牛胜利
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Biodiesel production from waste cooking oil through transesterification catalyzed by the strontium-zinc bifunctional oxides
  • 发表刊物:
    Chemical Engineering and Processing - Process Intensification
  • 关键字:
    Biodiesel; Transesterification; Sr-Zn oxides catalyst; Molecular simulation
  • 摘要:
    The basic active sites are rendered inactive by the free fatty acids (FFAs) in the feedstock. The aim of this study was to maximize the use of cheap and readily available waste cooking oil (WCO) and Sr-Zn oxide catalyst (prepared by sol-gel method) for biodiesel production. The best performing catalyst with a molar ratio of ZnO to SrO of 0.6 gave a biodiesel yield of 91.99 % even with the addition of 11 wt.% oleic acid. The morphology, crystal size and acid-base value of the Sr-Zn oxide catalysts were determined using various characterization methods. The results showed that the total basicity and acidity of the Sr-Zn oxide catalysts was 0.402 mmol/g and 0.367 mmol/g, respectively. After Zn doping, the specific surface area increased from 0.28 m2 1 to 0.41 m2+ 1. The adsorption energy of acetic acid on the surface of Sr-Zn oxide was calculated to be the maximum of -268.9 kJ/mol based on the density functional theory. Zinc doping stimulated the C = O bond of acetic acid with the charges of 0.028 e. As a result, Sr-Zn oxide catalysts demonstrated acceptable activity and reusability, indicating bright futures for the heterogeneous catalyst-mediated manufacturing of biodiesel.
  • 全部作者:
    Zhipeng Li
  • 第一作者:
    Sitong Liu
  • 论文类型:
    期刊论文
  • 通讯作者:
    Shengli Niu*
  • 学科门类:
    工学
  • 一级学科:
    动力工程及工程热物理
  • 文献类型:
    J
  • 卷号:
    200
  • 页面范围:
    109777
  • 是否译文:
  • 发表时间:
    2024-04-01
  • 收录刊物:
    SCI
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