An approach for upgrading biomass and pyrolysis product quality using a combination of aqueous phase bio-oil washing and torrefaction pretreatment

• Published in: Bioresource technology Vol. 233; pp. 150 - 158
• Main Authors: Chen, Dengyu, Cen, Kehui, Jing, Xichun, Gao, Jinghui, Li, Chen, Ma, Zhongqing
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.06.2017
• Subjects: Aqueous phase bio-oil; Biomass; Cotton stalk; Gases; Heating; Hot Temperature; Pyrolysis; TG-FTIR; Torrefaction; Water; Torrefaction; Pyrolysis; Aqueous phase bio-oil; Cotton stalk; TG-FTIR
• ISSN: 0960-8524; 1873-2976
• DOI: 10.1016/j.biortech.2017.02.120

•A novel approach was performed to upgrade the quality of biomass pyrolysis products.•Aqueous phase bio-oil washing pretreatment removed metals from the sample.•Torrefaction reduced the oxygen but increased the metal content of cotton stalk.•3D FTIR results were consistent with the pyrolysis stages of the TG/DTG curve.•Combined pretreatment reduced water and acid and increased phenol content of bio-oil. Bio-oil undergoes phase separation because of poor stability. Practical application of aqueous phase bio-oil is challenging. In this study, a novel approach that combines aqueous phase bio-oil washing and torrefaction pretreatment was used to upgrade the biomass and pyrolysis product quality. The effects of individual and combined pretreatments on cotton stalk pyrolysis were studied using TG-FTIR and a fixed bed reactor. The results showed that the aqueous phase bio-oil washing pretreatment removed metals and resolved the two pyrolysis peaks in the DTG curve. Importantly, it increased the bio-oil yield and improved the pyrolysis product quality. For example, the water and acid content of bio-oil decreased significantly along with an increase in phenol formation, and the heating value of non-condensable gases improved, and these were more pronounced when combined with torrefaction pretreatment. Therefore, the combined pretreatment is a promising method, which would contribute to the development of polygeneration pyrolysis technology.