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Cryogenic hydrogen-electric propulsion project launches

Posted on 13 Aug 2024. Edited by: John Hunter. Read 558 times.
Cryogenic hydrogen-electric propulsion project launchesThe University of Nottingham has kicked-off a £5.3 million programme of research to support the development, manufacture and test of a revolutionary cryogenic hydrogen-electric propulsion system. This is part of a pioneering £44 million project led by GKN Aerospace, partnered with Parker Meggitt and the Universities of Manchester and Nottingham, supported by the Government through the www.ati.org.uk Aerospace Technology Institute (ATI) programme which invests in civil aerospace research and is delivered in partnership by the Aerospace Technology Institute, the Department for Business and Trade and Innovate UK.

The H2FlyGHT collaborative initiative will develop a 2MW cryogenic hydrogen-electric propulsion system, setting new standards for the future generation of larger sustainable aircraft. The project will demonstrate an integrated propulsion system at the 2MW scale including fuel cell power generation, cryogenic power distribution, and advanced cryogenic drive systems.

At the University of Nottingham, the Power Electronics, Machines and Control (PEMC) research group, which hosts one of the Driving the Electric Revolution Industrialisation Centres (DER-IC), will support the full motor design and scale-up and cryogenic inverter technology development, essential for developing high-power, efficient propulsion systems. This will be one of the first programmes to use the university’s new hydrogen propulsion systems facility, enabled by the recently announced £70 million secured from Research England and industry co-investment to establish open-access research facilities and programmes to decarbonise future transport.

Engineers at the university will deliver this research at a new hydrogen propulsion systems facility on campus. It will feature a cryogenics lab for low temperature loops to increase electrical system efficiencies, a systems integration lab, and an altitude environment chamber capable of testing a megawatt fuel cell together with battery and electrical motor systems. They will be connected to a digital twinning laboratory for optimising design and operational performance.

The facility is situated next to and harnesses the high-power, 20MW-plus testing capabilities of the world-leading Power Electronics and Machines Centre (PEMC), home to one of the world’s largest groups of electrification researchers. It also builds on the university’s manufacturing facilities that provide a clear route to market for new electrical machines, including at the new Zero Carbon Innovation Centre funded by www.emfreeport.com East Midlands Freeport.

Chris Gerada, Professor of Electrical Machines and lead for strategic research and innovation initiatives at the University of Nottingham, said: “The vision of ‘net zero’ air travel is within our sights. However, to get there we must push the limits of what is technically possible. Thanks to our new propulsion research infrastructure on campus, industry can co-locate, research, prototype, test, automate and manufacture the new solutions they need to future-proof their business. As a result, we can accelerate the economic prosperity of the East Midlands, the home of green industries and advanced manufacturing.”