Catalytic methanotreating of vegetable oil: A pathway to Second-generation biodiesel

Vegetable oil is one of the most commonly used feedstocks for the production of biodiesel, while the first-generation biodiesel suffers from the disadvantages of considerable instability and corrosivity. Developing second-generation biodiesel is momentous for the sustainable development of global energy, which overcomes the shortcomings of first-generation biodiesel. The methanotreating of vegetable oil is a potential new route for the production of second-generation biodiesel, which is comprehensively investigated in this study. Throughout the screening of the catalysts, Ga-Ce/TS-1 demonstrates the best overall performances in this methane-incorporated process, leading to 84.23 % of liquid yield, 0.95 % of methane conversion, 72.8 % of oxygen content reduction, and 71% of light hydrocarbon distillates yield. The participation of methane promotes deoxygenation performance, optimizes the composition of paraffinic and olefinic hydrocarbons, as well as suppresses coke formation. The catalytic methanotreating of vegetable oil is confirmed to be a promising pathway to second-generation biodiesel.

Automated summary

Research shows that the methanotreating of vegetable oil is a promising pathway for the production of second-generation biodiesel. Among the catalysts screened, Ga-Ce/TS-1 demonstrates the best overall performances, with high liquid yield, low methane conversion, reduced oxygen content, and high light hydrocarbon distillates yield.