Abstract
The use of drop-in capable alternative fuels in aircraft can support the European aviation sector to achieve its goals for sustainable development. They can be a transitional solution in the short and medium term, as their use does not require any structural changes to the aircraft powertrain. However, the production of alternative fuels is often energy-intensive, and some feedstocks are associated with harmful effects on the environment. In addition, alternative fuels are often more expensive to produce than fossil kerosene, which can make their use unattractive. Therefore, this paper analyzes the environmental and economic impacts of four types of alternative fuels compared to fossil kerosene in a well-to-wake perspective. The fuels investigated are sustainable aviation fuels produced by power-to-liquid and biomass-to-liquid pathways. Life cycle assessment and life cycle costing are used as environmental and economic assessment methods. The results of this well-to-wake analysis reveal that the use of sustainable aviation fuels can reduce the environmental impacts of aircraft operations. However, an electricity mix based on renewable energies is needed to achieve significant reductions. In addition, from an economic perspective, the use of fossil kerosene ranks best among the alternatives. A scenario analysis confirms this result and shows that the production of sustainable aviation fuels using an electricity mix based solely on renewable energy can lead to significant reductions in environmental impact, but economic competitiveness remains problematic.
Highlights
Publisher’s Note: MDPI stays neutralThe demand for passenger and cargo flights has grown considerably over the past few decades
Large amounts of CO2 were sequestered in the upstream chains of fuel production, reducing greenhouse gases (GHGs) emissions compared with fossil kerosene in a life cycle perspective
Synthetic kerosene based on hydrogen produced by steam methane reforming (SMR) or electrolysis is largely disadvantageous compared with fossil kerosene
Summary
Publisher’s Note: MDPI stays neutralThe demand for passenger and cargo flights has grown considerably over the past few decades. Pre-COVID studies of the two leading aircraft manufacturers, Airbus and Boeing, predicted that the demand for flights will increase by up to 4.5% annually, which would lead to a doubling of air traffic every. The COVID-19 pandemic led to a decrease in air travel by 75% in 2020 and slowed this growth in the short term, the demand for flights has fully recovered, and a strongly positive trend is expected in the long term [4]. While this development is desired from an economic perspective, it is associated with extensive negative environmental impacts. Resource flow (natural resource, emission, money) Process group Flight operation Unit process
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