Abstract
Lignin-derived pyrolytic oil is known as a great renewable source for jet-grade fuels. Catalytic hydrodeoxygenation (HDO) as a prospective approach, improves the combustion properties of pyrolytic oil such as cetane index, high heating value, chemical, and thermal stability. This aim is achieved through direct deoxygenation, hydrogenolysis, hydrogenation, demethylation, and demethoxylation routes associated with by production of H2O, methane, CO, CO2, and methanol. To previse the favored reaction pathway during HDO process, kinetic data and reaction network are required. Therefore, as a purpose, a brief review of the reaction network and the effect of operating parameters on the properties of lignin-derived jet fuel hydrocarbon range are explored in this chapter.
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