Trajectory Optimization of Extended Formation Flights for Commercial Aviation

This paper presents a trajectory optimization study that has been conducted using a recently developed tool for the synthesis and analysis of extended flight formations of long-haul commercial aircraft, with the aim to minimize overall fuel consumption. In extended flight formations, trailing aircra...

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Bibliographic Details
Published in:Aerospace
Main Authors: Sander Hartjes, Hendrikus G. Visser, Marco E. G. van Hellenberg Hubar
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2019
Subjects:
flight formations
fuel burn
trajectory optimization
wind fields
North Atlantic
Online Access:https://doi.org/10.3390/aerospace6090100
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spelling ftmdpi:oai:mdpi.com:/2226-4310/6/9/100/ 2023-08-20T04:08:25+02:00 Trajectory Optimization of Extended Formation Flights for Commercial Aviation Sander Hartjes Hendrikus G. Visser Marco E. G. van Hellenberg Hubar 2019-09-09 application/pdf https://doi.org/10.3390/aerospace6090100 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/aerospace6090100 https://creativecommons.org/licenses/by/4.0/ Aerospace; Volume 6; Issue 9; Pages: 100 flight formations fuel burn trajectory optimization wind fields Text 2019 ftmdpi https://doi.org/10.3390/aerospace6090100 2023-07-31T22:35:33Z This paper presents a trajectory optimization study that has been conducted using a recently developed tool for the synthesis and analysis of extended flight formations of long-haul commercial aircraft, with the aim to minimize overall fuel consumption. In extended flight formations, trailing aircraft can attain an appreciable reduction in induced drag and associated reduction in fuel burn by flying in the upwash of the lead aircraft’s wake. In the present study, a previously developed multi-phase optimal control (MOC) framework for the synthesis of two-ship flight formations has been extended to include the assembly of three-ship flight formations. Using the extended tool, various numerical experiments have been conducted in relation to the assembly of two-ship and three-ship flight formations in long-haul operations across the North-Atlantic Ocean. Additionally, numerical experiments have been carried out to examine the impact of wind fields on the synthesis and performance of flight formations. Additionally, a parametric investigation has been conducted to assess the sensitivity of the solutions with respect to the degree of the induced drag reduction that might be attained by the trailing aircraft in a formation. The results of the various numerical experiments reveal that formation flight can result in appreciable reductions in fuel burn in comparison to flying solo—particularly when larger formation strings are permitted. Text North Atlantic MDPI Open Access Publishing Aerospace 6 9 100
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic flight formations
fuel burn
trajectory optimization
wind fields
spellingShingle flight formations
fuel burn
trajectory optimization
wind fields
Sander Hartjes
Hendrikus G. Visser
Marco E. G. van Hellenberg Hubar
Trajectory Optimization of Extended Formation Flights for Commercial Aviation
topic_facet flight formations
fuel burn
trajectory optimization
wind fields
description This paper presents a trajectory optimization study that has been conducted using a recently developed tool for the synthesis and analysis of extended flight formations of long-haul commercial aircraft, with the aim to minimize overall fuel consumption. In extended flight formations, trailing aircraft can attain an appreciable reduction in induced drag and associated reduction in fuel burn by flying in the upwash of the lead aircraft’s wake. In the present study, a previously developed multi-phase optimal control (MOC) framework for the synthesis of two-ship flight formations has been extended to include the assembly of three-ship flight formations. Using the extended tool, various numerical experiments have been conducted in relation to the assembly of two-ship and three-ship flight formations in long-haul operations across the North-Atlantic Ocean. Additionally, numerical experiments have been carried out to examine the impact of wind fields on the synthesis and performance of flight formations. Additionally, a parametric investigation has been conducted to assess the sensitivity of the solutions with respect to the degree of the induced drag reduction that might be attained by the trailing aircraft in a formation. The results of the various numerical experiments reveal that formation flight can result in appreciable reductions in fuel burn in comparison to flying solo—particularly when larger formation strings are permitted.
format Text
author Sander Hartjes
Hendrikus G. Visser
Marco E. G. van Hellenberg Hubar
author_facet Sander Hartjes
Hendrikus G. Visser
Marco E. G. van Hellenberg Hubar
author_sort Sander Hartjes
title Trajectory Optimization of Extended Formation Flights for Commercial Aviation
title_short Trajectory Optimization of Extended Formation Flights for Commercial Aviation
title_full Trajectory Optimization of Extended Formation Flights for Commercial Aviation
title_fullStr Trajectory Optimization of Extended Formation Flights for Commercial Aviation
title_full_unstemmed Trajectory Optimization of Extended Formation Flights for Commercial Aviation
title_sort trajectory optimization of extended formation flights for commercial aviation
publisher Multidisciplinary Digital Publishing Institute
publishDate 2019
url https://doi.org/10.3390/aerospace6090100
genre North Atlantic
genre_facet North Atlantic
op_source Aerospace; Volume 6; Issue 9; Pages: 100
op_relation https://dx.doi.org/10.3390/aerospace6090100
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/aerospace6090100
container_title Aerospace
container_volume 6
container_issue 9
container_start_page 100
_version_ 1774720679114964992

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