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Introductory chemical engineering thermodynamics

Author: J Richard Elliott; Carl T Lira
Publisher: Upper Saddle River, NJ : Prentice Hall, ©2012.
Series: Prentice-Hall international series in the physical and chemical engineering sciences.
Edition/Format:   Print book : English : 2nd edView all editions and formats
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Document Type: Book
All Authors / Contributors: J Richard Elliott; Carl T Lira
ISBN: 9780136068549 0136068545
OCLC Number: 770694178
Notes: Includes index.
Description: xxvii, 876 pages : illustrations ; 26 cm.
Contents: Note continued: 18.19. Mean Ionic Activity Coefficients --
18.20. Extending Activity Calculations to High Concentrations --
18.21. Summary --
18.22. Supplement 1: Interconversion of Concentration Scales --
18.23. Supplement 2: Relation of Apparent Chemical Potential to Species Potentials --
18.24. Supplement 3: Standard States --
18.25. Supplement 4: Conversion of Equilibrium Constants --
18.26. Practice Problems --
18.27. Homework Problems --
ch. 19 Molecular Association And Solvation --
19.1. Introducing the Chemical Contribution --
19.2. Equilibrium Criteria --
19.3. Balance Equations for Binary Systems --
19.4. Ideal Chemical Theory for Binary Systems --
Example 19.1 Compressibility factors in associating/solvating systems --
Example 19.2 Dimerization of carboxylic acids --
Example 19.3 Activity coefficients in a solvated system --
19.5. Chemical-Physical Theory --
19.6. Wertheim's Theory for Complex Mixtures --
Example 19.4 The chemical contribution to the equation of state --
19.7. Mass Balances for Chain Association --
Example 19.5 Molecules of H2O in a 100 ml beaker --
19.8. The Chemical Contribution to the Fugacity Coefficient and Compressibility Factor --
19.9. Wertheim's Theory of Polymerization --
Example 19.6 Complex fugacity for the van der Waals model --
Example 19.7 More complex fugacity for the van der Waals model --
19.10. Statistical Associating Fluid Theory (The SAFT Model) --
Example 19.8 The SAFT model --
19.11. Fitting the Constants for an Associating Equation of State --
19.12. Summary --
19.13. Practice Problems --
19.14. Homework Problems --
APPENDIX A SUMMARY OF COMPUTER PROGRAMS --
A.1. Programs for Pure Component Properties --
A.2. Programs for Mixture Phase Equilibria --
A.3. Reaction Equilibria --
A.4. Notes on Excel Spreadsheets --
A.5. Notes on MATLAB --
A.6. Disclaimer --
APPENDIX B MATHEMATICS --
B.1. Important Relations --
B.2. Solutions to Cubic Equations --
B.3. The Dirac Delta Function --
Example B.1 The hard-sphere equation of state --
Example B.2 The square-well equation of state --
APPENDIX C STRATEGIES FOR SOLVING VLE PROBLEMS --
C.1. Modified Raoult's Law Methods --
C.2. EOS Methods --
C.3. Activity Coefficient (Gamma-Phi) Methods --
APPENDIX D MODELS FOR PROCESS SIMULATORS --
D.1. Overview --
D.2. Equations of State --
D.3. Solution Models --
D.4. Hybrid Models --
D.5. Recommended Decision Tree --
APPENDIX E THEMODYNAMIC PROPERTIES --
E.1. Thermochemical Data --
E.2. Latent Heats --
E.3. Antoine Constants --
E.4. Henry's Constant with Water as Solvent --
E.5. Dielectric Constant for Water --
E.6. Dissociation Constants of Polyprotic Acids --
E.7. Standard Reduction Potentials --
E.8. Biochemical Data --
E.9. Properties of Water --
E.10. Pressure-Enthalpy Diagram for Methane --
E.11. Pressure-Enthalpy Diagram for Propane --
E.12. Pressure-Enthalpy Diagram for R134a (1,1,1,2-Tetraflouroethane).
Series Title: Prentice-Hall international series in the physical and chemical engineering sciences.
Responsibility: J. Richard Elliott, Carl T. Lira.

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schema:description"Note continued: 18.19. Mean Ionic Activity Coefficients -- 18.20. Extending Activity Calculations to High Concentrations -- 18.21. Summary -- 18.22. Supplement 1: Interconversion of Concentration Scales -- 18.23. Supplement 2: Relation of Apparent Chemical Potential to Species Potentials -- 18.24. Supplement 3: Standard States -- 18.25. Supplement 4: Conversion of Equilibrium Constants -- 18.26. Practice Problems -- 18.27. Homework Problems -- ch. 19 Molecular Association And Solvation -- 19.1. Introducing the Chemical Contribution -- 19.2. Equilibrium Criteria -- 19.3. Balance Equations for Binary Systems -- 19.4. Ideal Chemical Theory for Binary Systems -- Example 19.1 Compressibility factors in associating/solvating systems -- Example 19.2 Dimerization of carboxylic acids -- Example 19.3 Activity coefficients in a solvated system -- 19.5. Chemical-Physical Theory -- 19.6. Wertheim's Theory for Complex Mixtures -- Example 19.4 The chemical contribution to the equation of state -- 19.7. Mass Balances for Chain Association -- Example 19.5 Molecules of H2O in a 100 ml beaker -- 19.8. The Chemical Contribution to the Fugacity Coefficient and Compressibility Factor -- 19.9. Wertheim's Theory of Polymerization -- Example 19.6 Complex fugacity for the van der Waals model -- Example 19.7 More complex fugacity for the van der Waals model -- 19.10. Statistical Associating Fluid Theory (The SAFT Model) -- Example 19.8 The SAFT model -- 19.11. Fitting the Constants for an Associating Equation of State -- 19.12. Summary -- 19.13. Practice Problems -- 19.14. Homework Problems -- APPENDIX A SUMMARY OF COMPUTER PROGRAMS -- A.1. Programs for Pure Component Properties -- A.2. Programs for Mixture Phase Equilibria -- A.3. Reaction Equilibria -- A.4. Notes on Excel Spreadsheets -- A.5. Notes on MATLAB -- A.6. Disclaimer -- APPENDIX B MATHEMATICS -- B.1. Important Relations -- B.2. Solutions to Cubic Equations -- B.3. The Dirac Delta Function -- Example B.1 The hard-sphere equation of state -- Example B.2 The square-well equation of state -- APPENDIX C STRATEGIES FOR SOLVING VLE PROBLEMS -- C.1. Modified Raoult's Law Methods -- C.2. EOS Methods -- C.3. Activity Coefficient (Gamma-Phi) Methods -- APPENDIX D MODELS FOR PROCESS SIMULATORS -- D.1. Overview -- D.2. Equations of State -- D.3. Solution Models -- D.4. Hybrid Models -- D.5. Recommended Decision Tree -- APPENDIX E THEMODYNAMIC PROPERTIES -- E.1. Thermochemical Data -- E.2. Latent Heats -- E.3. Antoine Constants -- E.4. Henry's Constant with Water as Solvent -- E.5. Dielectric Constant for Water -- E.6. Dissociation Constants of Polyprotic Acids -- E.7. Standard Reduction Potentials -- E.8. Biochemical Data -- E.9. Properties of Water -- E.10. Pressure-Enthalpy Diagram for Methane -- E.11. Pressure-Enthalpy Diagram for Propane -- E.12. Pressure-Enthalpy Diagram for R134a (1,1,1,2-Tetraflouroethane)."@en
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