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Concept of climate-charged airspaces: a potential policy instrument for internalizing aviation's climate impact of non-CO2 effects

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  • Malte Niklaß
  • Volker Grewe
  • Volker Gollnick
  • Katrin Dahlmann

Abstract

Approximately 50–75% of aviation's climate impact is caused by non-CO2 effects, like the production of ozone and the formation of contrail cirrus clouds, which can be effectively prevented by re-routing flights around highly climate-sensitive areas. Here, we discuss options how to incentivize re-routing approaches and apply multicriteria trajectory optimizations to demonstrate the feasibility of the concept of climate-charged airspaces (CCAs). We show that although climate-optimized re-routing results in slightly longer flight times, increased fuel consumption and higher operating costs, it is more climate-friendly compared to a cost-optimized routing. In accordance to other studies, we find that the averaged temperature response over 100 years (ATR$_{100}$100) of a single flight can be reduced by up to 40%. However, if mitigation efforts are associated with a direct increase in costs, there is a need for climate policies. To address the lack of incentivizing airlines to internalize their climate costs, this study focuses on the CCA concept, which imposes a climate charge on airlines when operating in highly climate-sensitive areas. If CCAs are (partly) bypassed, both climate impact and operating costs of a flight can be reduced: a more climate-friendly routing becomes economically attractive. For an exemplary North-Atlantic network, CCAs create a financial incentive for climate mitigation, achieving on average more than 90% of the climate impact reduction potential of climate-optimized trajectories (theoretical maximum, benchmark).Key policy insights Existing climate policies for aviation do not address non-${\rm CO}_2$CO2 effects, which are very sensitive to the location and the timing of the emission.By imposing a temporary climate charge for airlines that operate in highly climate-sensitive regions, the trade-off between economic viability and environmental compatibility could be resolved: Climate impact mitigation of non-${\rm CO}_2$CO2 effects coincides with cutting costs.To ensure easy planning and verification, climate charges are calculated analogously to en-route and terminal charges. For climate mitigation it is therefore neither necessary to monitor emissions (${\rm CO}_2,$CO2, ${\rm NO}_x$NOx, etc.) nor to integrate complex non-${\rm CO}_2$CO2 effects into flight planning procedures of airlines.Its implementation is feasible and effective.

Suggested Citation

  • Malte Niklaß & Volker Grewe & Volker Gollnick & Katrin Dahlmann, 2021. "Concept of climate-charged airspaces: a potential policy instrument for internalizing aviation's climate impact of non-CO2 effects," Climate Policy, Taylor & Francis Journals, vol. 21(8), pages 1066-1085, September.
  • Handle: RePEc:taf:tcpoxx:v:21:y:2021:i:8:p:1066-1085
    DOI: 10.1080/14693062.2021.1950602
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