By establishing a dedicated and highly agile organizational set-up, the partners aim to accelerate technology development, design, testing and certification of a revolutionary propulsion system for aviation based on a hydrogen fuel cell. The new entity will be supported by Airbus and MTU with all their competences and through various engineering and manufacturing teams from both organisations.
This non-binding agreement is subject to standard regulatory approvals and the completion of social processes at European and national levels. The new joint venture is expected to start operations in 2027.
“Our planned joint venture is the next logical step in our shared vision of a hydrogen-based propulsion concept for aviation,” said Bruno Fichefeux, Head of Future Programmes at Airbus. “By pooling our respective technology and expertise into a dedicated entity, we are establishing a European powerhouse capable of transforming advanced research into industrialized, certifiable electric propulsion systems. This new company will help secure strategic sovereignty in the next generation of aviation technologies while strengthening our ability to achieve the long-term ZEROe ambition."
“Our ambitious goal is to pave the way for a newly developed, safe, reliable and economical propulsion system that will contribute to climate-neutral aviation,” said Dr. Stefan Weber, SVP Engineering and Technology at MTU Aero Engines. “This project is a crucial milestone on our path to the first hydrogen-powered engine – and this is true European technology leadership. To that end, we want to create a company that covers the entire life cycle of fuel cell powertrains – from development and testing through certification to commercialization.”
Hydrogen has the potential to play a crucial role in substantially reducing the climate impact of aviation in the long term and transforming air transport in a way comparable to the impact of electric vehicles in the automotive sector.
The joint venture is driven by the partners’ shared ambition to create the technology leader in this field and provide the first hydrogen--based fuel cell propulsion system to a commercial aircraft. It will combine Airbus’ extensive commercial aircraft programme knowledge, significant fuel cell propulsion and liquid hydrogen expertise with MTU’s multi-year fuel cell technology development and its recognised engine design, integration, validation and certification as well as maintenance expertise.
Beyond the engine technologies, Airbus and MTU will continue to foster the emergence of a hydrogen aviation economy and the associated regulatory framework, which are also critical enablers to the advent of hydrogen-powered flight at scale.
