Separation process principles

The latest principles, processes, and practices Chemical engineering design is in a constant state of flux. From advances in the practice of separation operations in chemical engineering to corresponding changes in the curriculum, much has happened in the seven years since the publication of Seader and Henley's first edition of Separation Process Principles, including: (1) advances in the fundamentals of mass, heat, and momentum transport, (2) wide availability of computer programs to facilitate the application of mathematical models to a wide range of separation operations, (3) increasing interest in separations involving the solid phase, and (4) changes in the practice of chemical engineering to emphasize product design as well as process design. This second edition reflects these changes. Highlights of the second edition * Chapter on crystallization, including thermodynamic and transport aspects, the MSMPR crystallizer model, and treatments of screen analysis, desublimation, and evaporation* Chapter on drying of solids, including treatments of psychrometry and several dryer mathematical models* Chapter on leaching of solids, including a discussion of the espresso machine* Substantial new sections on ultrafiltration and microfiltration, including detailed examples* Added section on simulated-moving-bed adsorption, including detailed examples* Expansion of the treatment of batch distillation to include optimal control* New sections on hybrid systems and membrane cascades* Now includes 214 examples and 649 homework exercisesWebsite for students and instructors: www.wiley.com/college/seader

About the Authors. Preface to the Second Edition. Nomenclature. Dimensions and Units. PART ONE: FUNDAMENTAL CONCEPTS. Chapter 1. Separation Processes. Chapter 2. Thermodynamics of Separation Operations. Chapter 3. Mass Transfer and Diffusion. Chapter 4. Single Equilibrium Stages and Flash Calculations. Chapter 5. Cascades and Hybrid Systems. PART TWO: SEPARATIONS BY PHASE ADDITION OR CREATION. Chapter 6. Absorption and Stripping of Dilute Mixtures. Chapter 7. Distillation of Binary Mixtures. Chapter 8. Liquid-Liquid Extraction with Ternary Systems. Chapter 9. Approximate Methods for Multicomponent, Multistage Separations. Chapter 10. Equilibrium-Based Methods for Multicomponent Absorption, Stripping, Distillation, and Extraction. Chapter 11. Enhanced Distillation and Supercritical Extraction. Chapter 12. Rate-Based Models for Distillation. Chapter 13. Batch Distillation. PART THREE: SEPARATIONS BY BARRIERS AND SOLID AGENTS. Chapter 14. Membrane Separations. Chapter 15. Adsorption, Ion Exchange, and Chromatography. PART FOUR: SEPARATIONS THAT INVOLVE A SOLID PHASE. Chapter 16. Leaching and Washing. Chapter 17. Crystallization, Desublimation, and Evaporation. Chapter 18. Drying of Solids. Index.