Summary
The steady growth of global air traffic passenger demand requires the air transport industry to work even harder to improve the associated levels of safety, efficiency, and environmental performances of aircrafts. As such, the transient to more electrified aircraft systems is strongly encouraged throughout the complete aircraft operational behaviour, including on-ground operations. Indeed, on-ground operations are still mostly engine based, the main engines designed for flight phases at high power levels are thus used as well as power source to move the aircraft on ground. This induces major economic and environmental losses: currently, fuel consumption from taxi operations is estimated to cost 6,4billion€ and to reach 18M metric tons of CO2 emission per year. To reduce unnecessary fuel burn and their related emissions, a technological alternative has already been identified: Electric Taxiing System (e-Taxiing) . However, some technical bottlenecks, as the one dealing with the solution storage energy capacity, have still to be overcome before enabling those system to be used by all existing and future commercial aircrafts. SUNSET will target this specific technical challenge proposing a high performances energy storage module development connected to the future e-Taxiing system. The SUNSET technology will also address the related challenge of mass reduction by providing a high-density energy recovery capability (30Wh/kg) to perform aircraft electrical decelerations while also minimizing cooling and weight. SUNSET partners, Centum Adeneo and Ampère Laboratory (UCBL) are part of the European recognised air industry value chain and will as such be involved in both development of the SUNSET solution with their Topic Manager support for its integration in the e-Taxiing system. SUNSET project will therefore contribute to bring out an innovative solution enabling a winning differentiator for European aircraft manufacturers.
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| Web resources: | https://cordis.europa.eu/project/id/785585 |
| Start date: | 01-03-2018 |
| End date: | 30-11-2021 |
| Total budget - Public funding: | 1 088 600,00 Euro - 800 663,00 Euro |
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Original description
The steady growth of global air traffic passenger demand requires the air transport industry to work even harder to improve the associated levels of safety, efficiency, and environmental performances of aircrafts. As such, the transient to more electrified aircraft systems is strongly encouraged throughout the complete aircraft operational behaviour, including on-ground operations. Indeed, on-ground operations are still mostly engine based, the main engines designed for flight phases at high power levels are thus used as well as power source to move the aircraft on ground. This induces major economic and environmental losses: currently, fuel consumption from taxi operations is estimated to cost 6,4billion€ and to reach 18M metric tons of CO2 emission per year. To reduce unnecessary fuel burn and their related emissions, a technological alternative has already been identified: Electric Taxiing System (e-Taxiing) . However, some technical bottlenecks, as the one dealing with the solution storage energy capacity, have still to be overcome before enabling those system to be used by all existing and future commercial aircrafts. SUNSET will target this specific technical challenge proposing a high performances energy storage module development connected to the future e-Taxiing system. The SUNSET technology will also address the related challenge of mass reduction by providing a high-density energy recovery capability (30Wh/kg) to perform aircraft electrical decelerations while also minimizing cooling and weight. SUNSET partners, Centum Adeneo and Ampère Laboratory (UCBL) are part of the European recognised air industry value chain and will as such be involved in both development of the SUNSET solution with their Topic Manager support for its integration in the e-Taxiing system. SUNSET project will therefore contribute to bring out an innovative solution enabling a winning differentiator for European aircraft manufacturers.Status
CLOSEDCall topic
JTI-CS2-2017-CFP06-SYS-02-29Update Date
27-10-2022
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