Frontiers in Energy Research (Feb 2022)

Microwave-Assisted Camellia oleifera Abel Shell Biochar Catalyzed Fast Pyrolysis of Waste Vegetable Oil to Produce Aromatic-Rich Bio-Oil

  • Meiling Xia,
  • Yunpu Wang,
  • Qiuhao Wu,
  • Yuan Zeng,
  • Shumei Zhang,
  • Leilei Dai,
  • Leilei Dai,
  • Rongge Zou,
  • Yuhuan Liu,
  • Roger Ruan,
  • Roger Ruan

DOI
https://doi.org/10.3389/fenrg.2022.837875
Journal volume & issue
Vol. 10

Abstract

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In this work, Camellia oleifera Abel shell was used as a feedstock to prepare biochar by HNO3 impregnation and pyrolysis. The biochar was used for the catalytic pyrolysis of waste vegetable oil to prepare bio-oil. Experimental results showed that HNO3 solution treatment had an important effect on the groups and structure of the biochar catalyst. When the solid/liquid ratio of pretreatment was 1:3, the Brunauer–Emmett–Teller specific surface area of the 1:3–600°C biochar is 392.65 m2/g, which is approximately 677 times higher than that of untreated biochar. Moreover, the biochar catalyst had a remarkable catalytic performance. The selectivity of the monocyclic aromatic hydrocarbon in the bio-oil was up to 78.82%, and the oxy-compound could be completely removed at the catalytic temperature of 600°C. However, the increase of the catalyst-to-waste vegetable oil ratio and catalytic temperature decreased the bio-oil yield.

Keywords