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Preparation and Characterization of Catalysts

Code

7394

Academic unit

Faculdade de Ciências e Tecnologia

Department

Departamento de Química

Credits

6.0

Teacher in charge

Isabel Maria de Figueiredo Ligeiro da Fonseca

Weekly hours

5

Total hours

100

Teaching language

Português

Objectives

The students learn how to select the catalytic species for a specific catalytic process and how to prepare massic or impregnated catalysts. In order to understand the activity , selectivity and catalyst deactivation, they also learn how to characterize them using physical and chemical techiques.

Subject matter

Lectures
1. Importance of Industrial catalysis
1.1. Introduction
1.2 Definitions
1. 3. Concepts and heterogeneous catalysis theories
1. 4. Adsorption
1.5. Catalytic activity of metals
1..6. Catalytic activity of semi conductors
1.7. Catalytic activity of stoichiometric oxides
2. Catalysts properties
2.1. Selectivity
2.2. Activity
2.3. Statabity and regenerability
2.4. Mechanical and thermal properties
3. Selection of active species
3.1. Selection of criterious
3.2. Transformation analysis
3.3. Selection of catalaytic species.
.3.3.1. Empirical classifications
3.3 .2 General laws of catalysis and scientific correlations
3.3.3 Bibliography research
3.3.4 Experimental exploration
4. Catalysts preparation
4.1. Massic catalysts and supports
4.1.1. Fused catalysts
4.1.2. Raney-Ni catalysts
4.1.3. Metallic glasses
4.1.4. Precipitation and co precipitation
4.1.5. Sol gel method
4.2. Supported catalysts
4.2.1. Supports impregnation
4.2.2. Thermal treatments
5. Zeolites
5.1. Synthesis
5.2. Caracterization
5.3. Shape selectivity
6. Physical and chemical characterization of catalysts
6.1. Chemical composition of catalysts
6.2. Nature and structure of chemical compounds
6.3. Textural properties
6.3.1. Adsorption isotherms
6.3.2. Isotherm of Brunauer-Emmett-Teller (BET)
6.3.3. Calculation of surface area
6.3.4. Calculation of pore volume, porosity and solid density
6.3.5. Pore size distribution
6.3.6. Porosimetry of mercury
6.3.7. Metallic phase characterization.
6.3.8. Temperature program reduction.
6.3.9. Temperature program desorption
6.4. Acidity of solid catalysts
6.4.1. Methods of titration
6.4.2. Infrared spectroscopy
6.4.3. Base adsorption followed by infrared spectroscopy.Temperature programmed desorption
6.4.4. Chemical reaction models
7. Catalysts deactivation
7.1. Solid phase change
7.2. Poisoning
7.3. Fouling
2. Laboratory classes
2.1. Ionic exchange of a zeolite NaY
2.2. Preparation and optimization of a carbon xerogel
2.3. Textural characterization of a silica -alumina and an activated carbon
2.4. Characterization by X Ray diffraction of catalysts supported on activates carbon

2.5 Catalyst Design

3. Solving problems sessions
3.1. Textural characterization solving problems
3.2. Discussion and treatment of the experimental data obtained in the lab classes(reports elaboration)
3.3. Visit to a portuguese Refinary(Petrogal, Sines)

Bibliography

Evaluation method

In order to go to exam, the students need to attend all the laboratory classes,all the solving problems classes and  design a  catalyst  for a specific  reaction. Using the experimental data obtained in the laboratory some problems are solved and discussed in the classes and a report need to be presented . In the final exam, there are some questions related with the laboratoy work.
 The final grade is 80% of the exam grade +20%design  of  catalyst (research).
The minimum grade to be suceed is 10 for exam and also 10 for seminar.

Courses

• Engenharia Química e Bioquímica