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CONTRAILS
Aircraft Condensation Trails Monitoring Service
Development and demonstration of an EO-based service in support to the continuous assessment of the environmental effects of increasing volumes of air traffic, by monitoring the daily contrail and cirrus cloud coverage, for one year, over Europe and the North Atlantic.
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| PROJECT REFERENCES |
| Name |
CONTRAILS |
| Title |
Aircraft Condensation Trails Monitoring Service |
| Programme |
DUE (Data User Element of the Earth Observation Envelope Programme) |
| Theme |
Global & Climate Change |
| Cost |
300 - 500 K |
| Type |
Large Scale Service Demonstration |
| Application |
Global Change
Tropospheric Emissions
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| Status |
Completed in 2006 |
| Satellites |
AQUA (EOS PM-1), ENVISAT, ERS, MSG, NOAA, TERRA (EOS AM-1) |
| Sensors |
AATSR, ATSR-2, AVHRR, MERIS, MODIS, SEVIRI |
| PROJECT DESCRIPTION |
| Web Site |
http://www.pa.op.dlr.de/contrails/ |
| Objectives |
Exhaust emissions from jet aeroplanes contain large amounts of water vapour which, under certain atmospheric states, will condense to form elongated cloud-like condensation trails in the sky. These "contrails" can have an environmental impact by modifying the radiative balance of the Earth-atmosphere system. This perturbation is caused by radiative forcing due to the contrails themselves, and possibly also due to the formation of persistent cirrus clouds which might not otherwise have existed.
The focus of the CONTRAIL project was to develop and demonstrate an EO-based service in support to the continuous assessment of the environmental effects of increasing volumes of air traffic, by monitoring the daily contrail and cirrus cloud coverage, for one year, over Europe and the North Atlantic.
Two applications of the monitoring effort were included in the project:
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Environmental impact. Assessment of the radiative forcing of:
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Contrails
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Changes in cirrus cloud coverage and properties that can be related to changes in air traffic density
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If, at some stage, the environmental impact of line-contrail induced cirrus clouds is judged to be unacceptably high by political and regulatory authorities, then this may have traffic flow and capacity implications. This may include the diversion of air traffic around air masses susceptible to the formation of contrails. Re-routing, exclusively for safety reasons, is already performed around volcanic ash clouds and convective storms. In order to prepare for any such eventuality, satellite-derived contrail maps will be used to assess the User’s ability to forecast contrail formation.
Contrails were mapped intensively for one year (2004) using several satellite sensors in order to capture as best as possible the diurnal variation. Cirrus cloud coverage and properties were also be mapped using satellite data. By comparing the cirrus cloud maps with air traffic density maps, the relationship between changes in cirrus and air traffic density were be investigated. An assessment of the radiative forcing of both the contrails and the cirrus changes were made. Finally, an independent assessment of the EUROCONTROL contrail formation model was made by comparing model based contrail maps with the satellite derived contrail maps.
With the aim of providing historical context for the one year intensive study period, contrail maps for the years 1985, 1990, 1995, 2000 were also be prepared.
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 Results |
Validation Report (7Mb PDF) 
Project Final Report
Contrail cirrus coverage and radiative forcing from satellite data, Proceedings of the Envisat Symposium, Montreux, 23-27 April 2007.
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| CONTACT POINTS |
| Project Manager |
Hermann Mannstein
Institut fur Physik der Atmosphare
Deutches Zentrum fur Luft- und Raumfahrt e.V.
Oberpfaffenhofen, Postfach 1116, 82230 Weßling,
Germany.
Tel: +49-8153-28-2503
Fax: +49 8153 28 1271
Email: hermann.mannstein@dlr.de
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| Technical Officier |
Simon Pinnock
European Space Agency - ESRIN D/EOP-SEP
Via Galileo Galilei
I-00044 Frascati (RM)
ITALY
Tel: +39 06-941.80573
Fax: +39 06 941.80552
Email: simon.pinnock@esa.int |
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