Screen LibraryElementary chemical reactor analysis /
Elementary Chemical Reactor Analysis.
Saved in:
| Main Authors: | |
|---|---|
| Corporate Authors: | |
| Published: |
Butterworths,
|
| Publisher Address: | Boston : |
| Publication Dates: |
[1989] ©1989 |
| Literature type: | eBook |
| Language: | English |
| Series: |
Butterworths series in chemical engineering
|
| Subjects: | |
| Online Access: |
http://www.sciencedirect.com/science/book/9780409902211 |
| Summary: |
Elementary Chemical Reactor Analysis. |
| Item Description: | Reprint. Originally published: Englewood Cliffs, N.J. : Prentice Hall, 1969. Originally published in series: Prentice-Hall international series in the physical and chemical engineering sciences. |
| Carrier Form: | 1 online resource (xii, 352 pages) : illustrations. |
| Bibliography: | Includes bibliographical references. |
| ISBN: |
9781483135809 1483135802 |
| Index Number: | TP157 |
| CLC: | TQ052 |
| Contents: |
Front Cover; Elementary Chemical Reactor Analysis; Copyright Page; Preface; Table of Contents; Illustrative Examples Used in the Text and Exercises; Chapter 1. What is Chemical Reactor Analysis?; 1.1 A General Look at the Subject; 1.2 A Note on Presentation, Problems, and Prerequisites; REFERENCES; Chapter 2. Stoichiometry; 2.1 What It Is and Why We Need It; 2.2 Entire Reactions and Reaction Mechanisms; 2.3 Independence of Reactions; 2.4 Measurement of Quantity and Its Change by Reaction; 2.5 Measures of Concentration; 2.6 Concentration Changes with a Single Reaction 2.7 Concentration Changes with Several Reactions2.8 Rate of Reaction; NOTATION; Chapter 3. Thermochemistry and Chemical Equilibrium; 3.1 Introduction; 3.2 Heat of Formation; 3.3 Heat of Reaction; 3.4 Variation of the Heat of Reaction; 3.5 Rate of Generation of Heat by Reaction; 3.6 Chemical Equilibrium; 3.7 The Calculation of Homogeneous Equilibrium Compositions; 3.8 Equilibrium of Simultaneous and Heterogeneous Reactions; REFERENCES; Chapter 4. Reaction Rates; 4.1 What Is Needed and What Can Be Obtained; 4.2 Homogeneous Reaction Rates 4.3 Variation of Reaction Rate with Extent and Temperature4.4 A Portrait of the Second Order Reversible Reaction; 4.5 Reaction Rates near Equilibrium; 4.6 Reaction Mechanisms; 4.7 Heterogeneous Reaction Rate Expressions; 4.8 Reaction Rates in Other Concentration Measures; 4.9 Classification and Orders of Magnitude of Reaction Rates; REFERENCES; Chapter 5. The Progress of the Reaction in Time; 5.1 Introduction; 5.2 The First Order Reaction; 5.3 The General Irreversible Reaction; 5.4 The General Homogeneous Reaction; 5.5 Concurrent Reactions of Low Order; 5.6 Consecutive First Order Reactions 5.7 Systems of First Order Reactions5.8 Numerical Methods; REFERENCES; Chapter 6. The Interaction of Chemical and Physical Rate Processes; 6.1 Effective Reaction Rate Expressions; 6.2 The Concept of the Rate Determining Step; 6.3 External Mass Transfer; 6.4 Diffusion Within the Catalyst Pellet; 6.5 The Combination of External MassTransfer and Internal Diffusion; 6.6 The Effect of Temperature Variations; 6.7 Applications; REFERENCES; Chapter 7. The Continuous Flow Stirred Tank Reactor; 7.1 The Basic Mass Balances; 7.2 The Energy Balance; 7.3 The Design of a Single Reactor 7.4 Some Considerations in Detailed Design7.5 Stability of the Steady State; 7.6 Control of the Steady State; 7.7 Sequences of Stirred Tank Reactors; 7.8 Optimal Sequences of Stirred Tank Reactors; 7.9 Mixing in the Reactor; REFERENCES; Chapter 8. Adiabatic Reactors; 8.1 General Principles; 8.2 The Adiabatic Stirred Tank; 8.3 Sequences of Adiabatic Stirred Tanks; 8.4 The Adiabatic Tubular or Batch Reactor; 8.5 Multistage Adiabatic Reactors; 8.6 Combined Types of Adiabatic Reactor; 8.7 Stability of Adiabatic Reactors; REFERENCES; Chapter 9. The Tubular Reactor; 9.1 Types of Tubular Reactor |