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Multifunctional design, feasibility and requirements for structural power composites in future electric air taxis

Aneesa Ishfaq, Sang Nguyen, Emile S. Greenhalgh, Milo SP Shaffer, Anthony Kucernak, E. Leif, Dan Zenkert, Peter Linde

2022Journal of Composite Materials37 citationsDOIOpen Access PDF

Abstract

This study investigates the viability of implementing multifunctional structural power composites in a four-seater air taxi, the CityAirbus. For a given specific energy of the power source, the cruise endurance can be approximately doubled by using structural power composites as opposed to conventional batteries. Replacing all the eligible composite mass and batteries with structural power composites can reduce the CityAirbus weight by 25%. To achieve the current design performance, the minimum required elastic modulus, strength, specific energy and power for the structural power composite are 54 GPa, 203 MPa, 74 Wh/kg and 376 W/kg, respectively: current state-of-the-art structural power composites are now approaching this level of performance. Hence, structural power composites are considered feasible for adoption in the urban air mobility sector and have the potential to improve endurance and facilitate commercialization. This paper also discusses several key challenges that must be addressed to realize the adoption of structural power composites in future electric air taxis.

Topics & Concepts

Materials scienceStructural materialComposite materialTaxisComposite numberPower (physics)Electric powerAutomotive engineeringEngineeringPhysicsQuantum mechanicsTransport engineeringAdvanced Battery Technologies ResearchElectric Vehicles and InfrastructureAdvanced Aircraft Design and Technologies
Multifunctional design, feasibility and requirements for structural power composites in future electric air taxis | Litcius