| About the Authors |
| Preface |
| Acknowledgments |
| Introduction / I: |
| Separating Reactors / 1: |
| What are they? / 1.1: |
| Process intensification and multifunctionality / 1.2: |
| Potential advantages of separating reactors / 1.3: |
| The trapping reactor / 1.4: |
| Some examples of separating reactors / 1.5: |
| Periodic Operation / 2: |
| Operation options for periodic separating reactors / 2.1: |
| Constraints on options / 2.1.1: |
| Establishing periodic operation / 2.1.2: |
| Reactor type and effect / 2.1.3: |
| Manipulated inputs / 2.1.4: |
| Characteristics of periodic process / 2.2: |
| Cycle structure / 2.2.1: |
| Transients and the cyclic stationary state / 2.2.2: |
| Frequency behavior / 2.2.3: |
| Amplitude behavior / 2.2.4: |
| Phase lag / 2.2.5: |
| Complications / 2.2.6: |
| Advantages of periodic processes and basis for choice / 2.3: |
| Process enhancement / 2.3.1: |
| Process stability / 2.3.2: |
| On-line optimization / 2.3.3: |
| Problems with periodic operation / 2.3.4: |
| Moving-bed systems / 2.4: |
| Neglect of periodic processes / 2.5: |
| Chromatographic Reactors / II: |
| Introduction to Chromatographic Reactors / 3: |
| Concept and types / 3.1: |
| General models / 3.2: |
| Distributed systems / 3.2.1: |
| Lumped models / 3.2.2: |
| Cyclic steady state / 3.3: |
| Chromatographic Reactors (CR) / 4: |
| Modeling studies / 4.1: |
| Experimental studies / 4.2: |
| Catalyzed chemical reactions / 4.2.1: |
| Enzyme-catalyzed biochemical reactions / 4.2.2: |
| Countercurrent Moving-Bed Chromatographic Reactors (CMCR) / 5: |
| Variations on the Moving-Bed Chromatographic Reactor / 5.1: |
| Concept / 6.1: |
| Modeling and design studies / 6.2: |
| Continuous rotating annular-bed chromatographic (CRAC) reactors / 6.2.1: |
| Moving bed of adsorbent / 6.2.2: |
| Pulsed, multistage fluidized bed with downward moving adsorbent / 6.2.3: |
| Continuous rotating annular chromatographic (CRAC) reactors / 6.3: |
| Simulated Countercurrent Moving-Bed Chromatographic Reactors (SCMCR) / 6.3.2: |
| Isothermal modeling / 7.1: |
| Nonisothermal modeling / 7.3: |
| Separate catalyst and adsorbent beds / 7.4: |
| Gas-solid systems / 7.5: |
| Liquid-solid systems / 7.5.2: |
| Biochemical systems / 7.5.3: |
| Nonseparation applications / 7.6: |
| Chromatographic Reactors: Overview, Assessment, Challenges and Possibilities / 8: |
| Overview and assessment / 8.1: |
| The chromatographic reactor (CR) / 8.1.1: |
| The countercurrent moving-bed chromatographic reactor (CMCR) / 8.1.2: |
| Continuous rotating annular-bed chromatographic reactor (CRAC) / 8.1.3: |
| Simulated countercurrent moving-bed chromatographic reactors (SCMCR) / 8.1.4: |
| Modeling / 8.2: |
| Design / 8.3: |
| Research needs / 8.4: |
| Research opportunities / 8.5: |
| Improving SCMCR performance / 8.5.1: |
| New applications / 8.5.2: |
| Moving-bed design / 8.5.3: |
| Swing Reactors / III: |
| Pressure Swing Reactors / 9: |
| Introduction to swing reactors / 9.1: |
| Concepts and types / 9.2: |
| General models for pressure swing reactors / 9.3: |
| Computational considerations / 9.4: |
| Isothermal modeling studies / 9.5: |
| Nonisothermal modeling studies / 9.6: |
| Temperature Swing Reactors / 9.7: |
| Simulations / 10.1: |
| Experimental / 10.4: |
| Combined Pressure and Temperature Swing Reactors / 11: |
| Simulation / 11.1: |
| Periodically Pulsed, Trapping and Extractive Reactors / 12: |
| Periodically pulsed reactors / 12.1: |
| The periodically operated trapping reactor / 12.2.1: |
| PTR Simulation / 12.3.1: |
| Cyclic extractive reactor / 12.3.2: |
| Swing Reactors: Overview, Assessment, Challenges and Possibilities / 13: |
| Pressure swing reactors / 13.1: |
| Temperature swing reactors / 13.1.2: |
| Combined pressure and temperature swing reactors / 13.1.3: |
| System Screening and Development / 13.2: |
| Screening Reactors / 14: |
| Requirements for separating reactors / 14.1: |
| Screening reactors / 14.2: |
| Well-mixed systems / 14.2.1: |
| Tubular reactor systems / 14.2.2: |
| Well-mixed screening reactors / 14.3: |
| Tubular screening reactor / 14.3.2: |
| Assessment / 14.4: |
| Development of a Cyclic Separating Reactor / 15: |
| Developing the cyclically operated separating reactor system / 15.1: |
| Models / 15.2: |
| Dispersion models / 15.2.1: |
| Kinetic models / 15.2.2: |
| Adsorption equilibria and rate models / 15.2.3: |
| Mass transfer rate models / 15.2.4: |
| Heat transfer rate models / 15.2.5: |
| Parameter estimation / 15.3: |
| Demonstration and performance testing / 15.4: |
| Scale-up and economic evaluation / 15.5: |
| A development example / 15.6: |
| Reactor - separator alternative / 15.7: |
| Overview / V: |
| Periodically Operated Separating Reactors: Quo Vadis? / 16: |
| The role of separating reactors in reactor engineering / 16.1: |
| Current development status of different types of cyclic separating reactors / 16.2: |
| Predictions for the future / 16.3: |
| Expected direction of research on cyclic separating reactors / 16.4: |
| Final word / 16.5: |
| List of Symbols |
| References |
| Author Index |
| Subject Index |
| Acknowledgements |
| What Are They? / Chapter 1: |
| Process Intensification and Multifunctionality |
| Potential Advantages of Separating Reactors |
| The Trapping Reactor |
| Some Examples of Separating Reactors |
| Operations Options for Periodic Separating Reactors / Chapter 2: |
| Characteristics of Periodic Process |
| Advantages of Periodic Processes & Basis for Choice |
| Moving Bed Systems |
| Neglect of Periodic Processes |
| Concept and Types / Chapter 3: |
| General Models |
| Cyclic Steady State |
| Chromatographic Reactors (CRs) / Chapter 4: |
| Modeling Studies |
| Experimental Studies |
| Countercurrent Moving Bed Chromatographic Reactors (CMCRs) / Chapter 5: |
| Variations of Moving Bed Chromatographic Reactors / Chapter 6: |
| Concepts |
| Modeling and Design Studies |
| Simulated Countercurrent Moving Bed Chromatographic Reactors (SCMCRs) / Chapter 7: |
| Isothermal Modeling |
| Non-isothermal Modeling |
| Separate Catalyst and Adsorbent Beds |
| Non-separation Applications |
| Overview and Assessment / Chapter 8: |
| Research Needs |
| Research Opportunities |
| Introduction to Swing Reactors / Chapter 9: |
| Concepts and Types |
| General Models for Pressure Swing Reactors |
| Computational Considerations |
| Isothermal Modeling Studies |
| Non-isothermal Modeling Studies |
| Periodically Pulsed Reactors / Chapter 10: |
| The Periodically Operated Trapping Reactor |
| Cyclic Extractive Reactor |
| Requirements for Separating Reactors / Chapter 13: |
| Developing the Cyclically Operated Separating Reactor System / Chapter 15: |
| Parameter Estimation |
| Demonstration Unit and Performance Testing |
| Scale Up and Economic Evaluation |
| A Development Example |
| Reactor + Separator Alternative |
| The Role of Separating Reactors in Reactor Engineering / Chapter 16: |
| Current Development Status of Different Types of Cyclic Separating Reactors |
| Predictions for the Future |
| Expected Direction of Research on Cyclic Separating Reactors |
| Final Word |
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