Modeling Vapor Liquid Equilibria: Cubic Equations of State and their Mixing Rules
Orbey, Hasan
Modeling Vapor Liquid Equilibria: Cubic Equations of State and their Mixing Rules - New York Cambridge University Press 1998 - 207p
Introduction Thermodynamics of Phase Equilibrium Vapor Liquid Equilibrium Modeling with Two Parameter Cubic Equations of State and the Van Der Waals Mixing Rules Mixing Rules that Combine an Equation of State with a Activity Coefficient Model Completely Predictive EOS-GEx Models Epilogue Appendix - A: Bibliography of General Thermodynamics and Phase Equilibria Reference Appendix - B: Summary of the Algebraic Details for the Various Mixing Rules and Computational Methods Using These Mixing Rules Appendix - C: Derivation of Helmholtz and Gibbs Free-Energy Departure Functions from the Peng Robinson Equation of State at Infinite Pressure Appendix - D: Computer Programs for Binary Mixtures Appendix - E: Computer Programs for Multicomponent Mixtures
9780521620277 0.00
Chemical Engineering
660.2963 / ORB
Modeling Vapor Liquid Equilibria: Cubic Equations of State and their Mixing Rules - New York Cambridge University Press 1998 - 207p
Introduction Thermodynamics of Phase Equilibrium Vapor Liquid Equilibrium Modeling with Two Parameter Cubic Equations of State and the Van Der Waals Mixing Rules Mixing Rules that Combine an Equation of State with a Activity Coefficient Model Completely Predictive EOS-GEx Models Epilogue Appendix - A: Bibliography of General Thermodynamics and Phase Equilibria Reference Appendix - B: Summary of the Algebraic Details for the Various Mixing Rules and Computational Methods Using These Mixing Rules Appendix - C: Derivation of Helmholtz and Gibbs Free-Energy Departure Functions from the Peng Robinson Equation of State at Infinite Pressure Appendix - D: Computer Programs for Binary Mixtures Appendix - E: Computer Programs for Multicomponent Mixtures
9780521620277 0.00
Chemical Engineering
660.2963 / ORB