Catalytic pyrolysis of Reutealis trisperma oil using raw dolomite for bio-oil production

Conversion of non-edible Reutealis trisperma Oil (RTO) into bio-oil by catalytic pyrolysis was carried out using dolomite as catalysts. Dolomite, a sedimentary carbonate rock mineral, has shown potential as a cheap and eco-friendly catalyst to enhance bio-oil yield by reducing coke formation. Dolomite was directly used in the catalytic pyrolysis of RTO without prior calcination or treatment. Increasing the pyrolysis temperatures from 400 degrees C to 450 degrees C, improved bio-oil production from 59.68% to 77.39%, with only 0.11% of carbon char formation. The non-catalytic thermal pyrolysis produced 68.29% liquid bio-oil product and 7.04% carbon char. GC-MS analysis revealed that dolomite also enhanced the composition of heavy hydrocarbon molecules, contributing to a higher flash point and thermal stability of bio-oil. Analysis of the physical properties proved that the use of fresh dolomite decreased the viscosity (3.12 cSt) and increased calorific value (41.61 MJkg(-1)) and density (0.85 g/cm(-3)) compared with the bio-oil produced by non-catalytic thermal pyrolysis. Bio-oil quality was further enhanced through esterification reaction that significantly reduced the carboxylic acid content from 55.47% to 3.32%.

Automated summary

Conversion of non-edible RTO into bio-oil by catalytic pyrolysis using dolomite as a catalyst, without prior calcination or treatment. Dolomite enhanced bio-oil yield and reduced char formation at higher pyrolysis temperatures. Dolomite also improved the composition and physical properties of bio-oil, including viscosity, calorific value, and density, and reduced the carboxylic acid content through esterification reaction.