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Aromatics production from fast co-pyrolysis of lignin and waste cooking oil catalyzed by HZSM-5 zeolite

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  • Fan, Liangliang
  • Ruan, Roger
  • Li, Jun
  • Ma, Longlong
  • Wang, Chenguang
  • Zhou, Wenguang

Abstract

Lignin and waste cooking oil are wastes from paper and food industries, respectively. In this work, the catalytic fast co-pyrolysis of lignin and waste cooking oil for the production of aromatics in a pyroprobe was investigated with an aim to improve the utilization of lignin waste and waste cooking oil. Furthermore, lignin-derived monomers, including phenol, o-cresol, and guaiacol, were also used as model feedstock for the catalytic co-pyrolysis in order to study the mechanism underlying aromatic formation. The mechanistic study helped lay theoretical foundation for the industrial application of the co-pyrolysis process. The effects of catalyst and waste cooking oil addition on co-pyrolysis product fractional yield and selectivity were studied. High amount of waste cooking oil in the feedstock with appropriate catalyst-to-feedstock ratio (3:1) contributed to high peak-area yields of the total detected compounds and aromatics. The alkylation and demethoxylation of phenols were enhanced at high ratios of catalyst to feedstock and waste cooking oil to lignin. When the ratio of waste cooking oil to lignin was 1:1, the highest mono-aromatic selectivity (82.6%) and synergistic extent (52.1%) for mono-aromatic production were obtained. The catalytic co-pyrolysis of the lignin-derived monomers and waste cooking oil showed that guaiacol was the most active compound to be converted to aromatics, followed by o-cresol, and phenol. The reaction mechanism underlying the formation of aromatics from the synergistic conversion of aliphatics and phenolics was elaborated.

Suggested Citation

  • Fan, Liangliang & Ruan, Roger & Li, Jun & Ma, Longlong & Wang, Chenguang & Zhou, Wenguang, 2020. "Aromatics production from fast co-pyrolysis of lignin and waste cooking oil catalyzed by HZSM-5 zeolite," Applied Energy, Elsevier, vol. 263(C).
    • Handle: RePEc:eee:appene:v:263:y:2020:i:c:s0306261920301410
    DOI: 10.1016/j.apenergy.2020.114629
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    2. Zhou, Xin & Yan, Hao & Sun, Zongzhuang & Feng, Xiang & Zhao, Hui & Liu, Yibin & Chen, Xiaobo & Yang, Chaohe, 2021. "Opportunities for utilizing waste cooking oil in crude to petrochemical process: Novel process design, optimal strategy, techno-economic analysis and life cycle society-environment assessment," Energy, Elsevier, vol. 237(C).
    3. Chen, Mingqiang & Li, Hong & Wang, Yishuang & Tang, Zhiyuan & Dai, Wei & Li, Chang & Yang, Zhonglian & Wang, Jun, 2023. "Lignin depolymerization for aromatic compounds over Ni-Ce/biochar catalyst under aqueous-phase glycerol," Applied Energy, Elsevier, vol. 332(C).
    4. Hemant Ghai & Deepak Sakhuja & Shikha Yadav & Preeti Solanki & Chayanika Putatunda & Ravi Kant Bhatia & Arvind Kumar Bhatt & Sunita Varjani & Yung-Hun Yang & Shashi Kant Bhatia & Abhishek Walia, 2022. "An Overview on Co-Pyrolysis of Biodegradable and Non-Biodegradable Wastes," Energies, MDPI, vol. 15(11), pages 1-27, June.
    5. Wang, Jia & Jiang, Jianchun & Li, Dongxian & Meng, Xianzhi & Zhan, Guowu & Wang, Yunpu & Zhang, Aihua & Sun, Yunjuan & Ruan, Roger & Ragauskas, Arthur J., 2022. "Creating values from wastes: Producing biofuels from waste cooking oil via a tandem vapor-phase hydrotreating process," Applied Energy, Elsevier, vol. 323(C).
    6. Ouyang, Denghao & Wang, Fangqian & Hong, Jinpeng & Gao, Daihong & Zhao, Xuebing, 2021. "Ferricyanide and vanadyl (V) mediated electron transfer for converting lignin to electricity by liquid flow fuel cell with power density reaching 200 mW/cm2," Applied Energy, Elsevier, vol. 304(C).
    7. Ke, Linyao & Wu, Qiuhao & Zhou, Nan & Xiong, Jianyun & Yang, Qi & Zhang, Letian & Wang, Yuanyuan & Dai, Leilei & Zou, Rongge & Liu, Yuhuan & Ruan, Roger & Wang, Yunpu, 2022. "Lignocellulosic biomass pyrolysis for aromatic hydrocarbons production: Pre and in-process enhancement methods," Renewable and Sustainable Energy Reviews, Elsevier, vol. 165(C).

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