This book summarizes the latest findings in distillation process research conducted by the distillation research team in Tianjin University, with a focus on engineering aspects. In the context of the multi-scale features of the distillation process, it covers three main areas in research and analysis: process modeling, especially macro-scale industrial columns; process mechanisms, particularly meso-scale mass transfer; and process economics, aimed at the analysis of investment and operating costs (especially the energy costs) of entire macro-scale separation systems involving multiple columns.…mehr
This book summarizes the latest findings in distillation process research conducted by the distillation research team in Tianjin University, with a focus on engineering aspects. In the context of the multi-scale features of the distillation process, it covers three main areas in research and analysis: process modeling, especially macro-scale industrial columns; process mechanisms, particularly meso-scale mass transfer; and process economics, aimed at the analysis of investment and operating costs (especially the energy costs) of entire macro-scale separation systems involving multiple columns. As it addresses the main engineering basis of distillation, it is also a valuable reference guide to vapor-liquid equilibrium analysis, process modeling and enhancement, efficient column-structure design, methods for reducing energy consumption, and the development of hybrid distillation processes.
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Professor Kuo-Tsung Yu is honorary dean of the School of Chemical Engineering and Technology at Tianjin University, China. He received his PhD from the University of Pittsburgh, US in 1947, where he continued his work as an assistant professor. He then moved to Tangshan Institute of Technology, China and founded the Chemical Engineering Department there in 1950. He joined Tianjin University in 1952, and has led distillation research there since then. His research interests include distillation process modeling, numerical simulation of chemical processes, and mass transfer theory. Prof. Yu has established a substantial publication record on basic and applied distillation research. He is the recipient of seven national rank awards and honors in science and technology and education in China. He is a member of the Chinese Academy of Sciences and has served as the editor-in-chief of the "Chinese Journal of Chemical Engineering" for 15 years. He was also an invited member of the Distillation and Absorption Working Party of the EFCE (European Federation of Chemical Engineering) for 20 years. Professor Xigang Yuan is Professor in the School of Chemical Engineering and Technology at Tianjin University (China). He is the director of the Chemical Engineering Research Center of Tianjin University and director of the Distillation Laboratory of the State Key Laboratory of Chemical Engineering. He received his PhD from ENSIGC-INP, Toulouse (France) in 1988. He is a member of the board of directors of Chemical Industry and Engineering Society of China, vice director of the Process Systems Engineering Committee of the System Engineering Society of China, a fellow of IChemE (UK), and a member of the working party on Fluid Separations of EFCE. His research interests include distillation system simulation and optimization, mass transfer theory, and process systems engineering. He has co-authored four books and has over two hundred refereed publications. r>
Inhaltsangabe
Part I: Simulation of Industrial Scaled Distillation Column.-Chapter 1. Modeling and Experimental Work of Industrial Scale Distillation Column.- Chapter 2. Hydrodynamics of Distillation Column.- Chapter 3. Unsteady Operation of Distillation Column (I) Start-up and Dynamic Response.- Chapter 4. Unsteady Operation of Distillation Column (II) Batch Distillation.- Chapter 5. Unconventional Distillation.- Mass Transfer in Multi-Component System.- Part II: Near Interface Behavior and Interfacial Convection.- Chapter 6. Simulation of Near Interface Behaviors.- Chapter 7. Interfacial Convection and Enhancement of Mass Transfer.- Chapter 8. Multi-scale Simulation - From Interface to Bulk Fluid.- Part III: Utilization of Process Energy.- Chapter 9. Synthesis of Heat Integrated Complex Distillation Systems.- Chapter 10. Utilization of Energy for Distillation.
Part I: Simulation of Industrial Scaled Distillation Column.-Chapter 1. Modeling and Experimental Work of Industrial Scale Distillation Column.- Chapter 2. Hydrodynamics of Distillation Column.- Chapter 3. Unsteady Operation of Distillation Column (I) Start-up and Dynamic Response.- Chapter 4. Unsteady Operation of Distillation Column (II) Batch Distillation.- Chapter 5. Unconventional Distillation.- Mass Transfer in Multi-Component System.- Part II: Near Interface Behavior and Interfacial Convection.- Chapter 6. Simulation of Near Interface Behaviors.- Chapter 7. Interfacial Convection and Enhancement of Mass Transfer.- Chapter 8. Multi-scale Simulation - From Interface to Bulk Fluid.- Part III: Utilization of Process Energy.- Chapter 9. Synthesis of Heat Integrated Complex Distillation Systems.- Chapter 10. Utilization of Energy for Distillation.
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