2 research outputs found
Hydrotreating of Palm Oil into Bio Jet Fuel through a One-Step Process over Nb Doping Pt/AlSiO-Nb Catalyst
The hydrotreatment of fats and oils for biofuel synthesis
significantly
contributes to carbon emission mitigation. Conventionally, this process
necessitates a bifurcated pathway encompassing hydrodeoxygenation
(HDO)/decarboxylation (DCO) and subsequent isomerization reactions.
In this research, we synthesized a niobium-doped bifunctional catalyst,
denoted as Pt/AlSiO-Nb, capable of concurrently executing HDO and
isomerization of palm oil. Our examination of the palm oil hydrotreatment
network, with palm acid and tripalmitin as representative model compounds,
revealed that the oil undergoes hydrolysis to form fatty acids and
then undergoes deoxygenation to n-alkanes via HDO or DCO routes, succeeded
by n-alkane isomerization, where cracking reactions also transpire.
Comprehensive characterizations of the catalyst delineated that niobium
incorporation markedly augments the support–platinum interaction
and proliferates the catalyst’s medium and weak acid sites,
culminating in enhanced HDO and isomerization performance. These insights
herald a novel methodology for biofuel generation from fats and oils,
offering a streamlined approach to their catalytic transformation