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Computational flow modeling for chemical reactor engineering / / Vivek V. Ranade
| Computational flow modeling for chemical reactor engineering / / Vivek V. Ranade |
| Autore | Ranade Vivek V |
| Pubbl/distr/stampa | San Diego, : Academic Press, c2002 |
| Descrizione fisica | 1 online resource (475 p.) |
| Disciplina | 660/.2832 |
| Collana | Process systems engineering series |
| Soggetto topico | Chemical reactors - Fluid dynamics - Mathematical models |
| ISBN |
1-281-51422-5
9786611514228 0-08-050229-6 0-585-47095-2 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover; TOCContents; PART I: INTRODUCTION; CHChapter 1. Reactor Engineering and Flow Modeling; 1.1. Chemical Reactor Engineering (CRE); 1.2. Computational Flow Modeling (CFM); 1.3. CFM for CRE; References; PART II: COMPUTATIONAL FLOW MODELING; CHChapter 2. Mathematical Modeling of Flow Processes; 2.1. Basic Governing Equations; 2.2. Auxiliary Equations; 2.3. Boundary Conditions; 2.4. Discussion; 2.5. Summary; References; CHChapter 3. Turbulent Flow Processes; 3.1. Introduction; 3.2. Turbulence: Physical Picture; 3.3. Modeling Approaches; 3.4. Turbulence Models Basedon RANS; 3.5. Summary
ReferencesCHChapter 4. Multiphase Flow Processes; 4.1. Introduction; 4.2. Modeling Dispersed Multiphase Flows; 4.3. Other Types of Multiphase Flows; 4.4. Summary; References; Appendix 4.1. Time Scales for Dispersed Multiphase Flows; Appendix 4.2. Correlations for Drag Coefficient; Appendix 4.3. Interphase Heat and Mass Transfer Correlations; CHChapter 5. Reactive Flow Processes; 5.1. Introduction; 5.2. Turbulent Reactive Mixing; 5.3. Modeling Approaches; 5.4. RANS-based Models of Reactive Flow Processes; 5.5. Multiphase Reactive Flow Processes; 5.6. Summary; References CHChapter 6. Numerical Solution of Model Equations6.1. Introduction; 6.2. Finite Volume Method; 6.3. Finite Volume Method for Calculationof Flow Field; 6.4. Finite Volume Method for Unsteady Flows; 6.5. Application of Finite Volume Method; 6.6. Summary; References; CHChapter 7. Numerical Solution of Complex Flow Models; 7.1. Simulation of Turbulent Flows; 7.2. Simulation of Multiphase Flows; 7.3. Simulation of Reactive Flows; 7.4. Special Topics; 7.5. Summary; References; CHChapter 8. Computational Tools for Simulating Flow Processes; 8.1. Mapping a Computational Flow Model on a Computer 8.2. Pre-processors8.3. Solvers; 8.4. Post-processors; 8.5. Summary; References; PART III: CFM FOR CRE; CHChapter 9. Flow Modeling for Reactor Engineering; 9.1. Reactor Engineering Methodology; 9.2. Example 1: Suspension Polymerization Reactor; 9.3. Example 2: OXY Reactor for EDC; 9.4. Example 3: Bubble Column Reactor; 9.5. Example 4: FCC Regenerator; 9.6. Summary; References; PART IV: APPLICATIONS; CHChapter 10. Stirred Reactors; 10.1. Engineering of Stirred Reactors; 10.2. CFD-based Modeling of Stirred Reactors; 10.3. Computational Snapshot Approach 10.4. Application to Reactor Engineering10.5. Summary; References; CHChapter 11. Bubble Column Reactors; 11.1. Engineering of Bubble Column Reactors; 11.2. CFD-based Modeling of Bubble Column Reactors; 11.3. Application to Reactor Engineering; 11.4. Summary; References; Appendix 11.1. Multigroup Model to Simulate Bubble Size Distribution; CHChapter 12. Fluidized Bed Reactors; 12.1. Engineering Fluidized Bed Reactors; 12.2. CFD Modeling of Gas-Solid Reactors; 12.3. Applications to Reactor Engineering; 12.4. Summary; References; CHChapter 13. Fixed Bed and Other Types of Reactors 13.1. Fixed Bed Reactors |
| Record Nr. | UNINA-9911004779803321 |
Ranade Vivek V
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| San Diego, : Academic Press, c2002 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hydrodynamics of gas-liquid reactors [[electronic resource] ] : normal operation and upset conditions / / B.J. Azzopardi ... [et al.]
| Hydrodynamics of gas-liquid reactors [[electronic resource] ] : normal operation and upset conditions / / B.J. Azzopardi ... [et al.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, 2011 |
| Descrizione fisica | 1 online resource (348 p.) |
| Disciplina |
660.2832
660/.2832 |
| Altri autori (Persone) | AzzopardiB. J (Barry J.) |
| Soggetto topico |
Chemical reactors - Design and construction
Chemical reactors - Fluid dynamics - Mathematical models Gas-liquid interfaces |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-119-97140-3
1-283-17767-6 9786613177674 1-119-97071-7 1-119-97032-6 |
| Classificazione | TEC009010 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; List of Figures; List of Tables; Preface; Nomenclature; 1. Introduction; PART ONE; 2. Bubble Columns; 2.1 Introduction; 2.2 Types of Bubble Columns; 2.3 Introduction of Gas; 2.3.1 Methodology of Gas Injection; 2.3.2 Bubble Formation and Size Change; 2.3.3 Bubble Movement; 2.3.4 Void Fraction Prediction; 2.3.5 Detailed Behaviour of the Flow; 2.3.6 Gas-Liquid Mass Transfer; 2.3.7 Design of Gas Introduction Arrangement; 2.3.8 Worked Example; 2.4 Disengagement of Liquid from Gas; 2.4.1 Mechanisms of Drop Formation; 2.4.2 Drop Capture; 2.4.3 Wave Plate Mist Eliminators
2.4.4 Mesh Mist EliminatorsQuestions; References; 3. Sparged Stirred Vessels; 3.1 Introduction; 3.2 Flow Regimes; 3.3 Variations; 3.4 Spargers; 3.5 Impellers; 3.5.1 Disc Turbines; 3.5.2 Pitched Blade Turbines; 3.5.3 Hydrofoil Impellers; 3.5.4 Multiple Impellers; 3.6 Baffles; 3.7 Power Requirements; 3.7.1 Single Impellers; 3.7.2 Multiple Impellers; 3.7.3 Single-Phase Power; 3.8 Gas Fraction; 3.9 Mass Transfer; 3.9.1 Bubble Size; 3.9.2 Interfacial Area; 3.9.3 Mass Transfer; 3.10 Mixing Times; Questions; References; 4. Thin Film Reactors; 4.1 Introduction; 4.2 Falling Film Reactors 4.2.1 Film Thickness4.2.2 Interfacial Waves; 4.2.3 Heat and Mass Transfer; 4.3 Rotating Disc Reactors; 4.3.1 Film Thickness; 4.3.2 Interfacial Waves; 4.3.3 Mass Transfer; 4.4 Two-Phase Tubular Reactors; 4.5 Monolith Reactors; 4.5.1 Micro-Channels; 4.5.2 Flow Phenomena in Micro-Channels; 4.5.3 Numerical Modelling; Questions; References; 5. Macroscale Modelling; 5.1 Introduction; 5.2 Eulerian Multiphase Flow Model; 5.2.1 Definition; 5.2.2 Transport Equations; 5.2.3 Interfacial Forces; 5.2.4 Turbulence Models; 5.2.5 Case Study - Cylindrical Bubble Column; 5.2.6 Homogenous and Mixture Modelling 5.3 Poly-Dispersed Flows5.3.1 Methods of Moments; 5.3.2 Case Study - Hibiki's Bubble Column; 5.4 Gassed Stirred Vessels; 5.4.1 Impeller Model; 5.4.2 Multiple Reference Frame; 5.4.3 Multiple Impellers; 5.5 Summary; Questions; References; 6. Mesoscale Modelling Using the Lattice Boltzmann Method; 6.1 Introduction; 6.2 Lattice Boltzmann Method and the Advantages; 6.3 Numerical Simulation of Single-Phase Flow and Heat Transfer; 6.3.1 LBM Model; 6.3.2 Treatment for a Curved Boundary; 6.3.3 Numerical Simulation and Results; 6.4 Numerical Simulation of Two-Phase Flow 6.4.1 Two-Phase Lattice Boltzmann Model6.4.2 Vortices Merging in a Two-Phase Spatially GrowingMixing Layer; 6.4.3 Viscous Fingering Phenomena of Immiscible Two-FluidDisplacement; 6.4.4 Bubbles/Drops Flow Behaviour; References; PART TWO; 7. Upset Conditions; 7.1 Introduction; 7.2 Active Relief Methods; 7.3 Passive Relief Methods; References; 8. Behaviour of Vessel Contents and Outflow Calculations; 8.1 Introduction; 8.1.1 Physics of Venting Processes; 8.1.2 Typical Reactions; 8.1.3 Trends and Observations; 8.1.4 Summary of Observations and Measurements of theLevel Swell Process 8.2 Modelling of the Level Swell Process |
| Record Nr. | UNINA-9910139631903321 |
| Hoboken, N.J., : John Wiley & Sons, 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hydrodynamics of gas-liquid reactors [[electronic resource] ] : normal operation and upset conditions / / B.J. Azzopardi ... [et al.]
| Hydrodynamics of gas-liquid reactors [[electronic resource] ] : normal operation and upset conditions / / B.J. Azzopardi ... [et al.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, 2011 |
| Descrizione fisica | 1 online resource (348 p.) |
| Disciplina |
660.2832
660/.2832 |
| Altri autori (Persone) | AzzopardiB. J (Barry J.) |
| Soggetto topico |
Chemical reactors - Design and construction
Chemical reactors - Fluid dynamics - Mathematical models Gas-liquid interfaces |
| ISBN |
1-119-97140-3
1-283-17767-6 9786613177674 1-119-97071-7 1-119-97032-6 |
| Classificazione | TEC009010 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; List of Figures; List of Tables; Preface; Nomenclature; 1. Introduction; PART ONE; 2. Bubble Columns; 2.1 Introduction; 2.2 Types of Bubble Columns; 2.3 Introduction of Gas; 2.3.1 Methodology of Gas Injection; 2.3.2 Bubble Formation and Size Change; 2.3.3 Bubble Movement; 2.3.4 Void Fraction Prediction; 2.3.5 Detailed Behaviour of the Flow; 2.3.6 Gas-Liquid Mass Transfer; 2.3.7 Design of Gas Introduction Arrangement; 2.3.8 Worked Example; 2.4 Disengagement of Liquid from Gas; 2.4.1 Mechanisms of Drop Formation; 2.4.2 Drop Capture; 2.4.3 Wave Plate Mist Eliminators
2.4.4 Mesh Mist EliminatorsQuestions; References; 3. Sparged Stirred Vessels; 3.1 Introduction; 3.2 Flow Regimes; 3.3 Variations; 3.4 Spargers; 3.5 Impellers; 3.5.1 Disc Turbines; 3.5.2 Pitched Blade Turbines; 3.5.3 Hydrofoil Impellers; 3.5.4 Multiple Impellers; 3.6 Baffles; 3.7 Power Requirements; 3.7.1 Single Impellers; 3.7.2 Multiple Impellers; 3.7.3 Single-Phase Power; 3.8 Gas Fraction; 3.9 Mass Transfer; 3.9.1 Bubble Size; 3.9.2 Interfacial Area; 3.9.3 Mass Transfer; 3.10 Mixing Times; Questions; References; 4. Thin Film Reactors; 4.1 Introduction; 4.2 Falling Film Reactors 4.2.1 Film Thickness4.2.2 Interfacial Waves; 4.2.3 Heat and Mass Transfer; 4.3 Rotating Disc Reactors; 4.3.1 Film Thickness; 4.3.2 Interfacial Waves; 4.3.3 Mass Transfer; 4.4 Two-Phase Tubular Reactors; 4.5 Monolith Reactors; 4.5.1 Micro-Channels; 4.5.2 Flow Phenomena in Micro-Channels; 4.5.3 Numerical Modelling; Questions; References; 5. Macroscale Modelling; 5.1 Introduction; 5.2 Eulerian Multiphase Flow Model; 5.2.1 Definition; 5.2.2 Transport Equations; 5.2.3 Interfacial Forces; 5.2.4 Turbulence Models; 5.2.5 Case Study - Cylindrical Bubble Column; 5.2.6 Homogenous and Mixture Modelling 5.3 Poly-Dispersed Flows5.3.1 Methods of Moments; 5.3.2 Case Study - Hibiki's Bubble Column; 5.4 Gassed Stirred Vessels; 5.4.1 Impeller Model; 5.4.2 Multiple Reference Frame; 5.4.3 Multiple Impellers; 5.5 Summary; Questions; References; 6. Mesoscale Modelling Using the Lattice Boltzmann Method; 6.1 Introduction; 6.2 Lattice Boltzmann Method and the Advantages; 6.3 Numerical Simulation of Single-Phase Flow and Heat Transfer; 6.3.1 LBM Model; 6.3.2 Treatment for a Curved Boundary; 6.3.3 Numerical Simulation and Results; 6.4 Numerical Simulation of Two-Phase Flow 6.4.1 Two-Phase Lattice Boltzmann Model6.4.2 Vortices Merging in a Two-Phase Spatially GrowingMixing Layer; 6.4.3 Viscous Fingering Phenomena of Immiscible Two-FluidDisplacement; 6.4.4 Bubbles/Drops Flow Behaviour; References; PART TWO; 7. Upset Conditions; 7.1 Introduction; 7.2 Active Relief Methods; 7.3 Passive Relief Methods; References; 8. Behaviour of Vessel Contents and Outflow Calculations; 8.1 Introduction; 8.1.1 Physics of Venting Processes; 8.1.2 Typical Reactions; 8.1.3 Trends and Observations; 8.1.4 Summary of Observations and Measurements of theLevel Swell Process 8.2 Modelling of the Level Swell Process |
| Record Nr. | UNINA-9910830925703321 |
| Hoboken, N.J., : John Wiley & Sons, 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hydrodynamics of gas-liquid reactors : normal operation and upset conditions / / B.J. Azzopardi ... [et al.]
| Hydrodynamics of gas-liquid reactors : normal operation and upset conditions / / B.J. Azzopardi ... [et al.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, 2011 |
| Descrizione fisica | 1 online resource (348 p.) |
| Disciplina | 660/.2832 |
| Altri autori (Persone) | AzzopardiB. J (Barry J.) |
| Soggetto topico |
Chemical reactors - Design and construction
Chemical reactors - Fluid dynamics - Mathematical models Gas-liquid interfaces |
| ISBN |
9786613177674
9781119971405 1119971403 9781283177672 1283177676 9781119970712 1119970717 9781119970323 1119970326 |
| Classificazione | TEC009010 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; List of Figures; List of Tables; Preface; Nomenclature; 1. Introduction; PART ONE; 2. Bubble Columns; 2.1 Introduction; 2.2 Types of Bubble Columns; 2.3 Introduction of Gas; 2.3.1 Methodology of Gas Injection; 2.3.2 Bubble Formation and Size Change; 2.3.3 Bubble Movement; 2.3.4 Void Fraction Prediction; 2.3.5 Detailed Behaviour of the Flow; 2.3.6 Gas-Liquid Mass Transfer; 2.3.7 Design of Gas Introduction Arrangement; 2.3.8 Worked Example; 2.4 Disengagement of Liquid from Gas; 2.4.1 Mechanisms of Drop Formation; 2.4.2 Drop Capture; 2.4.3 Wave Plate Mist Eliminators
2.4.4 Mesh Mist EliminatorsQuestions; References; 3. Sparged Stirred Vessels; 3.1 Introduction; 3.2 Flow Regimes; 3.3 Variations; 3.4 Spargers; 3.5 Impellers; 3.5.1 Disc Turbines; 3.5.2 Pitched Blade Turbines; 3.5.3 Hydrofoil Impellers; 3.5.4 Multiple Impellers; 3.6 Baffles; 3.7 Power Requirements; 3.7.1 Single Impellers; 3.7.2 Multiple Impellers; 3.7.3 Single-Phase Power; 3.8 Gas Fraction; 3.9 Mass Transfer; 3.9.1 Bubble Size; 3.9.2 Interfacial Area; 3.9.3 Mass Transfer; 3.10 Mixing Times; Questions; References; 4. Thin Film Reactors; 4.1 Introduction; 4.2 Falling Film Reactors 4.2.1 Film Thickness4.2.2 Interfacial Waves; 4.2.3 Heat and Mass Transfer; 4.3 Rotating Disc Reactors; 4.3.1 Film Thickness; 4.3.2 Interfacial Waves; 4.3.3 Mass Transfer; 4.4 Two-Phase Tubular Reactors; 4.5 Monolith Reactors; 4.5.1 Micro-Channels; 4.5.2 Flow Phenomena in Micro-Channels; 4.5.3 Numerical Modelling; Questions; References; 5. Macroscale Modelling; 5.1 Introduction; 5.2 Eulerian Multiphase Flow Model; 5.2.1 Definition; 5.2.2 Transport Equations; 5.2.3 Interfacial Forces; 5.2.4 Turbulence Models; 5.2.5 Case Study - Cylindrical Bubble Column; 5.2.6 Homogenous and Mixture Modelling 5.3 Poly-Dispersed Flows5.3.1 Methods of Moments; 5.3.2 Case Study - Hibiki's Bubble Column; 5.4 Gassed Stirred Vessels; 5.4.1 Impeller Model; 5.4.2 Multiple Reference Frame; 5.4.3 Multiple Impellers; 5.5 Summary; Questions; References; 6. Mesoscale Modelling Using the Lattice Boltzmann Method; 6.1 Introduction; 6.2 Lattice Boltzmann Method and the Advantages; 6.3 Numerical Simulation of Single-Phase Flow and Heat Transfer; 6.3.1 LBM Model; 6.3.2 Treatment for a Curved Boundary; 6.3.3 Numerical Simulation and Results; 6.4 Numerical Simulation of Two-Phase Flow 6.4.1 Two-Phase Lattice Boltzmann Model6.4.2 Vortices Merging in a Two-Phase Spatially GrowingMixing Layer; 6.4.3 Viscous Fingering Phenomena of Immiscible Two-FluidDisplacement; 6.4.4 Bubbles/Drops Flow Behaviour; References; PART TWO; 7. Upset Conditions; 7.1 Introduction; 7.2 Active Relief Methods; 7.3 Passive Relief Methods; References; 8. Behaviour of Vessel Contents and Outflow Calculations; 8.1 Introduction; 8.1.1 Physics of Venting Processes; 8.1.2 Typical Reactions; 8.1.3 Trends and Observations; 8.1.4 Summary of Observations and Measurements of theLevel Swell Process 8.2 Modelling of the Level Swell Process |
| Record Nr. | UNINA-9911019987703321 |
| Hoboken, N.J., : John Wiley & Sons, 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
