@ARTICLE{Jia_Hanzhong_Low-temperature_2017, author={Jia, Hanzhong and Zhao, Song and Zhou, Xiehong and Qu, Chengtun and Fan, Daidi and Wang, Chuanyi}, volume={vol. 43}, number={No 3}, journal={Archives of Environmental Protection}, howpublished={online}, year={2017}, publisher={Polish Academy of Sciences}, abstract={Pyrolysis is potentially an effective treatment of oily sludge for oil recovery, and the addition of a catalyst is expected to affect its pyrolysis behavior. In the present study, Fe/Al-pillared bentonite with various Fe/Al ratios as pyrolysis catalyst is prepared and characterized by XRD, N2 adsorption, and NH3-TPD. The integration of Al and Fe in the bentonite interlayers to form pillared clay is evidenced by increase in the basal spacing. As a result, a critical ratio of Fe/Al exists in the Fe/Al-pillared bentonite catalytic pyrolysis for oil recovery from the sludge. The oil yield increases with respect to increase in Fe/Al ratio of catalysts, then decreases with further increasing of Fe/Al ratio. The optimum oil yield using 2.0 wt% of Fe/Al 0.5-pillared bentonite as catalyst attains to 52.46% compared to 29.23% without catalyst addition in the present study. In addition, the addition of Fe/Al-pillared bentonite catalyst also improves the quality of pyrolysis-produced oil and promotes the formation of CH4. Fe/Al-pillared bentonite provides acid center in the inner surface, which is beneficial to the cracking reaction of oil molecules in pyrolysis process. The present work implies that Fe/Al-pillared bentonite as addictive holds great potential in industrial pyrolysis of oily sludge.}, type={Artykuły / Articles}, title={Low-temperature pyrolysis of oily sludge: roles of Fe/Al-pillared bentonites}, URL={http://ochroma.man.poznan.pl/Content/102536/PDF/aep-2017-0027.pdf}, doi={10.1515/aep-2017-0027}, keywords={pyrolysis, oily sludge, Fe/Al pillared bentonites, aliphatic hydrocarbons, Lewis acidity}, }