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Last update: Paidar Martin doc. Ing. Ph.D. (08.11.2022)
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Last update: Paidar Martin doc. Ing. Ph.D. (08.11.2022)
Students will be able to: • Demonstrate knowledge related to hydrogen properties and hazards and ability to apply this knowledge to hydrogen safety engineering design, including compliance with regulations, codes and standards • Evaluate requirements for safety provisions by taking into consideration knowledge on hydrogen releases, ignition, jet fires and material properties • Illustrate mastery in analysing complex hydrogen safety problems both systematically and creatively, by integrating fundamental knowledge and engineering approaches from a variety of disciplines • Apply self-direction and originality in tackling and solving hydrogen safety problems at a professional or equivalent level. |
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Last update: Paidar Martin doc. Ing. Ph.D. (08.11.2022)
Fundamentals of Hydrogen Safety Engineering I https://bookboon.com/en/fundamentals-of-hydrogen-safety-engineering-i-ebook?mediaType=ebook
Fundamentals of Hydrogen Safety Engineering II https://bookboon.com/en/fundamentals-of-hydrogen-safety-engineering-ii-ebook
O’Hayre/Cha/Colella/Prinz: Fuel Cell Fundamentals (Wiley, 2009, 2nd ed., ISBN 978-0-470-25843-9)
e-learning |
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Last update: Paidar Martin doc. Ing. Ph.D. (08.11.2022)
1. Introduction to hydrogen safety 2. Hydrogen properties and hazards, comparison with other fuels 3. Regulations, Codes and Standards (RCS) and hydrogen safety engineering 4. Unignited releases 5. Ignition of hydrogen mixtures 6. Microflames 7. Jet fires - Part 1 8. Jet fires - Part 2 9. Hydrogen permeation 10. Compatibility of metallic materials with hydrogen 11. Materials for hydrogen technologies 12. Case studies |
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Last update: Paidar Martin doc. Ing. Ph.D. (08.11.2022)
Completing a course is written exam. The requirement for an exam is a graduation test calculation and a project to advance the topic. |