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CoMoS/γ-Al2O3催化剂对麻疯树油加氢处理的研究

田维乾 刘静 刘灿 范恺 荣龙

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文章导航 > 燃料化学学报(中英文)  > 2013 >  41(02): 207-213
田维乾, 刘静, 刘灿, 范恺, 荣龙. CoMoS/γ-Al2O3催化剂对麻疯树油加氢处理的研究[J]. 燃料化学学报(中英文), 2013, 41(02): 207-213.
引用本文: 田维乾, 刘静, 刘灿, 范恺, 荣龙. CoMoS/γ-Al2O3催化剂对麻疯树油加氢处理的研究[J]. 燃料化学学报(中英文), 2013, 41(02): 207-213.
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TIAN Wei-qian, LIU Jing, LIU Can, FAN Kai, RONG Long. Hydrotreatment of jatropha oil over CoMoS/γ-Al2O3 catalyst[J]. Journal of Fuel Chemistry and Technology, 2013, 41(02): 207-213.
Citation: TIAN Wei-qian, LIU Jing, LIU Can, FAN Kai, RONG Long. Hydrotreatment of jatropha oil over CoMoS/γ-Al2O3 catalyst[J]. Journal of Fuel Chemistry and Technology, 2013, 41(02): 207-213.
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CoMoS/γ-Al2O3催化剂对麻疯树油加氢处理的研究

  • 北京航空航天大学 生物与医学工程学院, 北京 100191

基金项目: 北京航空航天大学基本科研业务项目(YWF-11-02-001)。
详细信息
    通讯作者:

    荣龙,男,教授;Tel:010-82339157;E-mail:ronglong@buaa.edu.cn。

  • 中图分类号: TQ032

Hydrotreatment of jatropha oil over CoMoS/γ-Al2O3 catalyst

  • School of Biological Science and Medical Engineering, Beihang University, Beijing 100191, China

    摘要
  • 摘要: 采用硫代硫酸铵器外预硫化制备CoMoS/γ-Al2O3催化剂,采用XRD、N2物理吸附、NH3-TPD、XRF等手段对催化剂进行表征,通过固定床微反装置研究其对麻疯树油加氢处理的性能。考察了硫化度、反应温度、氢气压力、反应时间对催化剂活性与催化产物分布的影响,并探讨了麻疯树油甘油三酯的反应路径。结果表明,硫化度为1的CoMoS1/γ-Al2O3催化剂活性最佳,在温度360℃、氢气压力3 MPa条件下,对麻疯树油转化率为96.3%,产物主要成分C15~18正构烷烃收率为75.6%,比相同条件下非硫化CoMo/γ-Al2O3催化剂的转化率提高36.9%。反应温度升至420℃时,CoMoS1/γ-Al2O3催化剂对麻疯树油转化率达100%,产物中无含氧物。麻疯树油加氢处理过程中,增大硫化度和反应温度、减小氢气压力有利于甘油三酯发生加氢脱羧、脱羰反应。
    Abstract: CoMoS/γ-Al2O3 catalysts were prepared by ex-situ presulfiding method using ammonium thiosulfate as a sulfiding agent and characterized by XRD, N2 physisorption, NH3-TPD and XRF techniques. The catalytic performances were tested by hydrotreatment of jatropha oil in a fixed-bed reactor. The effects of sulfidity, reaction temperature, hydrogen pressure and reaction time on catalyst activity and catalytic product distributions were investigated. Reaction pathways for the hydrotreatment of jatropha oil were also discussed. The results showed that the CoMoS1/γ-Al2O3 catalyst with a sulfidity of 1 had the best hydrotreatment activity, showing 96.3% conversion of jatropha oil and 75.6% yield to the main components of C15~18 n-alkanes at temperature 360℃ and hydrogen pressure 3 MPa. Its conversion was 36.9% higher than that of the non-sulfided CoMo/γ-Al2O3 catalyst at the same reaction conditions. It is worth noticing that both of the conversion of jatropha oil and the total oxygen-free compound of products could achieve 100% over CoMoS1/γ-Al2O3 at 420℃, 3 MPa. With the increase of sulfidity and reaction temperature or the decrease of hydrogen pressure, the hydrodecarboxylation and hydrodecarbonylation were enhanced.
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出版历程
  • 收稿日期:  2012-06-04
  • 修回日期:  2012-08-13
  • 刊出日期:  2013-02-28

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