AI Article Synopsis
- The study investigates a dual catalytic system for co-pyrolyzing lignin and spent bleaching clay (SBC) to produce mono-aromatic hydrocarbons (MAHs).
- The optimal conditions were found to be at 550 °C with a CSBC-to-HZSM-5 ratio of 1:1 and a raw materials-to-catalyst ratio of 1:2, resulting in a bio-oil yield of 21.35 wt% and a high MAHs content of 73.34%.
- The introduction of SBC helps reduce unwanted byproducts like graphite-like coke and highlights the potential to utilize spent bleaching clay while addressing its environmental impacts.
Article Abstract
In the present study, a cascade dual catalytic system was used for the co-pyrolysis of lignin with spent bleaching clay (SBC) to efficiently produce mono-aromatic hydrocarbon (MAHs). The cascade dual catalytic system is composed of calcined SBC (CSBC) and HZSM-5. In this system, SBC not only acts as a hydrogen donor and catalyst in the co-pyrolysis process, but is also used as a primary catalyst in the cascade dual catalytic system after recycling the pyrolysis residues. The effects of different influencing factors (i.e., temperature, CSBC-to-HZSM-5 ratio, and raw materials-to-catalyst ratio) on the system were explored. It was observed that, when the temperature was 550 °C, the CSBC-to-HZSM-5 ratio was 1:1, and when the raw materials-to-catalyst ratio was 1:2, the highest bio-oil yield was 21.35 wt%. The relative MAHs content in bio-oil was 73.34 %, whereas the relative polycyclic aromatic hydrocarbons (PAHs) content was 23.01 %. Meanwhile, the introduction of CSBC inhibited the generation of graphite-like coke as indicated by HZSM-5. This study realizes the full resource utilization of spent bleaching clay and reveals the environmental hazards caused by spent bleaching clay and lignin waste.
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| http://dx.doi.org/10.1016/j.ijbiomac.2023.123879 | DOI Listing |
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