Hoboken, NJ, USA: John Wiley & Sons, Inc., 3rd Edition, 2011 - 821
стр.
This book was first published in 1998 to provide a comprehensive treatment of the major separation operations in the chemical industry. Both equilibrium-stage and mass-transfer models were covered. Included also were chapters on thermodynamic and mass-transfer theory for separation operations. In the second edition, published in 2006, the separation operations of ultrafiltration, microfiltration, leaching, crystallization, desublimation, evaporation, drying of solids, and simulated moving beds for adsorption were added. This third edition recognizes the growing interest of chemical engineers in the biochemical industry, and is renamed Separation Process Principles—Chemical and Biochemical Operations.
Brief Content:
Fundamental concepts: Separation Processes; Thermodynamics of Separation Processes; Mass Transfer and Diffusion; Single Equilibrium Stages and Flash Calculations; Cascades and Hybrid Systems.
Separations by phase addition or creation: Absorption and Stripping of Dilute Mixtures; Distillation of Binary Mixtures; Liquid–Liquid Extraction with Teary Systems; Approximate Methods for Multicomponent, Multistage Separations; Equilibrium-Based Methods for Multicomponent Absorption, Stripping, Distillation, and Extraction; Enhanced Distillation and Supercritical Extraction; Rate-Based Models for Vapor–Liquid Separation Operations; Batch Distillation.
Separations by barriers and solid agents: Membrane Separations; Adsorption, Ion Exchange, Chromatography, and Electrophoresis.
Separations that involve a solid phase: Leaching and Washing; Crystallization, Desublimation, and Evaporation; Drying of Solids.
Mechanical separation of phases: Mechanical Phase Separations.
This book was first published in 1998 to provide a comprehensive treatment of the major separation operations in the chemical industry. Both equilibrium-stage and mass-transfer models were covered. Included also were chapters on thermodynamic and mass-transfer theory for separation operations. In the second edition, published in 2006, the separation operations of ultrafiltration, microfiltration, leaching, crystallization, desublimation, evaporation, drying of solids, and simulated moving beds for adsorption were added. This third edition recognizes the growing interest of chemical engineers in the biochemical industry, and is renamed Separation Process Principles—Chemical and Biochemical Operations.
Brief Content:
Fundamental concepts: Separation Processes; Thermodynamics of Separation Processes; Mass Transfer and Diffusion; Single Equilibrium Stages and Flash Calculations; Cascades and Hybrid Systems.
Separations by phase addition or creation: Absorption and Stripping of Dilute Mixtures; Distillation of Binary Mixtures; Liquid–Liquid Extraction with Teary Systems; Approximate Methods for Multicomponent, Multistage Separations; Equilibrium-Based Methods for Multicomponent Absorption, Stripping, Distillation, and Extraction; Enhanced Distillation and Supercritical Extraction; Rate-Based Models for Vapor–Liquid Separation Operations; Batch Distillation.
Separations by barriers and solid agents: Membrane Separations; Adsorption, Ion Exchange, Chromatography, and Electrophoresis.
Separations that involve a solid phase: Leaching and Washing; Crystallization, Desublimation, and Evaporation; Drying of Solids.
Mechanical separation of phases: Mechanical Phase Separations.