| Name: |
Catalytic Reaction Engineering(I) |
| Catalog Number: |
422015Y |
Hours/Credits: |
40/2 |
| Prerequisite(s): |
|
Physical Chemistry;Principles of Chemical Engineering |
| Course Description: |
|
The Course is major core curriculum of postgraduate whose major is industrial catalysis, and also can be selective course of other major postgraduate. After reviewing the knowledge of chemical reaction, the course let students learn the skills of material balance, heat balance about reactor by calculation training on three ideal reactors. The course demands students to master core knowledge of microcosmic reaction dynamics、the presentation of catalyst reaction rate and the method of calculation catalyst dynamics data in lab. The course can let students learn core knowledge about catalyst by learning the preparation、characterization and evaluation method of catalyst. Master the calculation and design methods of pressure、 temperature、 concentration in reactor and know the new direction of research and development about this reactor by learn the fixed-bed catalyst reactor. Know the safety problem of industrial catalyst reactor working by heat stability’s theoretical analysis and case of reactor. The course makes for the combination of theoretical knowledge and practical application, develop the ability of solving practical problem in catalyst reaction engineering. |
| Course Content: |
|
Chapter 1 Introduction
Application background; Theory system; Thinking method; Structure of knowledge and course requirements of catalyst reaction engineering.
Chapter 2 Homogeneous reaction dynamics
Simple reaction and complex reaction; Constant volume process and changed volume
Determination method of reaction dynamics; Two efficiencies and one property (Transform efficiency, Yield efficiency, Selectivity)
Chapter 3 Homogeneous ideal reactor
The characteristics of representative homogeneous ideal reactor (Batch reactor; Full mix reactor; Plug flow), Materials balance and energy balance, Calculation method of transform efficiency .
Chapter 4 Heterogeneous catalyst reaction dynamics
Chemical adsorption rate and balance,LHHW catalyst reaction mechanism and application .
Chapter 5 The transform process in heterogeneous catalyst reaction
Knudson diffuse; Outer diffuse; Thiele modulus; Weisz dimensionless number and Damkoehler dimensionless number.
Chapter 6 Preparation、characterization and evaluation of catalyst
Introduce simply common method; Characterization method and evaluation method of catalyst preparation.
Chapter 7 Fixed-bed catalyst reactor
Analysis fixed-bed reactor; Heat transfer reactor model; Calculation of heat insulation reactor and self-heating reactor.
Chapter 8 Heat stability analysis of reactor
Heat stability analysis of all kinds of reactors. |
| TextBooks: |
|
|
| Reference: |
|
1 Gantang Chen, Chemical Reaction Engineering, Chemical Industry Press , 1990 (in Chinese) .
2 Shaofen Li. Chemistry and Catalyst Reaction Engineering, Chemical Industry Press, 1986(in Chinese).
3 Shangdi Wang, Junquan Sun, Catalyst Engineering Introductory Theory, Chemical Industry Press, Beijing, 2001(in Chinese).
4 Levenspiel.o., Chemical Reaction Engineering, 2nd, John wiley & Thompson, Inc . 1999.
5 H.scott fogler, Elements of Chemical Reaction Engineering, Prentice-Hall, 1999. |
