Course Objectives• Introduce the student to basic concepts in cryogenicsystems.• Introduce the student to basic hardware used incryogenic systems and what the function of thehardware is (i.e. why do you need that).• Introduce the student to what may be experiencedduring testing of cryogenic systems and what types ofmeasurements and instrumentation may be desired,needed, or required.• Introduce the student to various methods of modelingand analysis of cryogenic systems includingstrengths and weaknesses of various tools.

Hydrogen is not more dangerous than current fossil energy carriers, but it behaves differently. Therefore hydrogen specific analyses and countermeasures will be needed to support the development of safe hydrogen technologies. A systematic step-by-step procedure for the mechanistic analysis of hydrogen behaviour and mitigation in accidents is presented.

The broad use of hydrogen as an energy carrier to tackle the issue of climate change is unavoidable. The emerging hydrogen economy poses new problems to be solved to ensure a level of safety in hydrogen technologies and infrastructure comparable to that for today’s fossil fuels. The pressure of onboard hydrogen storage in early-market