Which strategy leads to cost-effective, climate-friendly aviation in 2070? Four scenarios from the Bauhaus Luftfahrt think tank illustrate the impacts of different transformation paths. Key points: In the long term, high investments pay off; hydrogen and highly efficient aircraft offer the greatest opportunities for climate protection; sustainable fuels are essential in every scenario.
Even for a moderate transformation path relying on the blending of sustainable fuels, the required investments already amount to several hundred billion dollars. Prof. Dr. Mirko Hornung, Executive Director Research and Technology at Bauhaus Luftfahrt commented: “Despite high investment costs, greater ambition for climate-friendly aviation will pay off economically. However, the Bauhaus Luftfahrt scenarios show that an ambitious transformation will pay off for the overall economy as early as 2050, when highly efficient aircraft using sustainable fuels significantly reduce the societal costs of climate change.”
Each of the four transformation scenarios is based on a core assumption: 70 percent sustainable fuels, 100 percent sustainable fuels, up to 60 percent more efficient aircraft combined with sustainable fuels, or a radical switch to hydrogen. Each path is determined by three central characteristics:
Ambitious pathways pay off starting in 2050
In all scenarios, operating costs rise mainly due to the higher-priced alternative fuels. Even in the conservative scenario with 70 percent sustainable fuel by 2070, substantial global investments of several hundred billion dollars annually would be required. To achieve 100 percent sustainable aviation fuel by 2060, investments would need to increase by another 30 percent compared to the conservative scenario. The conservative pathway initially remains about 10 cents cheaper per passenger-kilometer than the other pathways. However, this gap gradually narrows, reverses after 2050, and the baseline scenario exceeds the projected costs for the more ambitious pathways.

Direct operating costs per passenger-kilometer increase by 35 to 50 percent across all scenarios. Starting in 2050, the ambitious pathways pay off for the overall economy compared to the conservative transformation pathway.

Necessary investments in fuel production under the conservative scenario with a 70 percent sustainable fuel blend. Bio-based fuels are replaced by renewable electricity-based synthetic fuels.
Up to 74 percent fewer CO2-equivalent emissions by 2070
In the conservative baseline scenario, annual emissions reach approximately 2.8 gigatons of CO₂-equivalent (various greenhouse gases and effects), assuming 70 percent adoption of sustainable aviation fuels by 2070. Increasing the sustainable fuel quota to 100 percent by 2060 could reduce CO₂-equivalent emissions by 24 percent. In the highly efficient aircraft with sustainable fuels scenario, emissions are reduced by 40 percent, while the radical hydrogen scenario could achieve a reduction of up to 74 percent in the best case, assuming a low climate impact from contrails and flight routes are adjusted.
Societal benefits of many trillions of dollars
Health, agriculture, energy systems, and weather patterns – the transformation of aviation helps avoid societal costs caused by climate change. In addressing this issue, Bauhaus Luftfahrt takes into account CO2 emissions, non-CO₂-related climate effects, and local air pollution. For the ambitious transformation pathways, the societal benefits amount to several trillion dollars compared to the conservative baseline scenario.

Highly efficient aircraft with sustainable fuels could reduce CO2-equivalent emissions by up to 40 percent, while hydrogen aircraft with contrail avoidance could achieve up to 74 percent.

Cumulative additional societal costs of aviation’s climate impact can be reduced by many trillions of dollars.
The scenarios are based on modeling the complex interplay of energy supply, network structures, aircraft innovation, and environmental and societal impacts. The focus is on identifying economic levers, not on the exact quantification of (societal) costs. Factors included are air travel demand and economic growth, the development of aircraft technology and the energy mix, fleet dynamics and market acceptance, as well as climate impacts and societal costs.
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