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Investigation on the correlation between AAEMs transformation and reactivity synergy during the co-combustion of biochar and coal char

Author

Listed:
  • Wei, Juntao
  • Wang, Miao
  • Zhang, Linmin
  • Li, Bin
  • Jiang, Yu
  • Song, Xudong
  • Yu, Guangsuo
  • Zhang, Junxian
  • Zhang, Shu
  • Xu, Deliang

Abstract

Co-combustion synergy behavior was caused by the coupling effect of AAEMs in different chemical forms but co-combustion synergy mechanism was currently unclear. In the study, co-combustion reactivity and synergy behavior of blends of rice straw char (R) and coal char (C) and blends of pretreated R (washed by NH4Ac solution) and pretreated C were investigated. AAEMs transformation during co-combustion was analyzed based on experimental and simulation methods and co-combustion synergy mechanism was proposed. The results show that as temperature increased from 500 to 800 °C, synergistic effect firstly decreased and then increased with an extreme point at 600 °C. For pretreated blends, transformation of HCl-soluble K in R to H2O-soluble K could catalyze the residual semi-char reaction, leading to synergistic effect. KCl in R has higher catalytic and migration activity compared to active Na/Ca in C, therefore synergistic effect was generally improved when KCl was present in blends. Thermodynamic simulation demonstrated that KCl volatilized significantly at temperature ranging from 700 to 800 °C. Therefore, synergistic effect increased with temperature increasing from 600 to 800 °C. Formation of stable Na–Ca–Si combeite reduced SiO2 transformation into liquid and covering C surface, and thus cause an increased synergistic effect at 700–800 °C.

Suggested Citation

  • Wei, Juntao & Wang, Miao & Zhang, Linmin & Li, Bin & Jiang, Yu & Song, Xudong & Yu, Guangsuo & Zhang, Junxian & Zhang, Shu & Xu, Deliang, 2024. "Investigation on the correlation between AAEMs transformation and reactivity synergy during the co-combustion of biochar and coal char," Renewable Energy, Elsevier, vol. 223(C).
  • Handle: RePEc:eee:renene:v:223:y:2024:i:c:s0960148124001691
    DOI: 10.1016/j.renene.2024.120104
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