This book demystifies fluid phase equilibrium calculations, guiding readers through equations of state, phase boundaries, and flash algorithms with clarity and precision.Designed for students and professionals in science and engineering, it bridges the gap between thermodynamic theory and real-world computation. Starting from core concepts such as energy and entropy, it builds step by step toward algorithms used in computational thermodynamics. By the end,readers will not only understand the theory but also how to implement it in practice.
Demystifies equations of state, fugacity, and phase equilibrium in thermodynamic calculations
Explains implementation and testing of thermodynamic algorithms used in process simulation
Provides consistent examples of multicomponent, multiphase calculations with numerical output
This book demystifies fluid phase equilibrium calculations, guiding readers through equations of state, phase boundaries, and flash algorithms with clarity and precision.Designed for students and professionals in science and engineering, it bridges the gap between thermodynamic theory and real-world computation. Starting from core concepts such as energy and entropy, it builds step by step toward algorithms used in computational thermodynamics. By the end,readers will not only understand the theory but also how to implement it in practice.
Demystifies thermodynamic calculations involving equations of state, fugacity and phase equilibrium
Explains implementation and testing of thermodynamic algorithms used in process simulation Provides clear worked examples, with step by step numerical output on important thermodynamic calculations
Brian R. Greenhalgh
themodynamics Chemical Potential Fugacity Flash Calculation Phase Boundary equation of state