Reaction Engineering 1st Edition by Shaofen Li 0124104785 9780124104785

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ISBN-10 :  0124104785

ISBN-13 :  9780124104785

Author:  Shaofen Li  

Reaction Engineering clearly and concisely covers the concepts and models of reaction engineering and then applies them to real-world reactor design. The book emphasizes that the foundation of reaction engineering requires the use of kinetics and transport knowledge to explain and analyze reactor behaviors.

The authors use readily understandable language to cover the subject, leaving readers with a comprehensive guide on how to understand, analyze, and make decisions related to improving chemical reactions and chemical reactor design. Worked examples, and over 20 exercises at the end of each chapter, provide opportunities for readers to practice solving problems related to the content covered in the book.

Reaction Engineering 1st Table of contents:

Chapter 1. Introduction
Abstract
1.1 Chemical Reaction Engineering
1.2 Conversion and Yield of Chemical Reactions
1.3 Classifications of Chemical Reactors
1.4 Operation Modes of Chemical Reactors
1.5 Models in Reactor Design
1.6 Scale-Up of Industrial Reactors
Further Reading
Problems
Chapter 2. Fundamentals of Reaction Kinetics
Abstract
2.1 Reaction Rate
2.2 Reaction Rate Equations
2.3 Effect of Temperature on Reaction Rate
2.4 Multiple Reactions
2.5 Transformation and Integration of Reaction Rate Equations
2.6 Heterogeneous Catalysis and Adsorption
2.7 Kinetics of Heterogeneous Catalytic Reactions
2.8 Determination of Kinetic Parameters
2.9 Procedure for Developing Reaction Rate Equation
Further Reading
Problems
Chapter 3. Tank Reactor
Abstract
3.1 Mass Balance for Tank Reactor
3.2 Design of Isothermal Batch Tank Reactor (Single Reaction)
3.3 Design of Isothermal Batch Tank Reactor (Multiple Reactions)
3.4 Reactor Volume for Continuous Tank Reactor (CSTR)
3.5 CSTR in Series and Parallel
3.6 Yield and Selectivity for Multiple Reactions in a Tank Reactor
3.7 Semibatch Tank Reactor
3.8 Nonisothermal Batch Reactor
3.9 Steady-State Operation of CSTR
Summary
Further Reading
Problems
Chapter 4. Tubular Reactor
Abstract
4.1 Plug Flow
4.2 Design of Isothermal Tubular Reactor
4.3 Comparison of Reactor Volumes of Tubular and Tank Reactors
4.4 Recycle Reactor
4.5 Nonisothermal Tubular Reactor
4.6 Optimal Temperature Sequence for Tubular Reactors
Further Reading
Problems
Chapter 5. Residence Time Distribution and Flow Models for Reactors
Abstract
5.1 Residence Time Distribution
5.2 Experimental Determination of RTD
5.3 Statistical Eigenvalues of RTD
5.4 RTD of Ideal Reactors
5.5 Nonideal Flow Phenomenon
5.6 Nonideal Flow Models
5.7 Design of Nonideal Reactors
5.8 Mixing of Fluids in Flow Reactors
Further Reading
Problems
Chapter 6. Chemical Reaction and Transport Phenomena in Heterogeneous System
Abstract
6.1 Steps in Heterogeneous Reactions
6.2 Heat and Mass Transfer Between Bulk Fluid and the Catalyst External Surface
6.3 Gas Diffusion in Porous Media
6.4 Diffusion and Reaction in Porous Catalysts
6.5 Effect of Internal Diffusion on Selectivity of Multiple Reactions
6.6 Determination of Diffusion Impact on Heterogeneous Reactions
6.7 Effects of Diffusion on Experimental Measurement of Reaction Rate
Further Reading
Problems
Chapter 7. Analysis and Design of Heterogeneous Catalytic Reactors
Abstract
7.1 Transport Phenomena Inside Fixed Bed Reactors
7.2 Mathematical Model for Fixed Bed Reactor
7.3 Adiabatic Fixed Bed Reactor
7.4 Fixed Bed Reactor With Internal Heat Exchanger
7.5 Autothermal Fixed Bed Reactors
7.6 Parameter Sensitivity
7.7 Laboratory Catalytic Reactor
Further Reading
Problems
Chapter 8. Fluidized Bed Reactor
Abstract
8.1 Introduction
8.2 Fluidization
8.3 Bubbling Fluidized Bed
8.4 Turbulent Fluidized Bed
8.5 Circulating Fluidized Bed
8.6 Downer Reactor
Further Reading
Problems
Chapter 9. Multiple-Phase Reactors
Abstract
9.1 Gas–Liquid Reactions
9.2 Gas–Liquid Reactors
9.3 Gas–Liquid–Solid Reactions
9.4 Trickle Bed Reactors
9.5 Slurry Reactor
Further Reading
Problems
Chapter 10. Fluid–Solid Noncatalytic Reaction Kinetics and Reactors
Abstract
10.1 Fluid–Solid Noncatalytic Reactions and Their Applications
10.2 Reaction Rate of Particles in Different Shapes
10.3 Theoretical Models of Solid Reactions
10.4 Kinetic Analysis of Continuous Model
10.5 Kinetic Analysis at Constant Particle Size Using the Shrinking Core Model
10.6 Kinetic Analysis With Changing Particle Diameter Using the Shrinking Core Model
10.7 Microparticle Model
10.8 Chemical Vapor Deposition
10.9 Design of Fluid–Solid Noncatalytic Reactor
Further Reading
Problems
Chapter 11. Fundamentals of Biochemical Reaction Engineering
Abstract
11.1 Introduction
11.2 Fundamentals of Biochemical Reaction Kinetics
11.3 Immobilized Biocatalysts
11.4 Bioreactors
Reference
Further Reading
Problems
Chapter 12. Fundamentals of Polymerization Reaction Engineering
Abstract
12.1 Overview
12.2 Kinetic Analysis
12.3 Analysis of Heat and Mass Transfers in the Polymerization Process
12.4 Design and Analysis of Polymerization Reactor
References
Further Reading
Problems
Chapter 13. Introduction to Electrochemical Reaction Engineering
Abstract
13.1 Introduction
13.2 Special Issues in Electrochemical Reaction Engineering
13.3 Electrochemical Reactors

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