Aircraft classification for efficient modelling of environmental noise impact of aviation
Aircraft classification for efficient modelling of environmental noise impact of aviation
With the environmental externalities of civil aviation under unprecedented scrutiny, and with the projected significant increase in air traffic demand over the next few decades, fleet-level studies are required to assess the potential benefit of novel aircraft technologies and operational procedures for minimising environmental impact of aviation. Using a statistical classification process, the UK commercial aircraft fleet is reduced to four representative-in-class aircraft on
the basis of aircraft physical characteristics, and aircraft noise and engine exhaust emissions. These four representative aircraft, that appropriately capture the noise and emissions characteristics for each category within the UK commercial fleet, are also selected to be used as baseline cases for the high-level assessment of the environmental benefit of novel aircraft technologies. For the particular case of aviation noise, the modelling tools are highly sensitive
to the number of aircraft types in the flight schedule. A reduction of about 80% in computational time with relatively minor decrease in accuracy (between -4% and +5%) is observed when the whole aircraft fleet is replaced with the four representative-in-class aircraft for computing noise contours. Therefore, the statistical classification and selection of representative-in-class aircraft presented in this paper is a valid approach for the rapid and accurate computation of a large number of exploratory cases to assess aviation noise reduction strategies.
Aircraft noise, Engine exhaust emissions, Aviation environmental impacts, Fleet-level studies, Noise contours, Noise modelling
157-168
Torija Martinez, Antonio
6dd0d982-fcd6-42b6-9148-211175fd3287
Self, Rodney
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
March 2018
Torija Martinez, Antonio
6dd0d982-fcd6-42b6-9148-211175fd3287
Self, Rodney
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
Torija Martinez, Antonio and Self, Rodney
(2018)
Aircraft classification for efficient modelling of environmental noise impact of aviation.
Journal of Air Transport Management, 67, .
(doi:10.1016/j.jairtraman.2017.12.007).
Abstract
With the environmental externalities of civil aviation under unprecedented scrutiny, and with the projected significant increase in air traffic demand over the next few decades, fleet-level studies are required to assess the potential benefit of novel aircraft technologies and operational procedures for minimising environmental impact of aviation. Using a statistical classification process, the UK commercial aircraft fleet is reduced to four representative-in-class aircraft on
the basis of aircraft physical characteristics, and aircraft noise and engine exhaust emissions. These four representative aircraft, that appropriately capture the noise and emissions characteristics for each category within the UK commercial fleet, are also selected to be used as baseline cases for the high-level assessment of the environmental benefit of novel aircraft technologies. For the particular case of aviation noise, the modelling tools are highly sensitive
to the number of aircraft types in the flight schedule. A reduction of about 80% in computational time with relatively minor decrease in accuracy (between -4% and +5%) is observed when the whole aircraft fleet is replaced with the four representative-in-class aircraft for computing noise contours. Therefore, the statistical classification and selection of representative-in-class aircraft presented in this paper is a valid approach for the rapid and accurate computation of a large number of exploratory cases to assess aviation noise reduction strategies.
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Accepted/In Press date: 22 December 2017
e-pub ahead of print date: 3 January 2018
Published date: March 2018
Keywords:
Aircraft noise, Engine exhaust emissions, Aviation environmental impacts, Fleet-level studies, Noise contours, Noise modelling
Identifiers
Local EPrints ID: 416748
URI: http://eprints.soton.ac.uk/id/eprint/416748
ISSN: 0969-6997
PURE UUID: a31bad29-7ca3-4d1c-b626-611a364d57c7
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Date deposited: 08 Jan 2018 17:30
Last modified: 16 Mar 2024 06:04
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Author:
Antonio Torija Martinez
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