Recommended prerequisite for participation in
the module
The module is based on knowledge achieved when studying the 3rd
semester on the Master of Science in Energy Engineering with
specialisation in Fuel Cells and Hydrogen Technology or similar.
Content, progress and pedagogy of the
module
Learning objectives
Knowledge
- Have knowledge and comprehension within the area of fuel cells
and hydrogen technology at the highest international level
- Be able to critically judge knowledge and identify new
scientific problems within the area of fuel cells and hydrogen
technology
- Have comprehension for the implications within the research
work (research ethics)
Skills
- Be able to judge the usefulness of different scientific methods
and tools for analysis and problem solving within the field of fuel
cells and hydrogen technology
- Be able to use advanced laboratory set-ups, data analysis
methods and analysis and modelling methods within the field of fuel
cells and hydrogen technology
- Be able to communicate about scientific problems both to
specialists and the public
- Have obtained skills related to the industrial area within fuel
cells and hydrogen technology
Competences
- Be able to control complex/unexpected working and development
situations within fuel cells and hydrogen technology, and be able
to develop new solutions
- Be able to independently define and analyse scientific
problems, and based on that make and state the reasons for
decisions made
- Be able to independently continue own development in competence
and specialisation
- Be able to independently be the head of professional and
interdisciplinary development work and be able to undertake the
professional responsibility
Type of instruction
Problem based project oriented project work. The final project
may study new subjects or be an extension of the project work from
previous semesters. The subject matter will remain in the area of
fuel cells and hydrogen technology. The project may be of
theoretical or experimental nature, and will often be in
collaboration with an industrial company or other research
institution performing research in the area of fuel cells and
hydrogen technology.
Extent and expected workload
Since it is a 30 ECTS project module, the work load is expected
to be 900 hours for the student
Exam
Exams
Name of exam | Master’s Thesis |
Type of exam | Oral exam based on a project |
ECTS | 30 |
Assessment | 7-point grading scale |
Type of grading | External examination |
Criteria of assessment | The criteria of assessment are stated in the Examination
Policies and Procedures |