Catalytic deoxygenation is a biofuel upgrading process to eliminate the high oxygen content
which will lead to corrosion, instability and lower heating value problems. Biofuel have a …

In the current study, biomass-derived activated carbon (AC) with zinc oxide/nickel oxide
(AC@ ZnO/NiO) bifunctional nanocatalyst with enhanced surface area is utilized for the …

With the inevitable human innate aspirations for better urban mobility and sustainable
economic development, bio-based transportation fuels are projected to play an essential …

Bifunctional Co-W catalysts with variable Co-W dosages on silica-alumina (SA) were
prepared and tested for the catalytic deoxygenation-cracking of tung oil (TO) for the …

Waste cooking oil (WCO) is a potential non-edible feedstock that is sustainable for
production of automotive green diesel. The present study focused on synthesis of WCO …

A series of modified hexagonal mesoporous silica (HMS) supported by various Ni loading (5
wt% Ni, 10 wt% Ni, 40 wt% Ni and 100 wt% Ni) have been synthesized and systematically …

Deoxygenation processes that exploit milder reaction conditions under H2-free atmospheres
appear environmentally and economically effective for the production of green diesel …

This review delves into the potential of renewable biomass for green diesel production.
Deoxygenation technology offers a promising method for converting biomass-derived …

The development of renewable diesel fuel from the deoxygenation of non-edible oil is an
alternative to non-renewable fuels. Herein, the evaluation of catalytic deoxygenation of …

Green diesel derived from deoxygenation technology has been developed to replace
instability of fatty acid alkyl ester (biodiesel) due to the presence oxygenated species …