Fuselage, Rear Fuselage and Empennage with Cabin and Cargo Architecture Solution validation and Technologies for H2 integration

Climate, Energy & MobilityHORIZON-JU-IAID: 101101978
EC Contribution
€233,224
Consortium Size
36 orgs
Start Year
2023
Summary

The FASTER-H2 project will validate, down select, mature and demonstrate key technologies and provide the architectural integration of an ultra-efficient and hydrogen enabled integrated airframe for targeted ultra-efficient Short/Medium Range aircraft (SMR), i.e. 150-250 PAX and 1000-2000nm range. To enable climate-neutral flight, aircraft for short and medium-range distances have to rely on ultra-efficient thermal energy-based propulsion technologies using sustainable drop-in and non-drop-in fuels. Besides propulsion, the integration aspects of the fuel tanks and distribution system as well as sustainable materials for the fuselage, empennage are essential to meet an overarching climate-neutrality of the aviation sector. Green propulsion and fuel technologies will have a major impact on the full fuselage, including the rear fuselage, the empennage structure as well as cabin and cargo architecture in so far as the integration of storage and the integration of systems for the chosen energy source are concerned (H2, direct burn, fuel cell). Not only do the specific properties of hydrogen necessitate a re-consideration of typical aircraft configurations, requiring new design principles formulation and fundamental validation exercises, but they also raise a large number of important follow-on questions relating to hydrogen distribution under realistic operational constraints and safety aspects. The project will explore and exploit advanced production technologies for the integrated fuselage / empennage to reduce production waste and increase material and energy exploitation with Integrated Fuselage concept selected (maturity TRL3/4) until end of first phase in 2025. An anticipated route to TRL6 until end of the Clean Aviation programme in 2030 will ensure entry-into-service in 2035.

Consortium (36)

🇩🇪 AIRBUS OPERATIONS GMBHDE
coordinator
🇪🇸 ACITURRI ENGINEERING SLES
partner
🇪🇸 AERNNOVA AEROSPACE SAES
partner
🇪🇸 AERNNOVA COMPOSITES ILLESCAS SAES
partner
🇪🇸 AERNNOVA COMPOSITES SAES
partner
🇪🇸 AERNNOVA ENGINEERING DIVISION SAUES
partner
🇫🇷 AIRBUSFR
partner
🇫🇷 AIRBUS ATLANTICFR
partner
🇫🇷 AIRBUS OPERATIONS SASFR
partner
🇪🇸 AIRBUS OPERATIONS SLES
partner
🇩🇪 ALBANY ENGINEERED COMPOSITES GMBHDE
partner
🇪🇸 ALESTIS AEROSPACE SLES
partner
🇫🇷 BOOSTAEROSPACEFR
partner
🇮🇹 C.I.R.A. CENTRO ITALIANO RICERCHE AEROSPAZIALI SCPAIT
partner
DANMARKS TEKNISKE UNIVERSITET
partner
🇩🇪 DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EVDE
partner
🇧🇪 ECONCORE NVBE
partner
🇩🇪 ESPLORO PROJECTS GMBHDE
partner
🇩🇪 FRAUNHOFER GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG EVDE
partner
🇪🇸 FUNDACION CENTRO DE TECNOLOGIAS AERONAUTICASES
partner
🇪🇸 FUNDACION GAIKERES
partner
🇪🇸 FUNDACION PARA LA INVESTIGACION, DESARROLLO Y APLICACION DE MATERIALES COMPUESTOSES
partner
🇨🇿 HONEYWELL INTERNATIONAL SROCZ
partner
🇪🇸 INSTITUTO NACIONAL DE TECNICA AEROESPACIAL ESTEBAN TERRADASES
partner
🇫🇷 IRT ANTOINE DE SAINT EXUPERYFR
partner
🇮🇹 LEONARDO - SOCIETA PER AZIONIIT
partner
🇪🇸 LGAI TECHNOLOGICAL CENTER SAES
partner
🇫🇷 OFFICE NATIONAL D'ETUDES ET DE RECHERCHES AEROSPATIALESFR
partner
🇳🇱 OPTICS11 BVNL
partner
🇬🇷 PANEPISTIMIO PATRONGR
partner
🇪🇸 SOGECLAIR AEROSPACE SOCIEDAD ANONIMAES
partner
🇳🇱 STICHTING KONINKLIJK NEDERLANDS LUCHT - EN RUIMTEVAARTCENTRUMNL
partner
🇩🇪 TECHNISCHE UNIVERSITAET BRAUNSCHWEIGDE
partner
🇩🇪 TECHNISCHE UNIVERSITAT HAMBURGDE
partner
TECHNISCHE UNIVERSITEIT DELFT
partner
🇪🇸 UNIVERSIDAD CARLOS III DE MADRIDES
partner