Description du projet
Remplacer la batterie d’extinction d’incendie au Halon
Le Halon 1301 est un agent extincteur très efficace. Cependant, il s’agit également d’une substance nocive qui sera bannie d’ici 2040. Le secteur aérospatial a donc besoin de solutions d’extinction d’incendie innovantes, légères et plus respectueuses de l’environnement. Le projet O2FREE, financé par l’UE, démontrera la faisabilité de la technologie Al-air comme solution d’extinction d’incendie dans l’aéronautique. Il fournira une technologie légère, sûre et fiable, exempte de matières premières critiques. Concrètement, il proposera le développement d’une solution innovante et légère pour l’extinction des incendies, basée sur la technologie primaire de la batterie Al-air. Les résultats contribueront directement à la compétitivité de l’UE dans le domaine des systèmes et technologies aéronautiques.
Objectif
Today, most aircraft still use Halon-based fire suppression systems for cargo compartment inertisation following a fire event. Halon 1301 is a very effective fire extinguishing agent. However, it is also a harmful substance with high ozone depletion potential. The use of halon for critical applications including aviation is being phased out, and will be completely banned by 2040 as set out in the Montreal Protocol. There is a need for innovative, lightweight and more environmentally-friendly fire suppression solutions for the aerospace sector.
O2FREE proposes the development of an innovative and lightweight solution for fire suppression based on primary Al-air battery technology. Metal-air batteries consume oxygen during discharge and thus have the capability to suppress fires in closed compartments such as aircraft cargo bays by reducing oxygen concentration. O2FREE will demonstrate the feasibility of such technology. Battery gravimetric power capacity is considered the critical factor for reaching high oxygen absorption capability. O2FREE proposes the development of Al alloys (anode) and nanofibers with optimum porosity (cathode) to enhance Al-air cell power capability. Moreover, 1S12P module configuration will be developed to maximize power output of the battery module and thereby oxygen absorption rate per kg of battery.
Battery prototypes containing single battery modules will be developed for testing and validation. Modules will be placed in aluminium casings designed for protection and to allow air to reach cells, meeting the standards of aeronautics sector including RTCA DO160 Rev G.
O2FREE will demonstrate the feasibility of Al-air technology as a fire suppression solution for aeronautics; delivering a lightweight, safe and reliable technology free of critical raw materials. Results will directly contribute to EU competitiveness in aircraft systems and technologies.
Champ scientifique
- natural scienceschemical scienceselectrochemistryelectric batteries
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineeringaircraft
- engineering and technologyenvironmental engineeringmining and mineral processing
- natural sciencesearth and related environmental sciencesenvironmental sciencesozone depletion
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineeringaeronautical engineering
Programme(s)
Régime de financement
RIA - Research and Innovation actionCoordinateur
08225 Terrassa
Espagne