Hydrocarbon produced from upgrading rich phenolic compound bio-oil with low catalyst coking

Abstract

Catalytic upgrading of raw bio-oil and liquid–liquid extracted bio-oil (high concentrated phenolic with trace acid and acetaldehyde) with methanol over ZSM-5 catalyst had been studied in this work. Temperature played vital function and leaded to increasing gas yield but less catalyst coking. It also changed both chemical distribution and selectivity on both gas and liquid products, with aromatic concentration increasing by 34.42%. Temperature of 400°C was selected as the optimized reaction conditions with liquid yield of 10.47wt.% and 75.00% aromatic hydrocarbon in liquid product from 100g biomass, only with coke yield of 1.42wt.%. Phenolic-rich extracted bio-oil obtained higher aromatic hydrocarbon yield (7.3wt.% increased from 1.1wt.%) and lower coke yield (1.42wt.% decrease from 15.79wt.%) than raw bio-oil. Catalyst regenerated from this type of feedstock also achieved higher activity and longer useable running times on aromatic yield compared to fresh catalyst. This result suggested that lignin derived phenolic and guaiacol compounds were not the only reason caused catalyst coking on ZSM-5 catalyst. Small high active molecules of acetic acid and acetaldehyde also acted as important precursors of catalyst coke formation.