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Synergistic effect on thermal behavior and product characteristics during co-pyrolysis of biomass and waste tire: Influence of biomass species and waste blending ratios

Author

Listed:
  • Niu, Miaomiao
  • Sun, Rongyue
  • Ding, Kuan
  • Gu, Haiming
  • Cui, Xiaobo
  • Wang, Liang
  • Hu, Jichu

Abstract

The work aims to get a full understanding of the co-pyrolysis synergy between different biomass and waste tire for high value utilization of both biomass and waste tire. Rice husk (RH), wheat straw (WS) and moso bamboo (MB) were chosen to co-pyrolyze with waste tire (WT). Influence of biomass species and blending ratios on co-pyrolysis synergistic effect was studied by analyzing thermal behavior, product yields and character. Thermogravimetry analysis proved the existence of synergistic effect and measured positive decomposition synergy for MB/WT. Char production showed little synergy for all biomass during co-pyrolysis while positive synergistic effect in liquid production was weakened with WT blending. Co-pyrolysis char integrated both biomass char and WT char characteristic. The pore structure was corresponding to that of biomass char and improved by synergy for all biomass, especially WS and MB. Co-pyrolysis oil mainly consisted of the typical components of bio-oil and WT oil, showing lower oxygenated compounds percentage than bio-oil. Aromatic hydrocarbons formation was inhibited while alicyclic hydrocarbons formation was intensified by co-pyrolysis interaction and MB/WT co-pyrolysis showed significant synergy in ethers and furans production. Co-pyrolysis showed positive synergistic effect on CO and CO2 generation and negative synergistic effect on H2 and CH4 content.

Suggested Citation

  • Niu, Miaomiao & Sun, Rongyue & Ding, Kuan & Gu, Haiming & Cui, Xiaobo & Wang, Liang & Hu, Jichu, 2022. "Synergistic effect on thermal behavior and product characteristics during co-pyrolysis of biomass and waste tire: Influence of biomass species and waste blending ratios," Energy, Elsevier, vol. 240(C).
    • Handle: RePEc:eee:energy:v:240:y:2022:i:c:s0360544221030577
    DOI: 10.1016/j.energy.2021.122808
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    References listed on IDEAS

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    1. Amutio, M. & Lopez, G. & Artetxe, M. & Elordi, G. & Olazar, M. & Bilbao, J., 2012. "Influence of temperature on biomass pyrolysis in a conical spouted bed reactor," Resources, Conservation & Recycling, Elsevier, vol. 59(C), pages 23-31.
    2. Xiao, Ruirui & Yang, Wei & Cong, Xingshun & Dong, Kai & Xu, Jie & Wang, Dengfeng & Yang, Xin, 2020. "Thermogravimetric analysis and reaction kinetics of lignocellulosic biomass pyrolysis," Energy, Elsevier, vol. 201(C).
    3. Kang, Yating & Yang, Qing & Bartocci, Pietro & Wei, Hongjian & Liu, Sylvia Shuhan & Wu, Zhujuan & Zhou, Hewen & Yang, Haiping & Fantozzi, Francesco & Chen, Hanping, 2020. "Bioenergy in China: Evaluation of domestic biomass resources and the associated greenhouse gas mitigation potentials," Renewable and Sustainable Energy Reviews, Elsevier, vol. 127(C).
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    Cited by:

    1. Wang, Yuzhuo & Wu, Jun Jie, 2023. "Thermochemical conversion of biomass: Potential future prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 187(C).
    2. Erić, Aleksandar & Cvetinović, Dejan & Milutinović, Nada & Škobalj, Predrag & Bakić, Vukman, 2022. "Combined parametric modelling of biomass devolatilisation process," Renewable Energy, Elsevier, vol. 193(C), pages 13-22.

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