HYDRODEOXYGENATION OF OLEIC ACID ON UNSUPPORTED Co-Mo AND Ni-Mo SULFIDE CATALYSTS

Abstract

In this research, hydrodeoxygenation (HDO) of oleic acid (model compound of palm oil) over unsupported Co-Mo and Ni-Mo sulfide catalysts was carried out in Parr reactor to produce bio-hydrogenated diesel (BHD). The effects of reaction parameters: temperature, hydrogen pressure and the mole ratio of catalysts (Ni/(Ni+Mo) or Co/(Co+Mo)) on the conversion and product yields (mainly n-C17 and n-C18 hydrocarbons) were investigated to find the optimal conditions. The results showed that high pressure favored a HDO pathway, while high temperature strongly affected to decarboxylation and decarbonylation pathways. At optimal condition as temperature of 280oC, reaction times of 6 h and hydrogen pressure of 60 bars, the Ni-Mo sulfide catalysts with Ni/(Ni+Mo) ratio of 0.2 exhibited better perfomance for the oleic acid HDO than Co-Mo sulfide in term of oleic acid conversion (100 wt%), n-C18 selectivity (78.8 wt%) and n-C18 yield (70.3 wt%).