Catalytic pyrolysis of biomass with potassium compounds for Co-production of high-quality biofuels and porous carbons

摘要

This papet studied the catalytic pyrolysis of rice husk (RH) with different K-compounds (i.e., KOH, K_2CO_3 and K_2C_2O_4) for co-production of biofuels and porous carbons. The decomposition of biomass occurred at lower temperatute ranges due to the catalytic performance of K-compounds, following the order of KOH＞K_2CO_3＞K_2C_2O_4. By fast pyrolysis of RH with the K-compounds, the number of organic compounds was significantly reduced. More hydrocarbons (e.g., benzene, long-chain alkanes) were generated due to the in-situ catalytic upgrading (e.g., deoxygenation) of bio-oil. Pyrolysis of biomass with K-compounds could also accelerate the generation of unsaturated aliphatic hydrocarbons. In particular, pyrolysis of RH with K_2C_2O_4 could result in the bio-oil with high-content of hydrocarbons and with low-content of oxygenated compounds (e.g., acids, phenols). Furthermore, the activated char with hierarchically micro-mesoporous structure was applied for toluene sorption. The pristine biochar had a relatively low adsorption time and capacity. By the chemical activation followed by the washing process, the specific surface area (S_(BET)) of the RH-defived chars was significantly increased. The RHC-K_2C_2O_4 had a maximum Sbet of 1347 m~(2/)g due to its mild activation process, which further contributed to a highest breakthrough time (1230 min) and capacity (609.38 mg/g) on toluene adsorption.