Data accompanying the manuscript "Predicting the climate impact of aviation for en-route emissions: The algorithmic climate change function submodel ACCF 1.0 of EMAC 2.53"
DOI:10.4121/bea8a3fe-e34c-4598-9f94-c5a5c63348e5.v1
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DOI: 10.4121/bea8a3fe-e34c-4598-9f94-c5a5c63348e5
DOI: 10.4121/bea8a3fe-e34c-4598-9f94-c5a5c63348e5
Datacite citation style:
Yin, Feijia; Castino, Federica; Rao, Pratik (2023): Data accompanying the manuscript "Predicting the climate impact of aviation for en-route emissions: The algorithmic climate change function submodel ACCF 1.0 of EMAC 2.53". Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/bea8a3fe-e34c-4598-9f94-c5a5c63348e5.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset
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Categories
Geolocation
European Airspace
Licence CC BY-NC 4.0
This dataset includes results data of the publication titled "Predicting the climate impact of aviation for en-route emissions: The algorithmic climate change function submodel ACCF 1.0 of EMAC 2.53", which contains the average temperature response over 20 years estimated by the algorithmic climate change functions (aCCFs). The data has been produced by running the submodel ACCF v1.0 and the submodel AirTraf 2.0 coupled with the ECHAM5 Atmospheric-Chemistry Model (EMAC) framework over a year from December 2015 to December 2016.
History
- 2023-05-23 first online, published, posted
Publisher
4TU.ResearchDataFormat
netCDFAssociated peer-reviewed publication
Predicting the climate impact of aviation for en-route emissions: The algorithmic climate change function submodel ACCF 1.0 of EMAC 2.53Funding
- H2020 SESAR joint undertaking (grant code 891317) H2020
