Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/114408
Title: Kinetic energy recovery from a landing aircraft : evaluating onboard energy storage solutions
Authors: Camilleri, Robert
Batra, Aman
Bartolo, Lee Bugeja
Delavault, Alexis
Keywords: Airplanes -- Taxiing
Energy storage -- Technological innovations
Supercapacitors
Electric current converters
Energy storage -- Equipment and supplies
Flywheels -- Congresses
Issue Date: 2023
Citation: Camilleri, R., Batra, A., Bugeja Bartolo, L., Delavault, A. (2023). Kinetic energy recovery from a landing aircraft : Evaluating Onboard Energy Storage Solutions. 13th EASN International Conference, Italy. 1-12.
Abstract: This paper compares onboard Energy Storage Solutions (ESSs) for a Kinetic Energy Recovery System (KERS) from a landing aircraft. Energy is stored temporarily and reused so that it enables engine-less taxiing. This paper evaluates the choice of onboard Energy Storage Solutions (ESSs) (flywheels, batteries and supercapacitors) for recovering energy during the landing roll and storing it in the device. A design of an ESS with each of the three technologies was made, using commercially available products. The resulting devices are compared on the basis of weight, charging time, discharging time and complexity in retrofitting to existing systems. Results shows that while batteries have the highest energy density and will have the lowest weight, they are unable to charge/discharge quickly enough to satisfy this application. Conversely, supercapacitors have this ability but their low energy density make them heavy which in turn would offer penalty to the aircraft in flight. Flywheels emerge as the most interesting proposition due to their high energy density and fast charging ability, which satisfy the requirements for application.
URI: https://www.um.edu.mt/library/oar/handle/123456789/114408
Appears in Collections:Scholarly works - InsAT



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