Tech
First A319neo flight with 100% sustainable aviation fuel
Toulouse, 29 October 2021 – Airbus, Dassault Aviation, ONERA, the French Ministry of Transports and Safran have launched the first in-flight study of a single-aisle aircraft running on unblended sustainable aviation fuel (SAF).
During the flight test over the Toulouse region on 28 October, one CFM LEAP-1A engine of an Airbus A319neo test aircraft operated on 100% SAF. Initial results from the ground and flight tests are expected in 2022.
The unblended SAF is provided by Total Energies. It is made from Hydroprocessed Esters and Fatty Acids (HEFA), which primarily consists of used cooking oil, as well as other waste fats. HEFA is made of paraffinic hydrocarbons and is free of aromatics and sulfur. Approximately 57 tonnes of SAF will be used for the entire test campaign. It is produced in Normandy close to Le Havre, France. The 100% SAF will also be utilised for compatibility and engine operability studies on the Safran Helicopters Arrano engine used on the Airbus Helicopters H160, which are expected to start in 2022.
Airbus, in collaboration with DLR, is responsible for characterising and analysing the impact of 100% SAF on ground and in-flight emissions. Safran focuses on compatibility studies related to the fuel system and engine adaptation for commercial and helicopter aircraft and their optimisation for various types of 100% SAF fuels. Safran will perform LEAP engine ground tests with 100% SAF at its Villaroche facilities later this year to complete analysis. ONERA is supporting Airbus and Safran in analysing the compatibility of the fuel with aircraft systems and will be in charge of preparing, analysing and interpreting test results for the impact of 100% SAF on emissions and contrail formation. Dassault Aviation is contributing to the material and equipment compatibility studies and verifying 100% SAF biocontamination susceptibility.
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The study – known as VOLCAN (VOL avec Carburants Alternatifs Nouveaux) – contributes to global decarbonisation efforts currently underway across the entire aeronautical industry, and is benefiting from a financing of the France Relance recovery plan, the part thereof dedicated to the decarbonisation of aviation, which is implemented by DGAC under the supervision of Jean-Baptiste Djebbari, French Minister of Transports. The study’s ultimate goal is to promote the large-scale deployment and use of SAF, and certification of 100% SAF for use in single-aisle commercial aircraft and the new generation of business jets.
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@Airbus @Dassault_OnAir @onera_fr @SAFRAN
Tech
Scientists Create Drone with Fiber Optic “Nervous System” for Smarter Flight
Technology is advancing rapidly, with scientists constantly pushing boundaries. Now, researchers from Southampton have developed a unique drone equipped with its own “nervous system.”
This breakthrough allows the drone to process information and respond to its surroundings more like a living creature, making it faster and more adaptable than ever before.
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Scientists at the University of Southampton have pioneered a groundbreaking development in drone technology by equipping a drone with its very own “nervous system.” This innovative system, made of fiber optics, enables the drone to function with greater autonomy and efficiency.
Unlike traditional drones, this technology allows the drone to operate for longer periods without needing frequent stops for manual inspections, drastically improving its operational capabilities.
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Developed by Dr. Chris Holmes and Dr. Martynas Beresna from Southampton’s Optoelectronics Research Centre, the drone’s “nervous system” works by using optical fibers to monitor its condition in real-time.
These fibers detect stress and potential faults, sending data back to the ground team, allowing them to spot issues without interrupting the drone’s flight. The system uses a process called optical speckle, which projects images to assess the drone’s status, all while being supported by AI algorithms that interpret these signals for the ground crew.
Initially designed to deliver life-saving equipment like defibrillators in emergencies, this technology has shown promise in enhancing the drone’s longevity and reducing the need for extensive ground crew involvement.
This is especially crucial as the drone industry is projected to contribute up to £45 billion to the global economy by 2030, particularly in sectors like logistics and transportation. The University of Southampton’s team believes that the new system will revolutionize drone operations, making them more reliable, safer, and cost-effective for commercial use.
The technology, which has already been successfully tested on a drone developed by university undergraduates, is set to be commercialized by 2025, with the university’s Future Worlds acceleration programme providing vital support for its development.
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