Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes

Air transport has for a long time been linked to environmental issues like pollution, noise and climate change. While CO2 emissions are the main focus in public discussions, non-CO2 emissions of aviation may have a similar impact on the climate as aviation's carbon dioxide, e.g. contrail cirrus...

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Main Authors: Peter, Patrick, Matthes, Sigrun, Frömming, Christine, Grewe, Volker
Format: Conference Object
Language:English
Published: 2022
Subjects:
Erdsystem-Modellierung
North Atlantic
Online Access:https://elib.dlr.de/186045/
https://elib.dlr.de/186045/1/Peter_et_al_2022DACH.pdf
id ftdlr:oai:elib.dlr.de:186045
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:186045 2024-05-19T07:45:19+00:00 Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes Peter, Patrick Matthes, Sigrun Frömming, Christine Grewe, Volker 2022-03-23 application/pdf https://elib.dlr.de/186045/ https://elib.dlr.de/186045/1/Peter_et_al_2022DACH.pdf en eng https://elib.dlr.de/186045/1/Peter_et_al_2022DACH.pdf Peter, Patrick und Matthes, Sigrun und Frömming, Christine und Grewe, Volker (2022) Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes. DACH 2022, 2022-03-21 - 2022-03-25, Leipzig, Deutschland. cc_by Erdsystem-Modellierung Konferenzbeitrag NonPeerReviewed 2022 ftdlr 2024-04-25T00:59:55Z Air transport has for a long time been linked to environmental issues like pollution, noise and climate change. While CO2 emissions are the main focus in public discussions, non-CO2 emissions of aviation may have a similar impact on the climate as aviation's carbon dioxide, e.g. contrail cirrus, nitrogen oxides or aviation induced cloudiness. While the effects of CO2 on climate are independent of location and situation during release, non-CO2 effects such as contrail formation vary depending on meteorological background. Previous studies investigated the influence of different weather situations on aviation’s climate change contribution, identifying climate sensitive regions and generating data products which enable air traffic management (ATM) to plan for climate optimized trajectories. The research presented here focuses on the further development of methods to determine the sensitivity of the atmosphere to aviation emissions with respect to climate effects in order to determine climate optimized aircraft trajectories. While previous studies focused on characterizing the North Atlantic Flight Corridor region, this study aims to extend the geographic scope by performing Lagrangian simulations in a global climate model EMAC for the northern hemispheric extratropical regions and tropical latitudes. This study addresses how realistically the physical conditions and processes for contrail formation and life cycle are represented in the upper troposphere and lower stratosphere by comparing them to airborne observations (HALO measurement campaign, CARIBIC/IAGOS scheduled flight measurements), examining key variables such as temperature or humidity. Direct comparison of model data with observations using clusters of data provides insight into the extent to which systematic biases exist that are relevant to the climate effects of contrails. We perform this comparison for different vertical resolutions to assess which vertical resolution in the EMAC model is well suited for studying contrail formation. Together with ... Conference Object North Atlantic German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language English
topic Erdsystem-Modellierung
spellingShingle Erdsystem-Modellierung
Peter, Patrick
Matthes, Sigrun
Frömming, Christine
Grewe, Volker
Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
topic_facet Erdsystem-Modellierung
description Air transport has for a long time been linked to environmental issues like pollution, noise and climate change. While CO2 emissions are the main focus in public discussions, non-CO2 emissions of aviation may have a similar impact on the climate as aviation's carbon dioxide, e.g. contrail cirrus, nitrogen oxides or aviation induced cloudiness. While the effects of CO2 on climate are independent of location and situation during release, non-CO2 effects such as contrail formation vary depending on meteorological background. Previous studies investigated the influence of different weather situations on aviation’s climate change contribution, identifying climate sensitive regions and generating data products which enable air traffic management (ATM) to plan for climate optimized trajectories. The research presented here focuses on the further development of methods to determine the sensitivity of the atmosphere to aviation emissions with respect to climate effects in order to determine climate optimized aircraft trajectories. While previous studies focused on characterizing the North Atlantic Flight Corridor region, this study aims to extend the geographic scope by performing Lagrangian simulations in a global climate model EMAC for the northern hemispheric extratropical regions and tropical latitudes. This study addresses how realistically the physical conditions and processes for contrail formation and life cycle are represented in the upper troposphere and lower stratosphere by comparing them to airborne observations (HALO measurement campaign, CARIBIC/IAGOS scheduled flight measurements), examining key variables such as temperature or humidity. Direct comparison of model data with observations using clusters of data provides insight into the extent to which systematic biases exist that are relevant to the climate effects of contrails. We perform this comparison for different vertical resolutions to assess which vertical resolution in the EMAC model is well suited for studying contrail formation. Together with ...
format Conference Object
author Peter, Patrick
Matthes, Sigrun
Frömming, Christine
Grewe, Volker
author_facet Peter, Patrick
Matthes, Sigrun
Frömming, Christine
Grewe, Volker
author_sort Peter, Patrick
title Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
title_short Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
title_full Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
title_fullStr Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
title_full_unstemmed Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes
title_sort eco-efficient flight trajectories - using a lagrangian approach in emac to investigate contrail formation in the mid latitudes
publishDate 2022
url https://elib.dlr.de/186045/
https://elib.dlr.de/186045/1/Peter_et_al_2022DACH.pdf
genre North Atlantic
genre_facet North Atlantic
op_relation https://elib.dlr.de/186045/1/Peter_et_al_2022DACH.pdf
Peter, Patrick und Matthes, Sigrun und Frömming, Christine und Grewe, Volker (2022) Eco-efficient flight trajectories - Using a Lagrangian approach in EMAC to investigate contrail formation in the mid latitudes. DACH 2022, 2022-03-21 - 2022-03-25, Leipzig, Deutschland.
op_rights cc_by
_version_ 1799485318152323072

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