529-0617-01L  Catalysis Engineering

SemesterAutumn Semester 2019
LecturersJ. Pérez-Ramírez, S. J. Mitchell
Periodicityyearly recurring course
Language of instructionEnglish
CommentIMPORTANT NOTICE for Chemical and Bioengineering students: There are two different version of this course for the two regulations (2005/2018), please make sure to register for the correct version according to the regulations you are enrolled in. Please do not register for this course if you are enrolled in regulations 2005.


AbstractThe purpose of the "Catalysis Engineering" course is to provide students with tools that enable the optimal design of catalytic materials and reactor engineering concepts favoring more sustainable manufacturing processes within the chemical industry.
ObjectiveThe course aims at illustrating, from conception to implementation, the design of sustainable catalytic processes by integration of the microlevel (catalyst), mesolevel (reactor), and macrolevel (process). The word "sustainable" implies intensified processes with an improved exploitation of raw materials, wider use of renewable feedstocks, reduction of energy consumption, and minimized environmental impact. By the use of modern case studies of industrial relevance, aspects of catalyst preparation and characterization, kinetics, mass and heat transport, and deactivation are discussed. Emphasis is put on understanding the interaction among these basic elements in order to select the optimal catalytic process. Since no textbooks covering this area are available at this time and the intention of this course is unique, the lectures will be based on own texts and journal articles. During the course, there will be specific topics addressed by industrial contributors.
ContentThe following general aspects:

- Catalyst preparation and characterization
- Kinetics
- Mass and heat transport
- Selectivity
- Deactivation

will be demonstrated for modern catalytic materials and processes of industrial relevance such as:

- Chlorine recycling
- N2O abatement
- Chemoselective hydrogenations
- Hierarchical zeolite catalysts
- Syngas conversion
- Biomass to chemicals and fuels
Lecture notesThe course material is based on an own script, journal articles, and slides.
Prerequisites / NoticeIt is assumed that students selecting this course are familiar with general concepts of catalysis, reactor design, and transport phenomena.