Abstract
Diesel-like hydrocarbons were produced by the catalytic deoxygenation (DO) of Jatropha curcas oil (JCO) over novel Ag-x/AC and Ni-y-Ag-x/AC catalysts under an H-2-free atmosphere. The AC was synthesized from coconut fibre residues (CFR), where CFR is the by-product from coconut milk extraction and is particularly rich in soft fibres with high mineral content. The Ni-y-Ag-x/AC catalyst afforded higher DO activity via the decarboxylation/decarbonylation (deCOx) route than Ag-x/AC due to the properties of Ni, synergistic interaction of Ni and Ag species, adequate amount of strong acid sites and large number of weak acid sites, which cause extensive C-O cleavage and lead to rich formation of n-(C-15+C-17) hydrocarbons. The effect of Ag and Ni content were studied within the 5 to 15 wt% range. An optimum Ni and Ag metal content (5 wt%) for deCOx reaction was observed. Excess Ni is not preferable due to a tendency for cracking and Ag-rich containing catalyst weakly enforced triglycerides breaking. The Ni-5-Ag-5/AC govern exclusively decarbonylation reaction, which corroborates the presence of Ni2+ species and a high amount of strong acid sites. Ultimately, Ni-5-Ag-5/AC in the present study shows excellent chemical stability with consistent five reusability without drastic reduction of hydrocarbon yield (78-95%) and n-(C-15+C-17) selectivity (82-83%), which indicate favourable application in JCO DO. (C) 2019 Published by Elsevier Ltd.