Catalysis for Energy Conversion (PET615)
This course will provide a comprehensive overview of heterogeneous catalytic science and technology for energy conversion applications, including gas conversion, oil refining and clean energy production. Emphasis will be placed on understanding the design and properties of hierarchical nanostructures that are applied in advanced catalytic energy conversion. This course will also provide the engineering students with necessary background for understanding various nanomaterials preparation and characterization techniques.
Course description for study year 2024-2025. Please note that changes may occur.
Course code
PET615
Version
1
Credits (ECTS)
10
Semester tution start
Spring
Number of semesters
1
Exam semester
Spring
Language of instruction
English
Content
NB! This is an elective course and may be cancelled if fewer than 10 students are enrolled by January 20th for the spring semester.
- Chemical reaction engineering: thermodynamics, chemical equilibrium, chemical kinetics, reaction mechanism and rate laws, chemical reactor fundamentals
- Heterogeneous catalysis: importance of catalysis, adsorption, desorption, surface reaction, diffusion, rates and kinetics of catalytic reactions, deactivation
- Catalyst preparation and characterization: nanomaterials preparation methods, different characterization techniques
- Industrial use of natural gas: syngas technologies, gas to liquids, gas to chemicals, etc.
- Industrial oil refining: reforming, cracking, isomerization, desulphurization, etc.
- Clean energy production: H2 production, biogas production, environmental catalysis, etc.
- Group laboratory work on catalyst preparation and characterization, and group project work on practical catalytic energy conversion
Learning outcome
On completion, students should
- Understand the historic perspective and future developments of catalysis within the field of energy
- Be able to formulate reaction mechanisms for chemical reactions and to derive correlations between material properties and catalysis
- Understand various nanomaterial synthesis and catalyst characterization techniques
- Have a good understanding of the most common industrial reactors
- Have a deep understanding on a variety of industrial practices for oil refining and gas conversion, as well as renewable energy conversion techniques
- Come up with the approaches for literature review of their research background and apply the principles and techniques covered in the course to their own research project
- Be able to apply the covered theory to known industrial problems
Required prerequisite knowledge
Recommended prerequisites
Exam
Written exam and oral presentation
| Form of assessment | Weight | Duration | Marks | Aid |
|---|---|---|---|---|
| Written exam | 7/10 | 4 Hours | Letter grades | |
| Oral presentation | 3/10 | Letter grades |
The final grade will consist of two parts1. Written campus exam (70%): calculators will be allowed during the written exam. It is possible to re-take the written exam.2. Oral presentation (30%): This will be a group project work including a written report and oral presentation. It is not possible to re-evaluate the group project work grade, but you could re-take the group project work when the course is taught the next time.
Coursework requirements
Mandatory individual homework will need to be done to get access to the written exam.
Mandatory group laboratory work on catalyst preparation and characterization must be approved to get access to the written exam.
Course teacher(s)
Course coordinator:
Zhixin YuHead of Department:
Øystein ArildMethod of work
Open for
Petroleum Engineering - Master of Science Degree Programme, Petroleum Engineering - Master`s Degree programme in Petroleum Engineering, 5 years.
Students in Environmental Engineering, Chemical Engineering and Energy Engineering are also welcome to take the course.