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Life cycle sustainability assessment of potential battery systems for electric aircraft

Alexander Barke, Christian Thies, Jan‐Linus Popien, Sofia Pinheiro Melo, Felipe Cerdas, Christoph Herrmann, Thomas Spengler

2021Procedia CIRP32 citationsDOIOpen Access PDF

Abstract

The Flightpath 2050 strategy sets ambitious goals for aviation to reduce its environmental impacts. Therefore, new propulsion concepts that avoid in-flight emissions are being developed. Particular attention is given to (hybrid) electric propulsion systems based on batteries, fuel cells, and synthetic fuels that replace the conventional jet engines. This paper assesses the environmental, economic, and social impacts of eight potential battery systems for short-range aircraft from a life cycle perspective and conducts a pre-selection of suitable technologies. The results indicate that lithium-sulfur batteries are advantageous compared to lithium-ion batteries in terms of environmental as well as social and economic impacts.

Topics & Concepts

PropulsionBattery (electricity)AviationSustainabilityEngineeringJet fuelElectrically powered spacecraft propulsionBattery electric vehicleRange (aeronautics)Life-cycle assessmentEnvironmental impact assessmentEnvironmental economicsAutomotive engineeringAeronauticsAerospace engineeringEconomicsPhysicsProduction (economics)EcologyBiologyMacroeconomicsPower (physics)Quantum mechanicsAdvanced Battery Technologies ResearchElectric Vehicles and InfrastructureAdvancements in Battery Materials
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