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SOLIFLY - Semi-SOlid-state LI-ion batteries FunctionalLY integrated in composite structures

Obiettivo

Development of multifunctional structural components with integrated semi-solid state batteries for composite aeronautical applications, thus making structural batteries a viable technology for the next generation of Hybrid Electric Aircraft (HEA).


Attività nel progetto CIRA

CIRA, as leader of WP1 (End-user requirements and specifications - WP1 workshop), is responsible for establishing, maintaining, and moderating a discussion platform, between the SOLIFLY consortium and the members of the Advisory Board (Piaggio Aero, Pipistrel, FACC, Airbus, Dassault, etc.), by identifying the requirements for structural batteries for composite aeronautic applications from the perspective of the airframe integrator, in order to ensure their effective applicability in the HEA concept.

In WP4 CIRA is responsible of the analysis of the scalability process, at aircraft level, of the structural battery module and in the definition of the technological roadmap.​



Programma

​Horizon 2020 / Clean Sky 2. Grant Agreement (GA) No: 101007577

  • data inizio: Thursday, January 21, 2021
  • durata: 36.00
Wednesday, March 10, 2021
223
Wednesday, March 10, 2021
SOLIFLY
Aeronautics - Technology Integration and Flight Demostrators
High Power density / multifunctional electrical storage solutions for aeronautic applications.

 

 

SOLIFLY - Semi-SOlid-state LI-ion batteries FunctionalLY integrated in composite structures<img alt="" src="https://www.cira.it/PublishingImages/SOLIFLY.jpg" style="BORDER:0px solid;" />https://www.cira.it/en/aeronautics/aeronautical-propellers/solifly/SOLIFLY - Semi-SOlid-state LI-ion batteries FunctionalLY integrated in composite structuresSOLIFLY - Semi-SOlid-state LI-ion batteries FunctionalLY integrated in composite structures<p style="text-align:justify;">Development of multifunctional structural components with integrated semi-solid state batteries for composite aeronautical applications, thus making structural batteries a viable technology for the next generation of Hybrid Electric Aircraft (HEA).</p><p><br></p><p>​Horizon 2020 / Clean Sky 2. Grant Agreement (GA) No: 101007577<br><br></p><p style="text-align:justify;">CIRA, as leader of WP1 (End-user requirements and specifications - WP1 workshop), is responsible for establishing, maintaining, and moderating a discussion platform, between the SOLIFLY consortium and the members of the Advisory Board (Piaggio Aero, Pipistrel, FACC, Airbus, Dassault, etc.), by identifying the requirements for structural batteries for composite aeronautic applications from the perspective of the airframe integrator, in order to ensure their effective applicability in the HEA concept. </p><p style="text-align:justify;">In WP4 CIRA is responsible of the analysis of the scalability process, at aircraft level, of the structural battery module and in the definition of the technological roadmap.​<br></p><p style="text-align:justify;"><br></p><p><br></p>2021-01-20T23:00:00Z36.0000000000000

 Media gallery

 

 

 Activities

 

 

Research for Climate-Friendly Aviation<img alt="" src="https://www.cira.it/PublishingImages/SOLIFLY.jpg" style="BORDER:0px solid;" />https://www.cira.it/en/aeronautics/aeronautical-propellers/solifly/research-for-climate-friendly-aviation/Research for Climate-Friendly AviationResearch for Climate-Friendly AviationThe research project SOLIFLY (Semi-SOlid-state LI-ion Batteries FunctionalLY Integrated in Composite Structures for Next Generation Hybrid Electric Airliners) has recently been launched. 2021-03-10T23:00:00Z
SOLIFLY project, two days of discussion with industry on the use of the structural batteries <img alt="" src="https://www.cira.it/PublishingImages/Evento%20presentazione%20risultati%20SOLIFLY.jpeg" style="BORDER:0px solid;" />https://www.cira.it/en/aeronautics/aeronautical-propellers/solifly/progetto-solifly-due-giornate-di-confronto-con-le-realtà-industriali-per-l’impiego-delle-batterie-strutturali/SOLIFLY project, two days of discussion with industry on the use of the structural batteriesSOLIFLY project, two days of discussion with industry on the use of the structural batteries On 20 and 21 November, the results of the SOLIFLY (Semi-SOlid-state LI-ion batteries FunctionalLY integrated in composite structures for next generation hybrid electric airliner) project were presented at the Conference Centre of the Federico II University in Naples2023-12-03T23:00:00Z