Hydroconversion of Waste Cooking Oil into Bio-Jet Fuel over a Hierarchical NiMo/USY@Al-SBA-15 Zeolite

Zhang Zongwei; Wang Qingfa; Chen HaoZhang Xiangwen

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Hydroconversion of Waste Cooking Oil into Bio-Jet Fuel over a Hierarchical NiMo/USY@Al-SBA-15 Zeolite

机译：Hydroconversion废烹调油生物燃料在一个分层的尼莫地平/ USY@Al-SBA-15沸石

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The direct conversion of waste cooking oil (WCO) into bio-jet fuel was investigated over a core-shell hierarchical USY@Al-SBA-15 zeolite-supported NiMo catalyst. The core-shell structure showed better acid and pore size distributions. The synergetic effect of the core-shell micropore and mesopore structure significantly contributed to enhancing the selectivity for the jet fuel (C9-15 hydrocarbons) from 9.3% over NiMo/USY up to 35.7% over NiMo/USY@Al-SBA-15, with high isomerization (iso-/n-paraffins ratio = 2.7) and moderate aromatic fraction (18.7%). The decarboxylation reaction was selectively enhanced. Optimal selectivity for jet fuel (39.7%) was obtained at 380 degrees C and a high H-2/oil ratio would decrease the yield of jet fuel. This catalyst showed excellent stability for the hydroconversion of WCO to hydrocarbons.

机译：废食用油的直接转换(海关组织)生物燃料是在调查核壳分层USY@Al-SBA-15zeolite-supported尼莫地平催化剂。结构显示更好的酸和孔隙大小分布。核壳微孔和中孔结构显著提高选择性的喷气燃料(C9-15碳氢化合物)从9.3%尼莫地平/忙到35.7%尼莫地平/ USY@Al-SBA-15高异构化(iso - / n-paraffins比= 2.7)和温和芳香分数(18.7%)。反应选择性提高。选择性的喷气燃料(39.7%)获得380摄氏度和高2 /油比减少喷气燃料的产量。表现出优秀的稳定hydroconversion海关组织的碳氢化合物。

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《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology》 |2018年第3期|590-597|共8页
作者
Zhang Zongwei; Wang Qingfa; Chen HaoZhang Xiangwen;
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作者单位

Tianjin Univ, Sch Chem Engn & Technol, Key Lab Green Chem Technol, Minist Educ, Tianjin 300072, Peoples R China;

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原文格式 PDF
正文语种英语
中图分类 C16;
关键词
Fuels; BIOFUEL; HydrocarbonsHierarchicalEdible oilsinert wastePore size distributionhydrodeoxygenationJet fuelsdirect conversion;

机译：燃料、生物燃料、HydrocarbonsHierarchicalEdibleoilsinert wastePore大小distributionhydrodeoxygenationJet fuelsdirect转换;

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Hydroconversion of Waste Cooking Oil into Bio-Jet Fuel over a Hierarchical NiMo/USY@Al-SBA-15 Zeolite

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