书籍目录
- The Basics of Reaction Kinetics for Chemical Reaction Engineering
- Rate Constants of Elementary Reactions
- Reactors for Measuring Reaction Rates
- The Steady-State Approximation: Catalysis
- Heterogeneous Catalysis
- Effects of Transport Limitations on Rates of Solid-Catalyzed Reactions
- Microkinetic Analysis of Catalytic Reactions
- Nonideal Flow in Reactors
- Nonisothermal Reactors
- Reactors Accomplishing Heterogeneous Reactions
书籍简介
- The Basics of Reaction Kinetics for Chemical Reaction Engineering
- Rate Constants of Elementary Reactions
- Reactors for Measuring Reaction Rates
- The Steady-State Approximation: Catalysis
- Heterogeneous Catalysis
- Effects of Transport Limitations on Rates of Solid-Catalyzed Reactions
- Microkinetic Analysis of Catalytic Reactions
- Nonideal Flow in Reactors
- Nonisothermal Reactors
- Reactors Accomplishing Heterogeneous Reactions
本书pdf是文字识别版,影印质量一般。
粗略看了一下,虽然写着fundamental,但里面充满了公式和理论,感觉就是化工学科的物理化学分支。
相关书籍:
The Basics of Reaction Kinetics for Chemical Reaction Engineering
1.1 The Scope of Chemical Reaction Engineering
1.2 The Extent of Reaction
1.3 The Rate of Reaction
1.4 General Properties of the Rate Function for a Single Reaction
1.5 Examples of Reaction Rates
Rate Constants of Elementary Reactions
2.1 Elementary Reactions
2.2 Arrhenius Temperature Dependence of the Rate Constant
2.3 Transition-State Theory
Reactors for Measuring Reaction Rates
3.1 Ideal Reactors
3.2 Batch and Semibatch Reactors
3.3 Stirred-Flow Reactors
3.4 Ideal Tubular Reactors
3.5 Measurement of Reaction Rates
The Steady-State Approximation: Catalysis
4.1 Single Reactions
4.2 The Steady-State Approximation
4.3 Relaxation Methods
Heterogeneous Catalysis
5.1 Introduction
5.2 Kinetics of Elementary Steps: Adsorption, Desorption, and Surface Reaction
5.3 Kinetics of Overall Reactions
5.4 Evaluation of Kinetic Parameters
Effects of Transport Limitations on Rates of Solid-Catalyzed Reactions
6.1 Introduction
6.2 External Transport Effects
6.3 Internal Transport Effects
6.4 Combined Internal and External Transport Effects
6.5 Analysis of Rate Data
Microkinetic Analysis of Catalytic Reactions
7.1 Introduction
7.2 Asymmetric Hydrogenation of Prochiral Olefins
7.3 Ammonia Synthesis on Transition Metal Catalysts
7.4 Ethylene Hydrogenation on Transition Metals
7.5 Concluding Remarks
Nonideal Flow in Reactors
8.1 Introduction
8.2 Residence Time Distribution (RTD)
8.3 Application of RTD Functions to the Prediction of Reactor Conversion
8.4 Dispersion Models for Nonideal Reactors
8.5 Prediction of Conversion with an AxiallyDispersed PFR
8.6 Radial Dispersion
8.7 Dispersion Models for Nonideal Flow in Reactors
Nonisothermal Reactors
9.1 The Nature of the Problem
9.2 Energy Balances
9.3 Nonisothermal Batch Reactor
9.4 Nonisothermal Plug Flow Reactor
9.5 Temperature Effects in a CSTR
9.6 Stability and Sensitivity of Reactors Accomplishing Exothermic Reactions
Reactors Accomplishing Heterogeneous Reactions
10.1 Homogeneous Versus Heterogeneous Reactions in Tubular Reactors
10.2 One-Dimensional Models for Fixed-Bed Reactors
10.3 Two-Dimensional Models for Fixed-Bed Reactors
10.4 Reactor Configurations
10.5 Fluidized Beds with Recirculating Solids