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Production of low oxygen bio-oil via catalytic pyrolysis of forest residues in a kilogram-scale rotary kiln reactor

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Abstract Co-processing of pyrolysis bio-oils with fossil feedstock in existing refineries has been identified as a way to introduce renewable carbon in transportation fuels. Significant deoxygenation of bio-oil, which can… Click to show full abstract

Abstract Co-processing of pyrolysis bio-oils with fossil feedstock in existing refineries has been identified as a way to introduce renewable carbon in transportation fuels. Significant deoxygenation of bio-oil, which can be achieved by catalytic pyrolysis, is a prerequisite to increase the amount that could be supplied. In this study, following the optimisation of the conversion of eucalyptus residues using calcium oxide catalyst at bench scale, pyrolysis tests have been conducted at kilogram-scale on a rotary kiln reactor to investigate the suitability of produced bio-oils for co-processing. A fractional condensation technique was also employed to reduce the bio-oil water content in a single step. The results evidenced enhanced deoxygenation at kg-scale as a consequence of greater interactions between catalysts and volatiles in the rotary kiln reactor. The combination of enhanced deoxygenation and fractional condensation resulted in the production of an organic rich fraction with an oxygen content of 12.6 wt% and a Higher Heating Value of 35.5 MJ/kg (dry basis). This fraction could be considered for co-processing in a Fluid Catalytic Cracking unit to produce transportation fuels.

Keywords: pyrolysis; rotary kiln; kiln reactor; bio oil

Journal Title: Journal of Cleaner Production
Year Published: 2020

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