Mixtures. Adsorption of Gases in Solids. Part IV: Selected Topics. The
Thermodynamics of Flow of Compressible Fluids. Elements of Statistical
Thermodynamics. Statistical Thermodynamics Basis of Equations of State.
Statistical Thermodynamics Basis of Excess Gibbs Functions. The Activity
Coefficients of Individual Ions. Measurements and Modeling. Part V:
Appendices. Appendix A. Material Balances in Open Flow Systems. Appendix B.
Working with the Virial EOS. Appendix C. Working with the PRSV EOS.
Appendix D. Working with ASOG-KT.
Part I: Fundamentals. Basic Concepts and Definitions. The First and Second
Laws of Thermodynamics. The Concept of Entropy. Conservation of Energy in
an Open Flow System. Definition of Enthalpy. The Algebra of State
Functions. The Helmholtz and Gibbs Functions. Calculation of Changes in the
Value of Thermodynamic Properties. Part II: Mixtures. Partial Molar
Properties and Property Changes by Mixing. The Chemical Potential and the
Gibbs-Helmholtz Equation. The Principles of Physical and Chemical
Equilibrium. The Phase Rule and Duhem Theorem. Generality of the
Thermodynamic Treatment. The Ideal Gas and Ideal Gas Mixtures. The Use of
Fugacity and Activity in Equilibrium Studies. Calculation of Fugacities
from Equations of State (EOS). Fugacity of a Mixture and of Its Components.
Fugacities and Activities in Liquid Mixtures of Non Electrolytes. Activity
Coefficients and Excess Properties. Mixture Behavior, Stability and
Azeotropy. The Thermodynamics of Aqueous Electrolyte Solutions. Part III:
Applications. The Thermodynamics of Chemical Reactions. The Thermodynamics
of Equilibrium Based Separation Processes. Heat Effects in Pure Compounds
and Mixtures. Adsorption of Gases in Solids. Part IV: Selected Topics. The
Thermodynamics of Flow of Compressible Fluids. Elements of Statistical
Thermodynamics. Statistical Thermodynamics Basis of Equations of State.
Statistical Thermodynamics Basis of Excess Gibbs Functions. The Activity
Coefficients of Individual Ions. Measurements and Modeling. Part V:
Appendices. Appendix A. Material Balances in Open Flow Systems. Appendix B.
Working with the Virial EOS. Appendix C. Working with the PRSV EOS.
Appendix D. Working with ASOG-KT.
Laws of Thermodynamics. The Concept of Entropy. Conservation of Energy in
an Open Flow System. Definition of Enthalpy. The Algebra of State
Functions. The Helmholtz and Gibbs Functions. Calculation of Changes in the
Value of Thermodynamic Properties. Part II: Mixtures. Partial Molar
Properties and Property Changes by Mixing. The Chemical Potential and the
Gibbs-Helmholtz Equation. The Principles of Physical and Chemical
Equilibrium. The Phase Rule and Duhem Theorem. Generality of the
Thermodynamic Treatment. The Ideal Gas and Ideal Gas Mixtures. The Use of
Fugacity and Activity in Equilibrium Studies. Calculation of Fugacities
from Equations of State (EOS). Fugacity of a Mixture and of Its Components.
Fugacities and Activities in Liquid Mixtures of Non Electrolytes. Activity
Coefficients and Excess Properties. Mixture Behavior, Stability and
Azeotropy. The Thermodynamics of Aqueous Electrolyte Solutions. Part III:
Applications. The Thermodynamics of Chemical Reactions. The Thermodynamics
of Equilibrium Based Separation Processes. Heat Effects in Pure Compounds
and Mixtures. Adsorption of Gases in Solids. Part IV: Selected Topics. The
Thermodynamics of Flow of Compressible Fluids. Elements of Statistical
Thermodynamics. Statistical Thermodynamics Basis of Equations of State.
Statistical Thermodynamics Basis of Excess Gibbs Functions. The Activity
Coefficients of Individual Ions. Measurements and Modeling. Part V:
Appendices. Appendix A. Material Balances in Open Flow Systems. Appendix B.
Working with the Virial EOS. Appendix C. Working with the PRSV EOS.
Appendix D. Working with ASOG-KT.