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Cyclic separating reactors [[electronic resource] /] / Takashi Aida, Peter L. Silveston
| Cyclic separating reactors [[electronic resource] /] / Takashi Aida, Peter L. Silveston |
| Autore | Aida Takashi |
| Pubbl/distr/stampa | Ames, Iowa, : Blackwell Pub., 2005 |
| Descrizione fisica | 1 online resource (402 p.) |
| Disciplina | 660/.2842 |
| Altri autori (Persone) | SilvestonPeter L |
| Soggetto topico |
Separation (Technology)
Chemistry, Technical |
| ISBN |
1-281-32019-6
9786611320195 0-470-98868-1 0-470-99417-7 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cyclic Separating Reactors; Contents; About the Authors; Preface; Acknowledgments; I: INTRODUCTION; 1 Separating Reactors; 1.1 What are they?; 1.2 Process intensification and multifunctionality; 1.3 Potential advantages of separating reactors; 1.4 The trapping reactor; 1.5 Some examples of separating reactors; 2 Periodic Operation; 2.1 Operation options for periodic separating reactors; 2.1.1 Constraints on options; 2.1.2 Establishing periodic operation; 2.1.3 Reactor type and effect; 2.1.4 Manipulated inputs; 2.2 Characteristics of periodic process; 2.2.1 Cycle structure
2.2.2 Transients and the cyclic stationary state2.2.3 Frequency behavior; 2.2.4 Amplitude behavior; 2.2.5 Phase lag; 2.2.6 Complications; 2.3 Advantages of periodic processes and basis for choice; 2.3.1 Process enhancement; 2.3.2 Process stability; 2.3.3 On-line optimization; 2.3.4 Problems with periodic operation; 2.4 Moving-bed systems; 2.5 Neglect of periodic processes; II: CHROMATOGRAPHIC REACTORS; 3 Introduction to Chromatographic Reactors; 3.1 Concept and types; 3.2 General models; 3.2.1 Distributed systems; 3.2.2 Lumped models; 3.3 Cyclic steady state; 4 Chromatographic Reactors (CR) 4.1 Modeling studies4.2 Experimental studies; 4.2.1 Catalyzed chemical reactions; 4.2.2 Enzyme-catalyzed biochemical reactions; 5 Countercurrent Moving-Bed Chromatographic Reactors (CMCR); 5.1 Introduction; 5.2 Modeling studies; 5.3 Experimental studies; 6 Variations on the Moving-Bed Chromatographic Reactor; 6.1 Concept; 6.2 Modeling and design studies; 6.2.1 Continuous rotating annular-bed chromatographic (CRAC) reactors; 6.2.2 Moving bed of adsorbent; 6.2.3 Pulsed, multistage fluidized bed with downward moving adsorbent; 6.3 Experimental studies 6.3.1 Continuous rotating annular chromatographic (CRAC) reactors6.3.2 Moving bed of adsorbent; 7 Simulated Countercurrent Moving-Bed Chromatographic Reactors (SCMCR); 7.1 Concept; 7.2 Isothermal modeling; 7.3 Nonisothermal modeling; 7.4 Separate catalyst and adsorbent beds; 7.5 Experimental studies; 7.5.1 Gas-solid systems; 7.5.2 Liquid-solid systems; 7.5.3 Biochemical systems; 7.6 Nonseparation applications; 8 Chromatographic Reactors: Overview, Assessment, Challenges and Possibilities; 8.1 Overview and assessment; 8.1.1 The chromatographic reactor (CR) 8.1.2 The countercurrent moving-bed chromatographic reactor (CMCR)8.1.3 Continuous rotating annular-bed chromatographic reactor (CRAC); 8.1.4 Simulated countercurrent moving-bed chromatographic reactors (SCMCR); 8.2 Modeling; 8.3 Design; 8.4 Research needs; 8.5 Research opportunities; 8.5.1 Improving SCMCR performance; 8.5.2 New applications; 8.5.3 Moving-bed design; III: SWING REACTORS; 9 Pressure Swing Reactors; 9.1 Introduction to swing reactors; 9.2 Concepts and types; 9.3 General models for pressure swing reactors; 9.4 Computational considerations; 9.5 Isothermal modeling studies 9.6 Nonisothermal modeling studies |
| Record Nr. | UNINA-9910145591803321 |
Aida Takashi
|
||
| Ames, Iowa, : Blackwell Pub., 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Cyclic separating reactors [[electronic resource] /] / Takashi Aida, Peter L. Silveston
| Cyclic separating reactors [[electronic resource] /] / Takashi Aida, Peter L. Silveston |
| Autore | Aida Takashi |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Ames, Iowa, : Blackwell Pub., 2005 |
| Descrizione fisica | 1 online resource (402 p.) |
| Disciplina | 660/.2842 |
| Altri autori (Persone) | SilvestonPeter L |
| Soggetto topico |
Separation (Technology)
Chemistry, Technical |
| ISBN |
1-281-32019-6
9786611320195 0-470-98868-1 0-470-99417-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cyclic Separating Reactors; Contents; About the Authors; Preface; Acknowledgments; I: INTRODUCTION; 1 Separating Reactors; 1.1 What are they?; 1.2 Process intensification and multifunctionality; 1.3 Potential advantages of separating reactors; 1.4 The trapping reactor; 1.5 Some examples of separating reactors; 2 Periodic Operation; 2.1 Operation options for periodic separating reactors; 2.1.1 Constraints on options; 2.1.2 Establishing periodic operation; 2.1.3 Reactor type and effect; 2.1.4 Manipulated inputs; 2.2 Characteristics of periodic process; 2.2.1 Cycle structure
2.2.2 Transients and the cyclic stationary state2.2.3 Frequency behavior; 2.2.4 Amplitude behavior; 2.2.5 Phase lag; 2.2.6 Complications; 2.3 Advantages of periodic processes and basis for choice; 2.3.1 Process enhancement; 2.3.2 Process stability; 2.3.3 On-line optimization; 2.3.4 Problems with periodic operation; 2.4 Moving-bed systems; 2.5 Neglect of periodic processes; II: CHROMATOGRAPHIC REACTORS; 3 Introduction to Chromatographic Reactors; 3.1 Concept and types; 3.2 General models; 3.2.1 Distributed systems; 3.2.2 Lumped models; 3.3 Cyclic steady state; 4 Chromatographic Reactors (CR) 4.1 Modeling studies4.2 Experimental studies; 4.2.1 Catalyzed chemical reactions; 4.2.2 Enzyme-catalyzed biochemical reactions; 5 Countercurrent Moving-Bed Chromatographic Reactors (CMCR); 5.1 Introduction; 5.2 Modeling studies; 5.3 Experimental studies; 6 Variations on the Moving-Bed Chromatographic Reactor; 6.1 Concept; 6.2 Modeling and design studies; 6.2.1 Continuous rotating annular-bed chromatographic (CRAC) reactors; 6.2.2 Moving bed of adsorbent; 6.2.3 Pulsed, multistage fluidized bed with downward moving adsorbent; 6.3 Experimental studies 6.3.1 Continuous rotating annular chromatographic (CRAC) reactors6.3.2 Moving bed of adsorbent; 7 Simulated Countercurrent Moving-Bed Chromatographic Reactors (SCMCR); 7.1 Concept; 7.2 Isothermal modeling; 7.3 Nonisothermal modeling; 7.4 Separate catalyst and adsorbent beds; 7.5 Experimental studies; 7.5.1 Gas-solid systems; 7.5.2 Liquid-solid systems; 7.5.3 Biochemical systems; 7.6 Nonseparation applications; 8 Chromatographic Reactors: Overview, Assessment, Challenges and Possibilities; 8.1 Overview and assessment; 8.1.1 The chromatographic reactor (CR) 8.1.2 The countercurrent moving-bed chromatographic reactor (CMCR)8.1.3 Continuous rotating annular-bed chromatographic reactor (CRAC); 8.1.4 Simulated countercurrent moving-bed chromatographic reactors (SCMCR); 8.2 Modeling; 8.3 Design; 8.4 Research needs; 8.5 Research opportunities; 8.5.1 Improving SCMCR performance; 8.5.2 New applications; 8.5.3 Moving-bed design; III: SWING REACTORS; 9 Pressure Swing Reactors; 9.1 Introduction to swing reactors; 9.2 Concepts and types; 9.3 General models for pressure swing reactors; 9.4 Computational considerations; 9.5 Isothermal modeling studies 9.6 Nonisothermal modeling studies |
| Record Nr. | UNISA-996203966403316 |
|
Aida Takashi
|
||
| Ames, Iowa, : Blackwell Pub., 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Cyclic separating reactors / / Takashi Aida, Peter L. Silveston
| Cyclic separating reactors / / Takashi Aida, Peter L. Silveston |
| Autore | Aida Takashi |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Ames, Iowa, : Blackwell Pub., 2005 |
| Descrizione fisica | 1 online resource (402 p.) |
| Disciplina | 660/.2842 |
| Altri autori (Persone) | SilvestonPeter L |
| Soggetto topico |
Separation (Technology)
Chemistry, Technical |
| ISBN |
9786611320195
9781281320193 1281320196 9780470988688 0470988681 9780470994177 0470994177 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cyclic Separating Reactors; Contents; About the Authors; Preface; Acknowledgments; I: INTRODUCTION; 1 Separating Reactors; 1.1 What are they?; 1.2 Process intensification and multifunctionality; 1.3 Potential advantages of separating reactors; 1.4 The trapping reactor; 1.5 Some examples of separating reactors; 2 Periodic Operation; 2.1 Operation options for periodic separating reactors; 2.1.1 Constraints on options; 2.1.2 Establishing periodic operation; 2.1.3 Reactor type and effect; 2.1.4 Manipulated inputs; 2.2 Characteristics of periodic process; 2.2.1 Cycle structure
2.2.2 Transients and the cyclic stationary state2.2.3 Frequency behavior; 2.2.4 Amplitude behavior; 2.2.5 Phase lag; 2.2.6 Complications; 2.3 Advantages of periodic processes and basis for choice; 2.3.1 Process enhancement; 2.3.2 Process stability; 2.3.3 On-line optimization; 2.3.4 Problems with periodic operation; 2.4 Moving-bed systems; 2.5 Neglect of periodic processes; II: CHROMATOGRAPHIC REACTORS; 3 Introduction to Chromatographic Reactors; 3.1 Concept and types; 3.2 General models; 3.2.1 Distributed systems; 3.2.2 Lumped models; 3.3 Cyclic steady state; 4 Chromatographic Reactors (CR) 4.1 Modeling studies4.2 Experimental studies; 4.2.1 Catalyzed chemical reactions; 4.2.2 Enzyme-catalyzed biochemical reactions; 5 Countercurrent Moving-Bed Chromatographic Reactors (CMCR); 5.1 Introduction; 5.2 Modeling studies; 5.3 Experimental studies; 6 Variations on the Moving-Bed Chromatographic Reactor; 6.1 Concept; 6.2 Modeling and design studies; 6.2.1 Continuous rotating annular-bed chromatographic (CRAC) reactors; 6.2.2 Moving bed of adsorbent; 6.2.3 Pulsed, multistage fluidized bed with downward moving adsorbent; 6.3 Experimental studies 6.3.1 Continuous rotating annular chromatographic (CRAC) reactors6.3.2 Moving bed of adsorbent; 7 Simulated Countercurrent Moving-Bed Chromatographic Reactors (SCMCR); 7.1 Concept; 7.2 Isothermal modeling; 7.3 Nonisothermal modeling; 7.4 Separate catalyst and adsorbent beds; 7.5 Experimental studies; 7.5.1 Gas-solid systems; 7.5.2 Liquid-solid systems; 7.5.3 Biochemical systems; 7.6 Nonseparation applications; 8 Chromatographic Reactors: Overview, Assessment, Challenges and Possibilities; 8.1 Overview and assessment; 8.1.1 The chromatographic reactor (CR) 8.1.2 The countercurrent moving-bed chromatographic reactor (CMCR)8.1.3 Continuous rotating annular-bed chromatographic reactor (CRAC); 8.1.4 Simulated countercurrent moving-bed chromatographic reactors (SCMCR); 8.2 Modeling; 8.3 Design; 8.4 Research needs; 8.5 Research opportunities; 8.5.1 Improving SCMCR performance; 8.5.2 New applications; 8.5.3 Moving-bed design; III: SWING REACTORS; 9 Pressure Swing Reactors; 9.1 Introduction to swing reactors; 9.2 Concepts and types; 9.3 General models for pressure swing reactors; 9.4 Computational considerations; 9.5 Isothermal modeling studies 9.6 Nonisothermal modeling studies |
| Record Nr. | UNINA-9910820392303321 |
|
Aida Takashi
|
||
| Ames, Iowa, : Blackwell Pub., 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Periodic operation of reactors / / edited by P.L. Silveston, R.R. Hudgins
| Periodic operation of reactors / / edited by P.L. Silveston, R.R. Hudgins |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Oxford, : Elsevier, 2013 |
| Descrizione fisica | 1 online resource (792 p.) |
| Disciplina | 660.2832 |
| Altri autori (Persone) |
SilvestonPeter L
HudginsR. R |
| Collana | Butterworth-Heinemann/IChemE series Periodic operation of reactors |
| Soggetto topico | Scientific apparatus and instruments |
| ISBN |
1-283-86852-0
0-12-391866-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover -- Periodic Operation of Reactors -- Copyright -- Contents -- Preface -- About the Authors -- Chapter 1 Introduction -- 1.1 PERIODIC OPERATION -- 1.2 ORIGINS OF PERIODIC OPERATION -- 1.3 VARIABLES IN PERIODIC OPERATION -- 1.4 CYCLE STRUCTURE IN PERIODIC OPERATION -- 1.5 MEASURING IMPROVEMENT -- 1.6 INHERENTLY PERIODIC PROCESSES -- 1.7 OBJECTIVES OF PERIODIC OPERATION -- 1.8 STRATEGIES IN PERIODIC OPERATION -- 1.9 EQUIPMENT FOR PERIODIC OPERATION -- 1.10 REACTION SYSTEMS EXAMINED -- 1.11 NEW DIRECTIONS -- 1.12 A BRIEF HISTORY OF THE STUDY OF PERIODIC OPERATION -- Chapter 2 Hydrogenation Processes -- 2.1 AMMONIA SYNTHESIS -- 2.2 NOX REDUCTION -- 2.3 METHANATION -- 2.4 METHANOL SYNTHESIS -- 2.5 ETHYLENE HYDROGENATION -- 2.6 AROMATICS HYDROGENATION -- 2.7 OSCILLATORY BEHAVIOR -- Chapter 3 Catalytic Oxidation and Reduction of Gases -- 3.1 INTRODUCTION -- 3.2 CO OXIDATION -- 3.3 SULFUR DIOXIDE OXIDATION -- 3.4 REDUCTION OF SO3 BY CO OVER PLATINUM -- 3.5 REDUCTION OF NITROGEN OXIDES -- 3.6 TRAVELING WAVES IN PACKED BEDS -- Chapter 4 Partial Oxidation and Dehydrogenation of Hydrocarbons -- 4.1 INTRODUCTION -- 4.2 PARTIAL OXIDATION AND REFORMING OF METHANE TO SYNGAS -- 4.3 OXIDATIVE COUPLING OF METHANE -- 4.4 EPOXIDATION -- 4.5 PROPENE AND BUTENE PARTIAL OXIDATION AND AMMOXIDATION -- 4.6 CATALYTIC DEHYDROGENATION OF PROPANE, BUTANE AND HIGHER HYDROCARBONS -- 4.7 MALEIC ANHYDRIDE FROM BUTANE -- 4.8 ANHYDRIDES AND ALDEHYDES FROM AROMATIC HYDROCARBONS -- 4.9 AROMATIC NITRILES -- Chapter 5 Combustion Systems -- 5.1 NON-CATALYTIC COMBUSTION REACTIONS -- 5.2 CATALYTIC COMBUSTION -- 5.3 LOOPING COMBUSTION -- 5.4 SIMULATED LOOP REACTORS -- Chapter 6 Automotive Exhaust Catalysis -- 6.1 INTERNAL COMBUSTION ENGINES -- 6.2 MODULATION OF DETOXIFICATION REACTIONS -- 6.3 MODELING STUDIES -- 6.4 STUDIES ON MODULATING AUTOMOTIVE EXHAUST.
6.5 EFFECT OF A/F MODULATION ON POISONING AND SINTERING -- 6.6 EFFECTS OF IRREGULAR A/F VARIATION -- 6.7 LEAN BURN SPARK-IGNITED ENGINES -- 6.8 APPLICATION OF NSR TO DIESEL EXHAUSTS -- 6.9 DOES A/F MODULATION IMPROVE CONVERTER PERFORMANCE? -- Chapter 7 Polymerization Under Modulation∗ -- 7.1 INTRODUCTION -- 7.2 SIMULATION OF POLYMERIZATION UNDER INPUT MODULATION -- 7.3 EXPERIMENTS ON POLYMERIZATION UNDER INPUT MODULATION -- 7.4 SPONTANEOUS OSCILLATIONS -- 7.5 SATURATION OF POLYMERS -- 7.6 ASSESSMENT -- Chapter 8 Catalytic Gas-Solid Reactions -- 8.1 PARTIAL OXIDATION AND OXIDATIVE DEHYDROGENATION OF HYDROCARBONS -- 8.2 METHANE CRACKING -- 8.3 NON-CATALYTIC GAS-SOLID REACTIONS -- 8.4 CATALYTIC GASIFICATION UNDER MODULATION -- 8.5 GASIFICATION EMPLOYING A CIRCULATING SOLID OXYGEN CARRIER -- 8.6 COMBUSTION IN CIRCULATING FLUIDIZED BEDS -- 8.7 PERIODIC REACTION SWITCHING -- Chapter 9 Electrochemical Processes -- 9.1 INTRODUCTION -- 9.2 ELECTROPLATING -- 9.3 ELECTROFORMING -- 9.4 ANODIZATION -- 9.5 ELECTROCHEMICAL MACHINING AND POLISHING -- 9.6 ELECTROWINNING AND ELECTROREFINING -- 9.7 GALVANIC CELLS -- 9.8 ELECTROLYTIC PRODUCTION OF CHEMICALS -- 9.9 APPLICABILITY OF PRINCIPLES OR PRACTICES TO NON-ELECTROCHEMICAL REACTIONS -- Chapter 10 Modulation of Biological Processes -- 10.1 INTRODUCTION -- 10.2 THEORETICAL CONSIDERATIONS -- 10.3 SUBSTRATE AND FLOW RATE MODULATION -- 10.4 DISSOLVED OXYGEN MODULATION -- 10.5 CULTURE MEDIUM TUNING -- 10.6 SURVIVAL IN MIXED CULTURES -- 10.7 STABILIZATION OF RECOMBINANT CELL CULTURES -- 10.8 APPLICATIONS TO IMMOBILIZED CELLS OR ENZYMES -- 10.9 FED-BATCH OPERATIONS -- 10.10 OVERVIEW -- Chapter 11 Miscellaneous Reactions -- 11.1 ETHYL ACETATE FROM ETHYLENE AND ACETIC ACID -- 11.2 CLAUS REACTION -- 11.3 DEHYDROGENATION OF METHANOL -- 11.4 DEAMINATION AND ALCOHOL DEHYDRATION REACTIONS. 11.5 PHOTOCATALYTIC DEGRADATION OF AZO DYES -- 11.6 THE MINIMAL BROMATE REACTION -- 11.7 PROPANOL DEHYDROGENATION -- 11.8 GLUCOSE OXIDATION -- 11.9 OVERVIEW -- Chapter 12 Modulation of Multiple Reactions -- 12.1 INTRODUCTION -- 12.2 HOMOGENEOUS REACTIONS -- 12.3 SOLIDS CATALYZED REACTIONS -- 12.4 COMPETITIVE REACTIONS -- 12.5 METHANE HOMOLOGATION -- 12.6 OLIGOMERIZATION OF ETHENE -- 12.7 MODULATION OF MULTIPLE INPUTS -- Chapter 13 Use of Modulation in Mechanistic Studies -- 13.1 INTRODUCTION -- 13.2 QUALITATIVE APPLICATIONS -- 13.3 QUANTITATIVE APPLICATIONS -- 13.4 MODULATION OF LIGHT INTENSITY -- 13.5 APPLICATION OF MODULATION TO THE TESTING OF RIVAL MODELS -- 13.6 OVERVIEW -- Chapter 14 Evaluation of Periodic Processes -- 14.1 INTRODUCTION -- 14.2 NONLINEAR FREQUENCY RESPONSE AND HIGHER ORDER FREQUENCY RESPONSE FUNCTIONS -- 14.3 ESTIMATION OF THE TIME AVERAGE PERFORMANCE OF PERIODIC PROCESSES USING NONLINEAR FREQUENCY RESPONSE ANALYSIS -- 14.4 APPLICATION OF NONLINEAR FREQUENCY RESPONSE ANALYSIS FOR THE ESTIMATION OF THE PERIODIC STEADY STATES OF CYCLIC PROCESSES -- 14.5 SUMMARY -- Chapter 15 Pressure Modulation -- 15.1 INTRODUCTION -- 15.2 ACCELERATION OF MASS TRANSFER -- 15.3 SONOCATALYSIS -- 15.4 PERIODIC PRESSURE REDUCTION -- 15.5 COMBINED COMPRESSION AND REACTION -- 15.6 APPLICATION TO RATE AND EQUILIBRIUM MEASUREMENTS -- 15.7 ASSESSMENT AND RESEARCH OPPORTUNITIES -- Chapter 16 Temperature Modulation -- 16.1 INTRODUCTION -- 16.2 THEORETICAL STUDIES -- 16.3 SIMULATION STUDIES -- 16.4 EXPERIMENTAL STUDIES WITH CONVENTIONAL LABORATORY EQUIPMENT -- 16.5 TEMPERATURE MODULATION OF TRICKLE BEDS -- 16.6 EXPERIMENTAL STUDIES WITH MICROREACTORS -- 16.7 OVERVIEW AND COMMENTS -- Chapter 17 Flow Interruption in Trickle Beds -- 17.1 INTRODUCTION -- 17.2 STEADY-STATE OPERATION OF A TRICKLE BED REACTOR -- 17.3 PERIODIC OPERATION OF TRICKLE BED REACTORS. 17.4 LIQUID FLOW MODULATION WITH MULTIPLE REACTIONS -- 17.5 HYDRODYNAMICS UNDER LIQUID FLOW MODULATION -- 17.6 MODELING OF THE PERIODIC OPERATION OF TRICKLE BED REACTORS -- 17.7 SUMMARY -- Chapter 18 - Periodic Flow Reversal -- 18.1 THE HEAT-TRAPPING CONCEPT -- 18.2 THEORETICAL ASPECTS -- 18.3 OXIDATION OF VOLATILE ORGANIC COMPOUNDS -- 18.4 OTHER APPLICATIONS OF REVERSE FLOW REACTORS -- 18.5 THERMAL REACTORS -- 18.6 ENDOTHERMIC PROCESSES -- 18.7 MASS TRAPPING REACTORS -- 18.8 BIOFILTERS -- 18.9 MISCELLANEOUS APPLICATIONS -- 18.10 COMMERCIAL APPLICATIONS -- Chapter 19 - Control of Periodically Operated Reactors -- 19.1 FORMULATION OF AN OPTIMAL CONTROL PROBLEM FOR A PERIODICALLY OPERATED REACTOR -- 19.2 CHATTERING CONTROLS -- 19.3 CONTROLS FOR STIRRED SLURRY AND FLUIDIZED BED REACTORS -- 19.4 CONTROLS FOR PACKED BED REACTORS -- 19.5 CONTROL OF PACKED BED REACTORS WITH FLOW-DIRECTION SWITCHING -- 19.6 CONTROL OF SIMULATED MOVING BED CHROMATOGRAPHIC REACTORS -- 19.7 OTHER CONTROL SCHEMES FOR PERIODICALLY OPERATED REACTORS -- 19.8 COMMENTS AND RESEARCH NEEDS -- Chapter 20 Chromatographic Reactors -- 20.1 INTRODUCTION -- 20.2 CONCEPT AND TYPES -- 20.3 GENERAL MODELS -- 20.4 CYCLIC STEADY STATE -- 20.5 PULSE CHROMATOGRAPHIC REACTOR -- 20.6 COUNTERCURRENT MOVING BED CHROMATOGRAPHIC REACTOR -- 20.7 CONTINUOUS ROTATING ANNULAR CHROMATOGRAPHIC REACTOR -- 20.8 STEPWISE, COUNTERCURRENT MULTI-STAGE FLUIDIZED BED CHROMATOGRAPHIC REACTOR -- 20.9 FIXED BED CHROMATOGRAPHIC REACTOR WITH FLOW DIRECTION SWITCHING -- 20.10 EXTRACTIVE REACTOR SYSTEMS -- 20.11 CENTRIFUGAL PARTITION CHROMATOGRAPHIC REACTOR -- Chapter 21 Simulated Moving Bed Chromatographic Reactors -- 21.1 OPERATION AND APPLICATION -- 21.2 MODELING AND SIMULATION -- 21.3 EXPERIMENTAL STUDIES -- 21.4 OTHER REACTOR APPLICATIONS OF SIMULATED MOVING BEDS -- Chapter 22 Pressure and Temperature Swing Reactors. 22.1 CONCEPTS AND TYPES OF PRESSURE SWING REACTORS -- 22.2 MODELS FOR SWING REACTORS -- 22.3 COMPUTATIONAL CONSIDERATIONS -- 22.4 SIMULATIONS OF PRESSURE SWING SYSTEMS -- 22.5 EXPERIMENTAL STUDIES -- 22.6 TEMPERATURE SWING REACTORS -- 22.7 SIMULATION OF TEMPERATURE SWING SYSTEMS -- 22.8 TEMPERATURE SWING REACTOR NETWORKS -- 22.9 EXPERIMENTAL -- 22.10 COMBINED PRESSURE AND TEMPERATURE SWING REACTORS -- 22.11 OVERVIEW AND ASSESSMENT -- Chapter 23 New Directions-Research and Development Challenges -- 23.1 CHALLENGES -- 23.2 NEW DIRECTIONS -- References -- Index. |
| Record Nr. | UNINA-9911006771903321 |
| Oxford, : Elsevier, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||