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Prepared multifunctional catalyst Ni2P/Zr-SBA-15 and catalyzed Jatropha Oil to produce bio-aviation fuel

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  • Tan, Qihang
  • Cao, Yang
  • Li, Jin

Abstract

A novel multifunctional catalytic system, Ni2P/Zr-SBA-15, was synthesized by H2 temperature-programmed reduction of nickel phosphate precursors impregnated in Zr-SBA-15. Zr-SBA-15 was prepared by hydrothermal crystallization. The properties of catalysts for the hydrodeoxygenation of Jatropha Oil were evaluated by a one-step hydrogenation process in a high-pressure reactor. The best preparation parameters were determined. The multifunction of the catalyst includes excellent deoxidation, aromatization and cracking properties. It is worth noting that this product contains higher concentration aviation fuel components, with amount of C8–C16 accounting for more than 60 wt% of the product oil. The content of paraffin hydrocarbons is 79.25 wt%, aromatic compounds accounting for 10.13 wt% (all consisting of monocyclic aromatics), naphthene accounting for 6.72 wt%. The oil density is 811–828 kg/m3. These physical and chemical properties of C8–C16 are consistent with the detailed requirements for aviation turbine fuels containing synthetic hydrocarbons, as specified in ASTM-D7566-2017b. In this study, the aromatic content and density of nonblended bio-based jet fuels were satisfied with criteria and achieved the one-step hydrogenation process for the preparation of higher quality of bio-jet fuel.

Suggested Citation

  • Tan, Qihang & Cao, Yang & Li, Jin, 2020. "Prepared multifunctional catalyst Ni2P/Zr-SBA-15 and catalyzed Jatropha Oil to produce bio-aviation fuel," Renewable Energy, Elsevier, vol. 150(C), pages 370-381.
  • Handle: RePEc:eee:renene:v:150:y:2020:i:c:p:370-381
    DOI: 10.1016/j.renene.2019.12.029
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    References listed on IDEAS

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    1. Yongjin J. Zhou & Eduard J. Kerkhoven & Jens Nielsen, 2018. "Barriers and opportunities in bio-based production of hydrocarbons," Nature Energy, Nature, vol. 3(11), pages 925-935, November.
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    1. Long, Feng & Zhai, Qiaolong & Liu, Peng & Cao, Xincheng & Jiang, Xia & Wang, Fei & Wei, Linshan & Liu, Chao & Jiang, Jianchun & Xu, Junming, 2020. "Catalytic conversion of triglycerides by metal-based catalysts and subsequent modification of molecular structure by ZSM-5 and Raney Ni for the production of high-value biofuel," Renewable Energy, Elsevier, vol. 157(C), pages 1072-1080.
    2. Long, Feng & Liu, Weiguo & Jiang, Xia & Zhai, Qiaolong & Cao, Xincheng & Jiang, Jianchun & Xu, Junming, 2021. "State-of-the-art technologies for biofuel production from triglycerides: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 148(C).
    3. Yang, Huiru & Du, Xiangze & Lei, Xiaomei & Zhou, Keyao & Tian, Yunfei & Li, Dan & Hu, Changwei, 2021. "Unraveling enhanced activity and coke resistance of Pt-based catalyst in bio-aviation fuel refining," Applied Energy, Elsevier, vol. 301(C).
    4. Verma, Vikas & Mishra, Ankit & Anand, Mohit & Farooqui, Saleem Akhtar & Sinha, Anil Kumar, 2022. "Catalytic hydrocracking of inedible palm stearin for the production of drop-in aviation fuel and comparison with other inedible oils," Renewable Energy, Elsevier, vol. 199(C), pages 1440-1450.
    5. Tang, Hongbiao & Lin, Jiayu & Cao, Yang & Jibran, Khalil & Li, Jin, 2022. "Influence of NiMoP phase on hydrodeoxygenation pathways of jatropha oil," Energy, Elsevier, vol. 243(C).
    6. Xing, Shiyou & Fu, Junying & Li, Ming & Yang, Gaixiu & Lv, Pengmei, 2024. "Emerging catalysis in solvent-free hydrodeoxygenation of waste lipids under mild conditions: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 200(C).
    7. Gómez-Castro, F.I. & Gutiérrez-Antonio, C. & Romero-Izquierdo, A.G. & May-Vázquez, M.M. & Hernández, S., 2023. "Intensified technologies for the production of triglyceride-based biofuels: Current status and future trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 184(C).

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