期刊
JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS
卷 168, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jaap.2022.105748
关键词
Lignin; Spent bleaching clay; Catalytic co -pyrolysis; Monocyclic aromatic hydrocarbons; Coke
资金
- National Key R & D Program of China
- National Natural Science Foundation of China
- National Natural Science Foundation of Shandong
- Guangdong Provincial Key Laboratory of New and Renewable Energy Research and Development
- [2019YFD1100602]
- [52176192]
- [52130610]
- [ZR2021ME035]
- [ZR2021QE132]
- [E239kf0701]
This study successfully improved the anti-coking performance of HZSM-5 by using CSBC as a binder, while increasing the selectivity for MAHs. After 3 reaction-regeneration cycles, the catalytic activity of CSHZ11 for MAHs was 71.11 % of fresh catalyst. The research demonstrates the feasibility of using binder modification to enhance the anti-coking performance of HZSM-5 and provides a reference for the integrated utilization of SBC and lignin.
Improving the anti-coking performance of catalyst during lignin-catalyzed pyrolysis without affecting the selectivity of the monocyclic aromatic hydrocarbons (MAHs) is a challenge. In this paper, a low-cost composite catalyst (CSHZ) was prepared using calcined spent bleaching clay (CSBC) as a binder for HZSM-5 to resolve the issue. In order to evaluate the performance of the composite catalyst, an ex-situ fast catalytic co-pyrolysis experiment was performed in a fixed-bed reaction system with lignin and spent bleaching clay (SBC) as raw materials. The impacts of the temperature, CSBC-to-HZSM-5 ratios, raw material-to-catalyst ratios, and cycle -regeneration times on MAHs distribution, are then studied. The selectivity of CSHZ11 (CSBS-to-HZSM-5 ratio of 1:1) for MAHs in bio-oil reached 78.02 % at 550 celcius and the raw material-to-catalyst ratio of 1:1, which exceeded those of HZSM-5 alone by 19.12 %. After 3 reaction-regeneration cycles, the catalytic activity of CSHZ11 for MAHs was 71.11 % of fresh catalyst. The characterization (TEM, Py-IR, TGA, etc.) of the catalysts (fresh and discarded) revealed that the addition of CSBC regulated the acidity and pore channels of HZSM-5 and inhibited the formation of catalyst graphite-like coke. This study demonstrates the feasibility of using binder modification to improve the anti-coking performance of HZSM-5. It also serves as a reference for the integrated utilization of SBC and lignin.
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