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Principles of chemical reactor analysis and design [[electronic resource] ] : new tools for industrial chemical reactor operations / / Uzi Mann
Principles of chemical reactor analysis and design [[electronic resource] ] : new tools for industrial chemical reactor operations / / Uzi Mann
Autore Mann Uzi
Edizione [2nd ed.]
Pubbl/distr/stampa Hoboken, : Wiley, c2009
Descrizione fisica 1 online resource (xviii, 473 p. : ill.)
Disciplina 660/.2832
Soggetto topico Chemical plants - Equipment and supplies - Design and construction
Chemical reactors - Design and construction
ISBN 9780470385821
9780470385814
0470385812
Classificazione 571.1
660/.2832
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910795975903321
Mann Uzi  
Hoboken, : Wiley, c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Principles of chemical reactor analysis and design : new tools for industrial chemical reactor operations / / Uzi Mann
Principles of chemical reactor analysis and design : new tools for industrial chemical reactor operations / / Uzi Mann
Autore Mann Uzi
Edizione [2nd ed.]
Pubbl/distr/stampa Hoboken, : Wiley, c2009
Descrizione fisica 1 online resource (xviii, 473 p. : ill.)
Disciplina 660/.2832
Soggetto topico Chemical plants - Equipment and supplies - Design and construction
Chemical reactors - Design and construction
ISBN 9780470385821
9780470385814
0470385812
Classificazione 571.1
660/.2832
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- PRINCIPLES OF CHEMICAL REACTOR ANALYSIS AND DESIGN -- CONTENTS -- Preface -- Notation -- 1 Overview of Chemical Reaction Engineering -- 1.1 Classification of Chemical Reactions -- 1.2 Classification of Chemical Reactors -- 1.3 Phenomena and Concepts -- 1.3.1 Stoichiometry -- 1.3.2 Chemical Kinetics -- 1.3.3 Transport Effects -- 1.3.4 Global Rate Expression -- 1.3.5 Species Balance Equation and Reactor Design Equation -- 1.3.6 Energy Balance Equation -- 1.3.7 Momentum Balance Equation -- 1.4 Common Practices -- 1.4.1 Experimental Reactors -- 1.4.2 Selection of Reactor Configuration -- 1.4.3 Selection of Operating Conditions -- 1.4.4 Operational Considerations -- 1.4.5 Scaleup -- 1.4.6 Diagnostic Methods -- 1.5 Industrial Reactors -- 1.6 Summary -- References -- 2 Stoichiometry -- 2.1 Four Contexts of Chemical Reaction -- 2.2 Chemical Formulas and Stoichiometric Coefficients -- 2.3 Extent of a Chemical Reaction -- 2.4 Independent and Dependent Chemical Reactions -- 2.5 Characterization of the Reactor Feed -- 2.5.1 Limiting Reactant -- 2.5.2 Excess Reactant -- 2.6 Characterization of Reactor Performance -- 2.6.1 Reactant Conversion -- 2.6.2 Product Yield and Selectivity -- 2.7 Dimensionless Extents -- 2.8 Independent Species Composition Specifications -- 2.9 Summary -- Problems -- Bibliography -- 3 Chemical Kinetics -- 3.1 Species Formation Rates -- 3.2 Rates of Chemical Reactions -- 3.3 Rate Expressions of Chemical Reactions -- 3.4 Effects of Transport Phenomena -- 3.5 Characteristic Reaction Time -- 3.6 Summary -- Problems -- Bibliography -- 4 Species Balances and Design Equations -- 4.1 Macroscopic Species Balances-General Species-Based Design Equations -- 4.2 Species-Based Design Equations of Ideal Reactors -- 4.2.1 Ideal Batch Reactor -- 4.2.2 Continuous Stirred-Tank Reactor (CSTR) -- 4.2.3 Plug-Flow Reactor (PFR).
4.3 Reaction-Based Design Equations -- 4.3.1 Ideal Batch Reactor -- 4.3.2 Plug-Flow Reactor -- 4.3.3 Continuous Stirred-Tank Reactor (CSTR) -- 4.3.4 Formulation Procedure -- 4.4 Dimensionless Design Equations and Operating Curves -- 4.5 Summary -- Problems -- Bibliography -- 5 Energy Balances -- 5.1 Review of Thermodynamic Relations -- 5.1.1 Heat of Reaction -- 5.1.2 Effect of Temperature on Reaction Equilibrium Constant -- 5.2 Energy Balances -- 5.2.1 Batch Reactors -- 5.2.2 Flow Reactors -- 5.3 Summary -- Problems -- Bibliography -- 6 Ideal Batch Reactor -- 6.1 Design Equations and Auxiliary Relations -- 6.2 Isothermal Operations with Single Reactions -- 6.2.1 Constant-Volume Reactors -- 6.2.2 Gaseous, Variable-Volume Batch Reactors -- 6.2.3 Determination of the Reaction Rate Expression -- 6.3 Isothermal Operations with Multiple Reactions -- 6.4 Nonisothermal Operations -- 6.5 Summary -- Problems -- Bibliography -- 7 Plug-Flow Reactor -- 7.1 Design Equations and Auxiliary Relations -- 7.2 Isothermal Operations with Single Reactions -- 7.2.1 Design -- 7.2.2 Determination of Reaction Rate Expression -- 7.3 Isothermal Operations with Multiple Reactions -- 7.4 Nonisothermal Operations -- 7.5 Effects of Pressure Drop -- 7.6 Summary -- Problems -- 8 Continuous Stirred-Tank Reactor -- 8.1 Design Equations and Auxiliary Relations -- 8.2 Isothermal Operations with Single Reactions -- 8.2.1 Design of a Single CSTR -- 8.2.2 Determination of the Reaction Rate Expression -- 8.2.3 Cascade of CSTRs Connected in Series -- 8.3 Isothermal Operations with Multiple Reactions -- 8.4 Nonisothermal Operations -- 8.5 Summary -- Problems -- 9 Other Reactor Configurations -- 9.1 Semibatch Reactors -- 9.2 Plug-Flow Reactor with Distributed Feed -- 9.3 Distillation Reactor -- 9.4 Recycle Reactor -- 9.5 Summary -- Problems -- 10 Economic-Based Optimization.
10.1 Economic-Based Performance Objective Functions -- 10.2 Batch and Semibatch Reactors -- 10.3 Flow Reactors -- 10.4 Summary -- Problems -- Bibliography -- Appendix A Summary of Key Relationships -- Appendix B Microscopic Species Balances-Species Continuity Equations -- Appendix C Summary of Numerical Differentiation and Integration -- Index.
Record Nr. UNINA-9910813802403321
Mann Uzi  
Hoboken, : Wiley, c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui