Dieses Lehrbuch behandelt die technische Reaktionsführung und die dazu notwendige Reaktionskinetik aus technischer Sicht. Neben Reaktoren für Einphasensysteme werden auch solche für Mehrphasensysteme besprochen, darunter Festbett-Katalysatorreaktoren, Wirbelbettreaktoren und andere Anlagen für Reaktionen zwischen Gasen und Flüssigkeiten bzw. Gasen und Feststoffen. Diskutiert werden die Aspekte der Reaktionskinetik im Zusammenhang mit der Auslegung chemischer Reaktoren sowie Diffusion, Stofftransport, Produktverteilung und Selektivität. Die beiliegende CD-ROM dient insbesondere zur Problemlösung und enthält Parameterschätzungen und -lösungen von Differential- und algebraischen Gleichungen. (01/99)
Solving problems in chemical reaction engineering and kinetics is now easier than ever! As students read through this text, they'll find a comprehensive, introductory treatment of reactors for single-phase and multiphase systems that exposes them to a broad range of reactors and key design features. They'll gain valuable insight on reaction kinetics in relation to chemical reactor design. They will also utilize a special software package that helps them quickly solve systems of algebraic and differential equations, and perform parameter estimation, which gives them more time for analysis. Key Features Thorough coverage is provided on the relevant principles of kinetics in order to develop better designs of chemical reactors. E-Z Solve software, on CD-ROM, is included with the text. By utilizing this software, students can have more time to focus on the development of design models and on the interpretation of calculated results. The software also facilitates exploration and discussion of realistic, industrial design problems. More than 500 worked examples and end-of-chapter problems are included to help students learn how to apply the theory to solve design problems. A web site, www.wiley.com/college/missen, provides additional resources including sample files, demonstrations, and a description of the E-Z Solve software.
Kinetics and Ideal Reactor Models.
Experimental Methods in Kinetics: Measurement of Rate of Reaction.
Development of the Rate Law for a Simple System.
Complex Systems.
Fundamentals of Reaction Rates.
Homogeneous Reaction Mechanisms and Rate Laws.
Catalysis and Catalytic Reactions.
Multiphase Reacting Systems.
Biochemical Reactions: Enzyme Kinetics.
Preliminary Considerations in Chemical Reaction Engineering.
Batch Reactors.
Ideal Flow.
Continuous Stirred-Tank Reactors (CSTR).
Plug Flow Reactors (PFR).
Laminar Flow Reactors (LFR).
Comparisons and Combinations of Ideal Reactors.
Complex Reactions in Ideal Reactors.
Nonideal Flow.
Reactor Performance with Nonideal Flow.
Fixed-Bed Catalytic Reactors for Fluid-Solid Reactions.
Reactors for Fluid-Solid (Noncatalytic) Reactions.
Fluidized-Bed and Other Moving-Particle Reactors for Fluid-Solid Reactions.
Reactors for Fluid-Fluid Reactions.
Appendices.
Nomenclature.
References.
Indexes.
Solving problems in chemical reaction engineering and kinetics is now easier than ever! As students read through this text, they'll find a comprehensive, introductory treatment of reactors for single-phase and multiphase systems that exposes them to a broad range of reactors and key design features. They'll gain valuable insight on reaction kinetics in relation to chemical reactor design. They will also utilize a special software package that helps them quickly solve systems of algebraic and differential equations, and perform parameter estimation, which gives them more time for analysis. Key Features Thorough coverage is provided on the relevant principles of kinetics in order to develop better designs of chemical reactors. E-Z Solve software, on CD-ROM, is included with the text. By utilizing this software, students can have more time to focus on the development of design models and on the interpretation of calculated results. The software also facilitates exploration and discussion of realistic, industrial design problems. More than 500 worked examples and end-of-chapter problems are included to help students learn how to apply the theory to solve design problems. A web site, www.wiley.com/college/missen, provides additional resources including sample files, demonstrations, and a description of the E-Z Solve software.
Kinetics and Ideal Reactor Models.
Experimental Methods in Kinetics: Measurement of Rate of Reaction.
Development of the Rate Law for a Simple System.
Complex Systems.
Fundamentals of Reaction Rates.
Homogeneous Reaction Mechanisms and Rate Laws.
Catalysis and Catalytic Reactions.
Multiphase Reacting Systems.
Biochemical Reactions: Enzyme Kinetics.
Preliminary Considerations in Chemical Reaction Engineering.
Batch Reactors.
Ideal Flow.
Continuous Stirred-Tank Reactors (CSTR).
Plug Flow Reactors (PFR).
Laminar Flow Reactors (LFR).
Comparisons and Combinations of Ideal Reactors.
Complex Reactions in Ideal Reactors.
Nonideal Flow.
Reactor Performance with Nonideal Flow.
Fixed-Bed Catalytic Reactors for Fluid-Solid Reactions.
Reactors for Fluid-Solid (Noncatalytic) Reactions.
Fluidized-Bed and Other Moving-Particle Reactors for Fluid-Solid Reactions.
Reactors for Fluid-Fluid Reactions.
Appendices.
Nomenclature.
References.
Indexes.