Preface to the English Edition |
Preface |
Chemical Reactions and Design of Chemical Reactors / Hiroo TominagaChapter 1: |
Introduction / 1.1: |
Science and Engineering for Reactor Design / 1.2: |
Theory of Chemical Reaction / 1.3: |
Chemical Reaction Engineering and Reactor Design / 1.4: |
Reactor Design for Industrial Processes / 1.5: |
Naphtha Cracking / 1.5.1: |
Tubular Steam Reforming / 1.5.2: |
Epoxy Resin Production / 1.5.3: |
Hydrotreating / 1.5.4: |
Fluid Catalytic Cracking / 1.5.5: |
Flue Gas Desulphurization / 1.5.6: |
Equilibrium and Reaction Rate / Hiroshi KomiyamaChapter 2: |
Nature of Chemical Reaction / 2.1: |
Supply of Activation Energy / 2.1.1: |
Elementary and Complex Reactions / 2.1.2: |
Other Factors in Reactor Design / 2.1.3: |
Direction of the Reaction Progress and Chemical Equilibrium / 2.2: |
Direction of the Reaction Progress / 2.2.1: |
Role of the Catalyst / 2.2.2: |
Reversible and Irreversible Reactions / 2.2.3: |
How to Calculate the Heat of Reaction and the Equilibrium Constant / 2.2.4: |
Operating Conditions and Energy Efficiency of Chemical Reactions / 2.2.5: |
The Rate of Reaction / 2.3: |
Factors Governing the Rate of Reaction / 2.3.1: |
Complex Reaction System / 2.4: |
Rate-determining Step / 2.4.1: |
Patterning of Reaction Systems / 2.4.2: |
Relations with Other Transfer Processes / 2.4.3: |
Fundamentals of Heat and Mass Transfer / Koichi AsanoChapter 3: |
Rate Equations / 3.1: |
Conduction of Heat / 3.1.1: |
Diffusion / 3.1.2: |
Diffusion Flux and Mass Flux / 3.1.3: |
Mass and Heat Transfer Coefficients / 3.2: |
Mass Transfer Coefficient / 3.2.1: |
Overall Mass Transfer Coefficient / 3.2.2: |
Heat Transfer Coefficient / 3.2.3: |
Overall Heat Transfer Coefficient / 3.2.4: |
Heat and Mass Transfer in a Laminar Boundary Layer along a Flat Plate / 3.3: |
Governing Equations of Heat and Mass Transfer / 3.3.1: |
Physical Interpretation of the Dimensionless Groups used in Heat and Mass Transfer Correlation / 3.3.2: |
Similarity Transformation / 3.3.3: |
Numerical Solutions for Heat and Mass Transfer / 3.3.4: |
High Mass Flux Effect / 3.3.5: |
Heat Transfer inside a Circular Tube in Laminar Flow / 3.4: |
Heat Transfer inside a Circular Tube with Uniform Velocity Profile / 3.4.1: |
Heat Transfer inside a Circular Tube with Parabolic Velocity Profile (Graetz problem) / 3.4.2: |
Mass Transfer of Bubbles, Drops and Particles / 3.5: |
Hadamard Flow / 3.5.1: |
Evaporation of a Drop in the Gas Phase / 3.5.2: |
Continuous Phase Mass Transfer of Bubbles or Drops in the Liquid Phase / 3.5.3: |
Dispersed Phase Mass Transfer / 3.5.4: |
Heat and Mass Transfer of a Group of Particles and the Void Function / 3.5.5: |
Radiant Heat Transfer / 3.6: |
Heat Radiation / 3.6.1: |
Governing Equations of Radiant Heat Transfer / 3.6.2: |
Fundamentals of Reactor Design / Chapter 4: |
Reactor Types and Their Applications / Shintaro Furusaki4.1: |
Homogeneous Reactors / 4.1.1: |
Heterogeneous Reactors / 4.1.2: |
Design of Homogeneous Reactors / Yukihiro Shimogaki4.2: |
Material and Heat Balances in Reaction Systems / 4.2.1: |
Design of Batch Stirred Tank Reactor / 4.2.2: |
Design of Continuous Stirred Tank Reactors / 4.2.3: |
Design of Tubular Reactors / 4.2.4: |
Homogeneous and Heterogeneous Complex Reactions / 4.2.5: |
Planning and Design of Multiphase Reactors / Masayuki Horio4.3: |
Features of Planning and Design of Multiphase Reaction Processes / 4.3.1: |
Model Description of Multiphase Processes / 4.3.2: |
Concepts of Multiphase Reaction Processes / 4.3.3: |
Development and Scale-up of Multiphase Reactors / 4.3.4: |
Dynamic Analysis of Reaction System / Hisayoshi Matsuyama4.4: |
Dynamics of Reactors / 4.4.1: |
Stability of Reactors / 4.4.2: |
Control of Reactors / 4.4.3: |
Optimization of Reactor Systems / 4.4.4: |
Design of an Industrial Reactor / Chapter 5: |
Petrochemical Complex in Japan / Hiroshi Yagi5.1: |
Cracking Furnace for Naphtha / 5.1.2: |
Treatment of a Cracked Gas / 5.1.3: |
Quench and Heat Recovery / 5.1.4: |
Thermodynamics of Thermal Cracking Reaction / 5.1.5: |
Mechanism of Thermal Cracking / 5.1.6: |
Reaction Model for Yield Estimation / 5.1.7: |
Design Procedure of Cracking Furnace / 5.1.8: |
Results of Thermal Cracking Simulation / 5.1.9: |
Technology Trend of a Cracking Furnace / 5.1.10: |
The Reactions / J. R. Rostrup-Nielsen ; Lars J. Christiansen5.2: |
The Tubular Reformer / 5.2.2: |
The Catalyst and Reaction Rate / 5.2.3: |
Poisoning / 5.2.4: |
Carbon Formation / 5.2.5: |
CO[subscript 2] Reforming / 5.2.6: |
Reforming of High Hydrocarbons / 5.2.7: |
Alternatives to Steam Reforming Technology / 5.2.8: |
Epoxy Resin / Goro Soma ; Yasuo Hosono5.3: |
Quality Parameters of Epoxy Resin / 5.3.2: |
Elementary Reactions for Epoxy Resin Production / 5.3.3: |
Epoxy Resin Production Processes / 5.3.4: |
Process Operating Factors / 5.3.5: |
The Reaction Model / 5.3.6: |
Batch Operation / 5.3.7: |
Simulation Using the Reaction Model / 5.3.8: |
Design of the First-stage Reactor / 5.3.9: |
Design of the Second-stage Reactor / 5.3.10: |
Hydrotreating Reactor Design / Alan G. Bridge ; E. Morse Blue5.4: |
Hydrotreating Objectives / 5.4.1: |
Process Fundamentals / 5.4.2: |
VGO Hydrotreating Reactions / 5.4.3: |
VGO Hydrotreating Catalysts / 5.4.4: |
VGO Hydrotreating Process Conditions / 5.4.5: |
VGO Hydrotreating Reactor Design / 5.4.6: |
VGO Hydrotreating Operation / 5.4.7: |
VGO Hydrotreating Safety Procedures / 5.4.8: |
Future Trends / 5.4.9: |
Outline of the FCC Process / Toru Takatsuka ; Hideki Minami5.5: |
Basic Theory of Fluid Catalytic Cracking / 5.5.2: |
Theoretical Discussion of FCC Reactor Design / 5.5.3: |
Practice of FCC Reactor Design / 5.5.4: |
Material Balance and Heat Balance around Reactors / 5.5.5: |
Wet Flue Gas Desulphurization / Hiroshi Yanagioka ; Teruo Sugiya5.6: |
Process Description / 5.6.1: |
Structure of JBR / 5.6.2: |
Chemical Reactions in JBR / 5.6.3: |
Heat and Material Balance around the Reactor / 5.6.4: |
Reactive Impurities in the Flue Gas / 5.6.5: |
Applicable Materials for the Wet FGD Plant / 5.6.6: |
Index |
Preface to the English Edition |
Preface |
Chemical Reactions and Design of Chemical Reactors / Hiroo TominagaChapter 1: |
Introduction / 1.1: |
Science and Engineering for Reactor Design / 1.2: |
Theory of Chemical Reaction / 1.3: |