Abstract
•Liquefaction behaviors of sewage sludge in different organic solvents were studied.•The solvent efficiency in terms of conversion rate is: methanol>ethanol>acetone.•The solvent efficiency in terms of bio-oil yield is: acetone>ethanol>methanol.•Alcohols yield mainly esters, while acetone favors ketones and nitrogenous compounds.•Ethanol may be a more promising solvent for its high efficiency and renewability.
Thermochemical liquefaction characteristics of sewage sludge in different organic solvents (methanol, ethanol and acetone) were comparatively investigated. Experiments were carried out in an autoclave at different temperatures ranging from 260°C to 380°C with a fixed solid/liquid ratio. The efficiency of above solvents in terms of conversion rate was found to be: methanol>ethanol>acetone. However, higher bio-oil yield was obtained with acetone as liquefaction solvent. The chemical properties of the bio-oil products were also significantly affected by the type of liquefaction solvent. Methanol and ethanol yielded mainly ester compounds, while acetone favored the formation of ketone and N-containing compounds. Meanwhile, some phenolic compounds, alcohols and very few hydrocarbons were also qualified. The calorific values of the bio-oils produced using methanol and ethanol were as high as 37.69MJ/kg and 38.42MJ/kg, respectively, much higher than that using acetone (26.74MJ/kg). The results of thermogravimetric analysis (TGA) showed that the bio-oils contained a considerable amount of light components. And the content of low-boiling-point (bp<350°C) compounds ranged from 78.13% to 85.76% of the weight for above three bio-oils. On the whole, ethanol seems to be more suitable for sewage sludge liquefaction from the viewpoint of efficiency and renewability.