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◆图书简介
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图书编号: |
290099 |
| 图书名称: |
国外名校名著——化学反应工程(第3版)(英文影印版) |
| 作 者: |
Levenspiel |
| 定 价: |
68元 |
| 出版日期: |
2002年8月 |
| 装桢开本: |
16/平 |
◆内容介绍
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内容简介: |
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目 录: |
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Notation /xi
Chapter 1
Overview of Chemical Reaction Engineering /1
Part I
Homogeneous Reactions in Ideal
Reactors
Chapter 2
Kinetics of Homogeneous Reactions /13
2.1 Concentration-Dependent Term of a Rate Equation /14
2.2 Temperature-Dependent Term of a Rate Equation /27
2.3 Searching for a Mechanism
2.4 Predictability of Reaction Rate from Theory 27
Chapter 3
Interpretation of Batch Reactor Data /38
3.1 Constant-volume Batch Reactor /39
3.2 Varying-volume Batch Reactor /69
3.3 Temperature and Reaction Rate /72
3.4 The Search for a Rate Equation /75
Chapter 4
Introduction to Reactor Design /83
Chapter 5
Ideal Reactors for a Single Reaction /90
5.1 Ideal Batch Reactors /90
5.2 Steady-State Mixed Flow Reactors /94
5.3 Steady-State Plug Flow Reactors /101
Chapter 6
Design for Single Reactions /120
6.1 Size Comparison of Single Reactors /121
6.2 Multiple-Reactor Systems /124
6.3 Recycle Reactor /136
6.4 Autocatalytic Reactions /140
Chapter 7
Design for Parallel Reactions /152
Chapter 8
Potpourri of Multiple Reactions /170
8.1 Irreversible First-Order Reactions in Series /170
8.2 First-Order Followed by Zero-Order Reaction /178
8.3 Zero-Order Followed by First-Order Reaction /179
8.4 Successive Irreversible Reactions of Different Orders /180
8.5 Reversible Reactions /181
8.6 Irreversible Series-Parallel Reactions /181
8.7 The Denbigh Reaction and its Special Cases /194
Chapter 9
Temperature and Pressure Effects /207
9.1 Single Reactions /207
9.2 Multiple Reactions /235
Chapter 10
Choosing the Right Kind of Reactor /240
Part II
Flow Patterns, Contacting, and Non-Ideal
Flow /255
Chapter 11
Basics of Non-Ideal Flow /257
11.1 E, the Age Distribution of Fluid , the RTD /260
11.2 Conversion in Non-Ideal Flow Reactors /273
Chapter 12
Compartment Models /283
Chapter 13
The Dispersion Model /293
13.1 Axial Dispersion /293
13.2 Correlations for Axial Dispersion /309
13.3 Chemical Reaction and Dispersion /312
Chapter 14
The Tanks-Series Model /321
14.1 Pulse Response Experiments and the RTD /321
14.2 Chemical Conversion /328
Chapter 15
The Convection Model for Laminar Flow /339
15.1 The Convection Model and its RTD /339
15.2 Chemical Conversion in Laminar Flow Reactors /345
Chapter 16
Earliness of Mixing, Segregation and RTD /350
16.1 Self-mixing of a Single Fluid /350
16.2 Mixing of Two Miscible Fluids /361
Part III
Reactions Catalyzed by Solids /367
Chapter 17
Heterogeneous Reactions - Introduction /369
Chapter 18
Solid Catalyzed Reactions /376
18.1 The Rate Equation for Surface Kinetics /379
18.2 Pore Diffusion Resistance Combined with Surface Kinetics /381
18.3 Porous Catalyst Particles /385
18.4 Heat Effects During Reaction /391
18.5 Performance Equations for Reactors Containing Porous Catalyst
Particles /393
18.6 Experimental Methods for Finding Rates /396
18.7 Product Distribution in Multiple Reactions /140
Chapter 19
The Packed Bed Catalytic Reactor /427
Chapter 20
Reactors with Suspended Solid Catalyst .
Fluidized Reactors of Various Types /447
20.1 Background Information About Suspended Solids Reactors /447
20.2 The Bubbling Fluidized Bed—BFB /451
20.3 The K-L Model for BFB /445
20.4 The Circulating Fluidized Bed—CFB /470
20.5 The Jet Impact Reactor /470
Chapter 21
Deactivating Catalysts /473
21.1 Mechanisms of Catalyst Deactivation /474
21.2 The Rate and Performance Equations /475
21.3 Design /489
Chapter 22
G/L Reactions on Solid Catalyst: Trickle Beds , Slurry
Reactors , Three-Phase Fluidized Beds /500
22.1 The General Rate Equation /500
22.2 Performanc Equations for an Excess of B /503
22.3 Performance Equations for an Excess of A /509
22.4 Which Kind of Contactor Use /509
22.5 Applications /510
Part IV
Non-Catalytic Systems /521
Chapter 23
Fluid-Fluid Reactions : Kinetics /523
23.1 The Rate Equation /524
Chapter 24
Fluid-Fluid Reactors : Design /540
24.1 Straight Mass Transfer /543
24.2 Mass Transfer Plus Not Very Slow Reaction /546
Chapter 25
Fluid-Particle Reactions : Kinetics /566
25.1 Selection of a Model /568
25.2 Shrinking Core Model for Spherical Particles of Unchanging
Size /570
25.3 Rate of Reaction for Shrinking Spherical Particles /577
25.4 Extensions /579
25.5 Determination of the Rate-Controlling Step /582
Chapter 26
Fluid-Particle Reactors : Design /589
Part V
Biochemical Reaction Systems /609
Chapter 27
Enzyme Fermentation /611
27.1 Michaelis-Menten Kinetics (M-M kinetics) /612
27.2 Inhibition by a Foreign Substance—Competitive and
Noncompetitive Inhibition /616
Chapter 28
Microbial Fermentation-Introduction and Overall
Picture /623
Chapter 29
Substrate-Limiting Microbial Fermentation /630
29.1 Batch (or Plug Flow) Fermentors /630
29.2 Mixed Flow Fermentors /630
29.3 Optimum Operations of Fermintors /636
Chapter 30
Product-Limiting Microbial Fermentation /645
30.1 Batch or Plus Flow Fermentors for n = 1 /646
30.2 Mixed Flow Fermentors for n = 1 /647
Appendix /655
Name Index /662
Subject Index /665
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