Meteorologische Zeitschrift (Jun 2024)

Can we successfully avoid persistent contrails by small altitude adjustments of flights in the real world?

  • Robert Sausen,
  • Sina Hofer,
  • Klaus Gierens,
  • Luca Bugliaro,
  • Rüdiger Ehrmanntraut,
  • Ilona Sitova,
  • Kacper Walczak,
  • Anja Burridge-Diesing,
  • Milena Bowman,
  • Nick Miller

DOI
https://doi.org/10.1127/metz/2023/1157
Journal volume & issue
Vol. 33, no. 1
pp. 83 – 98

Abstract

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This paper describes the first-ever operational contrail avoidance trial in the real world, which took place in the region of Maastricht Upper Area Control (including the northwest of Germany, the Benelux countries and part of the North Sea) in the year 2021. Contrail avoidance could be an efficient method for mitigating the climate impact of aviation. Applying a deliberate experiment design, air traffic was deviated every other day by changing the flight altitude by up to 2000 ft up or down if potential persistent contrails were predicted. Whether deviations were successful on average was checked using satellite images of high clouds and by application of a contrail detection algorithm, which makes use of the properties of contrails. Despite the fact that forecasting persistent contrails remains a challenge, the trial was successful at a significance level of 97.5 %, i.e., on average persistent contrails can be avoided for regular flights in the real world with a small intervention in the vertical flight path. The experiment is an important step towards a regular operational reduction of the aviation climate impact by means of air traffic management. Nevertheless, many open questions need to be solved prior to an operational implementation of contrail avoidance or climate optimised flight trajectories in legal ATM procedures.

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