Modelling and performance evaluation of sustainable arresting gear energy recovery system for commercial aircraft
Date published
2022-11-21
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Publisher
Taylor & Francis
Department
Type
Article
ISSN
1543-5075
Format
Citation
Deja J, Dayyani I, Skote M. (2023) Modelling and performance evaluation of sustainable arresting gear energy recovery system for commercial aircraft, International Journal of Green Energy, Volume 20, Issue 10, 2023, pp. 1086-1100
Abstract
A significant amount of kinetic energy is dissipated during each commercial aircraft landing. To improve energy efficiency and environmental sustainability, the kinetic energy can instead be converted to electricity by utilizing the arresting gear systems. This paper presents a novel design that couples an arresting gear system to electrical generators. The results show that the system can successfully recover aircraft kinetic energy and is applicable to different aircraft sizes ranging from Airbus A319 up to A380. Beyond system performance, wider context technical aspects including system integration into grid with multiple energy storage possibilities, safety and passenger comfort are discussed.
Description
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Github
Keywords
commercial aircraft, kinetic energy recovery, arresting gear, landing phase
DOI
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Attribution 4.0 International
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Funder/s
Engineering and Physical Sciences Research Council (EPSRC): 2517982.
Airbus Operations Ltd.