07651nam 2200601Ia 450 991081380240332120200520144314.0978047038582197804703858140470385812(MiAaPQ)EBC7103321(CKB)24989766800041(MiAaPQ)EBC427787(Au-PeEL)EBL427787(CaPaEBR)ebr10303818(CaONFJC)MIL211269(OCoLC)476270816(JP-MeL)3000111516(Au-PeEL)EBL7103321(OCoLC)1347024720(PPN)151813051(EXLCZ)992498976680004120081017d2009 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierPrinciples of chemical reactor analysis and design new tools for industrial chemical reactor operations /Uzi Mann2nd ed.Hoboken Wileyc20091 online resource (xviii, 473 p. ill.)Includes bibliographical references and indexIncludes bibliographical references and index.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.An innovative approach that helps students move from the classroom to professional practice This text offers a comprehensive, unified methodology to analyze and design chemical reactors, using a reaction-based design formulation rather than the common species-based design formulation. The book's acclaimed approach addresses the weaknesses of current pedagogy by giving readers the knowledge and tools needed to address the technical challenges they will face in practice. Principles of Chemical Reactor Analysis and Design prepares readers to design and operate real chemical reactors and to troubleshoot any technical problems that may arise. The text's unified methodology is applicable to both single and multiple chemical reactions, to all reactor configurations, and to all forms of rate expression. This text also . . . Describes reactor operations in terms of dimensionless design equations, generating dimensionless operating curves that depict the progress of individual chemical reactions, the composition of species, and the temperature. Combines all parameters that affect heat transfer into a single dimensionless number that can be estimated a priori. Accounts for all variations in the heat capacity of the reacting fluid. Develops a complete framework for economic-based optimization of reactor operations. Problems at the end of each chapter are categorized by their level of difficulty from one to four, giving readers the opportunity to test and develop their skills. Graduate and advanced undergraduate chemical engineering students will find that this text's unified approach better prepares them for professional practice by teaching them the actual skills needed to design and analyze chemical reactors.Chemical plantsEquipment and suppliesDesign and constructionChemical reactorsDesign and constructionChemical plantsEquipment and suppliesDesign and construction.Chemical reactorsDesign and construction.660/.2832571.1njb/09660/.2832njb/09Mann Uzi1722790MiAaPQMiAaPQMiAaPQBOOK9910813802403321Principles of chemical reactor analysis and design4123470UNINA