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Co-pyrolysis of bamboo residual with waste tire over dual catalytic stage of CaO and co-modified HZSM-5

Author

Listed:
  • Wang, Jia
  • Zhong, Zhaoping
  • Ding, Kuan
  • Zhang, Bo
  • Deng, Aidong
  • Min, Min
  • Chen, Paul
  • Ruan, Roger

Abstract

Experiments for an upgraded liquid oil production via fast co-pyrolysis of bamboo residual and waste tire over two catalytic beds of CaO and HZSM-5 were conducted, and the effect of CaO to HZSM-5 mass ratio on pyrolytic products distribution was investigated and analyzed. Furthermore, a novel modification method for enhancing the catalytic performance of HZSM-5 by an integrated alkali treatment and hydrothermal process was carried out, and the influence of co-modified HZSM-5 on products distribution was also studied. Experimental results revealed that the catalytic fast co-pyrolysis of bamboo residual and waste tire increased the relative contents of aromatics and olefins. Simultaneously, a use of dual catalytic stage of CaO and HZSM-5 further facilitated the relative contents of aromatics and olefins significantly, and inhibited the formation of undesirables like acids. A maximum yield of hydrocarbons could be reached at HZSM-5 to CaO mass ratio of 3:2. Furthermore, the co-modified HZSM-5 promoted the relative contents of aromatics and olefins compared with the fresh ones, which showed great promise for upgrading the quality of liquid oil.

Suggested Citation

  • Wang, Jia & Zhong, Zhaoping & Ding, Kuan & Zhang, Bo & Deng, Aidong & Min, Min & Chen, Paul & Ruan, Roger, 2017. "Co-pyrolysis of bamboo residual with waste tire over dual catalytic stage of CaO and co-modified HZSM-5," Energy, Elsevier, vol. 133(C), pages 90-98.
    • Handle: RePEc:eee:energy:v:133:y:2017:i:c:p:90-98
    DOI: 10.1016/j.energy.2017.05.146
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    Citations

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    Cited by:

    1. Liu, Rongtang & Liu, Ming & Fan, Peipei & Zhao, Yongliang & Yan, Junjie, 2018. "Thermodynamic study on a novel lignite poly-generation system of electricity-gas-tar integrated with pre-drying and pyrolysis," Energy, Elsevier, vol. 165(PB), pages 140-152.
    2. Zhang, Li & Yao, Zonglu & Zhao, Lixin & Li, Zhihe & Yi, Weiming & Kang, Kang & Jia, Jixiu, 2021. "Synthesis and characterization of different activated biochar catalysts for removal of biomass pyrolysis tar," Energy, Elsevier, vol. 232(C).
    3. Wang, Shaoqing & Li, Zhihe & Yi, Weiming & Fu, Peng & Zhang, Andong & Bai, Xueyuan, 2021. "Renewable aromatic hydrocarbons production from catalytic pyrolysis of lignin with Al-SBA-15 and HZSM-5: Synergistic effect and coke behaviour," Renewable Energy, Elsevier, vol. 163(C), pages 1673-1681.
    4. Arabiourrutia, Miriam & Lopez, Gartzen & Artetxe, Maite & Alvarez, Jon & Bilbao, Javier & Olazar, Martin, 2020. "Waste tyre valorization by catalytic pyrolysis – A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 129(C).
    5. Chen, Wei & Li, Kaixu & Xia, Mingwei & Yang, Haiping & Chen, Yingquan & Chen, Xu & Che, Qingfeng & Chen, Hanping, 2018. "Catalytic deoxygenation co-pyrolysis of bamboo wastes and microalgae with biochar catalyst," Energy, Elsevier, vol. 157(C), pages 472-482.
    6. Hou, Yanmei & Feng, Zixing & He, Yuyu & Gao, Qi & Ni, Liangmeng & Su, Mengfu & Ren, Hao & Liu, Zhijia & Hu, Wanhe, 2022. "Co-pyrolysis characteristics and synergistic interaction of bamboo residues and disposable face mask," Renewable Energy, Elsevier, vol. 194(C), pages 415-425.
    7. Chen, Rongjie & Lun, Liyong & Cong, Kunlin & Li, Qinghai & Zhang, Yanguo, 2019. "Insights into pyrolysis and co-pyrolysis of tobacco stalk and scrap tire: Thermochemical behaviors, kinetics, and evolved gas analysis," Energy, Elsevier, vol. 183(C), pages 25-34.

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