Course: Power2Hydrogen credits: 5
- Course code
- ZWVH19P2U
- Name
- Power2Hydrogen
- Study year
- 2022-2023
- ECTS credits
- 5
- Language
- English
- Coordinator
- A. Perl
- Modes of delivery
-
- Education
- Assessments
-
- Assignment 1 - Assignment
- Assignment 2 - Assignment
Learning outcomes
By completing the module the student demonstrates knowledge and understanding of:
E2.2.a.1 theoretical constructs and scientific frameworks relevant to power-to-hydrogen
E2.2.a.2 main sources of energy dissipation in electrolysers and fuel cells
E2.2.b.1 power-to-hydrogen value chains for mobility
And is able to:
E2.1.c.1 design scientific experiments to analyse the performance of electrolysers
E2.3.e.1 define and measure the energy efficiency of electrolysers
E1.1.c.1 archive and communicate effectively experimental results
E2.2.a.1 theoretical constructs and scientific frameworks relevant to power-to-hydrogen
E2.2.a.2 main sources of energy dissipation in electrolysers and fuel cells
E2.2.b.1 power-to-hydrogen value chains for mobility
And is able to:
E2.1.c.1 design scientific experiments to analyse the performance of electrolysers
E2.3.e.1 define and measure the energy efficiency of electrolysers
E1.1.c.1 archive and communicate effectively experimental results
Content
Theory (3 EC):
Experiments (2 EC):
- Electrochemistry basics
- Electrochemical storage - overview on electrochemical storage, including fundamentals of batteries and fuel cells. Limits and applications
- Electrolysis: theory and electrolyser design
- Fuel cells: theory and design
Experiments (2 EC):
- Electrolyser and fuel cell measurements
Included in programme(s)
School(s)
- Institute of Engineering