ZeroAvia awarded UK Government grant to develop liquid hydrogen fuel system
Image courtesy ZeroAvia
The project, co-funded through the Aerospace Technology Institute (ATI) Programme, will culminate in integration of the lightweight fuel system into a Dornier 228 before a series of flight tests.
The Liquid Hydrogen System Integration & Flight Test (LH-SIFT) project will rapidly develop a Liquid Hydrogen Management System (LHMS) and create an adaptable flight testbed capability. The testbed capability will benefit UK and global LH2 supply chains in maturing liquid hydrogen technologies faster.
The LH2 management system developed as part of LH-SIFT is comprised of a novel lightweight metallic tank design and supporting systems for filling and managing storage and distribution. Consortium partners Green Resource Engineering and Gas & Liquid Controls will collaborate with ZeroAvia on fill, feed, vent and vaporiser systems.
The project will also establish the world’s first liquid hydrogen flying commercial airframe testbed, providing unique opportunities for later projects to develop and test cryogenic aviation fuel system components in flight, building strong UK leadership in this area.
ZeroAvia is advancing certification of a 600kW hydrogen-electric powertrain for 10-20 seat planes using gaseous hydrogen fuel. However, the company is also developing the next generation of fuel cell aircraft engines with its ZA2000 for 40-80 seat aircraft, and supporting other high-power use cases through its component offering. To support these aircraft’s typical missions, it is necessary to transition to liquid hydrogen fuel storage - storing fuel at cryogenic temperatures around -253°C - which enables more energy by volume. In addition to fueling larger aircraft platforms, smaller zero-emissions aircraft can also benefit from using liquid hydrogen to extend their capability.
James McMicking, Chief Strategy Officer, ZeroAvia, said: “Liquid hydrogen is needed to achieve the volumetric and gravimetric energy density required by larger zero-emission aircraft that no other solution offers. This project will drive further evolution of liquid hydrogen technology and provide the capability to test and validate these in-flight and through refueling operations. It will help to unlock investment from the wider aerospace ecosystem that can scale zero-emission aircraft technology and the supporting hydrogen airport infrastructure. With UK capabilities at the heart of this project, it represents a great opportunity for the UK’s advanced manufacturing supply chain.”
UK Government Industry Minister Sarah Jones, speaking in reference to this project and other ATI investments announced today, said: “This government is backing aerospace. This investment will keep it at the forefront of innovation, not only delivering economic growth but boosting the charge to net zero 2030, two key pillars of our Plan for Change.
“This is the latest win for British aerospace in the run-up to the launch of our Industrial Strategy, which will turbocharge growth in our advanced manufacturing and defence sectors to take them to new heights, bringing new high-skilled jobs to every corner of the UK.”
Last month, ZeroAvia announced the establishment of its Hydrogen Centre of Excellence for manufacturing fuel cell systems at the Advanced Manufacturing Innovation District Scotland in Glasgow. The LH-SIFT project will bolster the expertise ZeroAvia has established at its main UK base in Gloucestershire around liquid hydrogen fuel management.
