| Learning Outcomes |
PO |
MME |
| The students who succeeded in this course: |
|
|
| LO-1 |
Competence in theoretical and practical analysis of hydrogen energy production, storage and conversion technologies is acquired. |
PO-1 Accesses information in depth and breadth by conducting scientific research in the field of engineering, evaluates, interprets and applies information.
PO-5 Is aware of new and developing applications of the profession; examines and learns them when necessary.
|
Examination
|
| LO-2 |
By evaluating the environmental and economic impacts of hydrogen energy systems, the ability to comment in the context of sustainability is developed. |
PO-6 Develops methods to solve defined technological problems and applies innovative methods in solutions.
|
Examination
|
| LO-3 |
By understanding the role of hydrogen in industrial and transportation applications, the ability to connect it to future energy systems is gained. |
PO-5 Is aware of new and developing applications of the profession; examines and learns them when necessary.
|
Examination
|
PO: Programme Outcomes
MME:Method of measurement & Evaluation |
| Course Contents |
| This course covers the basic principles of hydrogen energy technologies and systems, production, storage, transportation and application methods. The role of hydrogen in renewable energy systems, energy transformations and future potential are presented in theoretical and practical information. |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Introduction to Energy Systems |
Discussion Method, Lecture Method |
| 2 |
Fundamentals of Hydrogen Energy |
Discussion Method, Lecture Method |
| 3 |
Hydrogen production from fossil fuels |
Discussion Method, Lecture Method |
| 4 |
Hydrogen production from renewable energy sources |
Discussion Method, Lecture Method |
| 5 |
Physical storage methods: liquefaction and pressurized storage |
Discussion Method, Lecture Method |
| 6 |
Chemical storage |
Discussion Method, Lecture Method |
| 7 |
Transport and Distribution of Hydrogen |
Discussion Method, Lecture Method |
| 8 |
mid-term exam |
|
| 9 |
Conversion Technologies in Hydrogen Energy Systems |
Discussion Method, Lecture Method |
| 10 |
Fuel Cells and Their Applications |
Discussion Method, Lecture Method |
| 11 |
Hydrogen and Renewable Energy Integration |
Discussion Method, Lecture Method |
| 12 |
Industrial and Transportation Applications of Hydrogen |
Discussion Method, Lecture Method |
| 13 |
Economic and Environmental Impacts of Hydrogen |
Discussion Method, Lecture Method |
| 14 |
The impact of hydrogen on greenhouse gas emissions and climate change |
Discussion Method, Lecture Method |
| 15 |
Future Hydrogen Technologies |
Discussion Method, Lecture Method |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
"Hydrogen and Fuel Cells: Emerging Technologies and Applications" – Bent Sørensen, 2018 |
| 2 |
"Fuel Cell Systems Explained" – James Larminie & Andrew Dicks, 2003 |
| Required Course instruments and materials |
|
