The Co-Optimization of Sustainable Aviation Fuel: Cost, Emissions, and Performance

Abstract: The combustion of petroleum-based fuels contributes to increases in atmospheric CO2, contributing to climate change. As other sectors electrify, current battery technology makes this impractical for the aviation industry. The fastest pathway to reducing the carbon contributions of aviation is to create low or no net carbon-emitting drop-in petroleum alternatives. This research explores 3 potential sorghum derived jet fuel molecules from 4 different production routes, hydro-processed esters and fatty acids (HEF… Show more

“…In addition to the environmental necessity of this approach, there is a growing realization that SAFs can be designed to have properties that exceed those of petroleum-based fuels 2 . For example, SAFs typically have a higher gravimetric energy density, better combustion properties, and better low-temperature properties 6 .…”

Solvent-free dehydration, cyclization, and hydrogenation of linalool with a dual heterogeneous catalyst system to generate a high-performance sustainable aviation fuel

“…In addition to the environmental necessity of this approach, there is a growing realization that SAFs can be designed to have properties that exceed those of petroleum-based fuels 2 . For example, SAFs typically have a higher gravimetric energy density, better combustion properties, and better low-temperature properties 6 .…”

Solvent-free dehydration, cyclization, and hydrogenation of linalool with a dual heterogeneous catalyst system to generate a high-performance sustainable aviation fuel

Extended fuel properties of sustainable aviation fuel blends derived from linalool and isoprene