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Optimization of aviation kerosene from one-step hydrotreatment of catalytic Jatropha oil over SDBS-Pt/SAPO-11 by response surface methodology

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  • Li, Xingyong
  • Chen, Yubao
  • Hao, Yajie
  • Zhang, Xu
  • Du, Junchen
  • Zhang, Aimin

Abstract

The Pt/SAPO-11 was modified by sodium dodecyl benzene sulfonate (SDBS) to synthesize a new catalyst SDBS-Pt/SAPO-11 firstly. And then, the structure of SDBS-Pt/SAPO-11 was characterized by X-ray fluorescence (XRF), X-ray diffraction (XRD), N2 adsorption-desorption and transmission electron microscopy (TEM). Aviation kerosene was produced by one-step hydro treatment with Jatropha oil as raw material in a high-pressure fixed-bed reactor over SDBS-Pt/SAPO-11. Based on the Box-Behnken central composite design, maintenance temperature, pressure, liquid hourly space velocity (LHSV) and hydrogen/oil ratio (hydrogen volume/Jatropha oil volume) were chosen as the four important factors with three levels. The process conditions were optimized by response surface methodology (RSM), and a mathematical model with a second order quadratic equation was developed for increasing C8–C16 hydrocarbons. The optimized conditions were found to be a temperature at 410 °C, a pressure at 5 MPa, the LHSV at 1.2 h−1 and the hydrogen/oil ratio at 1000 NmL·mL−1 as the best operating conditions. The verification experiment was carried out 3 times and the selectivity of C8–C16 hydrocarbons was found to be 59.51%, and the selectivity of C8–C16iso-alkanes was found to be 25.41%.

Suggested Citation

  • Li, Xingyong & Chen, Yubao & Hao, Yajie & Zhang, Xu & Du, Junchen & Zhang, Aimin, 2019. "Optimization of aviation kerosene from one-step hydrotreatment of catalytic Jatropha oil over SDBS-Pt/SAPO-11 by response surface methodology," Renewable Energy, Elsevier, vol. 139(C), pages 551-559.
    • Handle: RePEc:eee:renene:v:139:y:2019:i:c:p:551-559
    DOI: 10.1016/j.renene.2019.01.085
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    References listed on IDEAS

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    1. Jack P. C. Kleijnen, 2015. "Response Surface Methodology," International Series in Operations Research & Management Science, in: Michael C Fu (ed.), Handbook of Simulation Optimization, edition 127, chapter 0, pages 81-104, Springer.
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    1. Li, Xingyong & Fan, Qiyuan & Wu, Kaiyue & Liu, Na & Zhang, Wei & Liu, Ying & Chen, Yubao & Cheng, Jun & Zheng, Zhifeng, 2024. "Enhancing catalytic isomerization ability of SAPO-11 by typical acid modification in preparation of green diesel by one-step hydrotreatment of FAME," Renewable Energy, Elsevier, vol. 224(C).
    2. Zheng, Yunwu & Wang, Jida & Liu, Can & Lu, Yi & Lin, Xu & Li, Wenbin & Zheng, Zhifeng, 2020. "Efficient and stable Ni-Cu catalysts for ex situ catalytic pyrolysis vapor upgrading of oleic acid into hydrocarbon: Effect of catalyst support, process parameters and Ni-to-Cu mixed ratio," Renewable Energy, Elsevier, vol. 154(C), pages 797-812.
    3. Alherbawi, Mohammad & McKay, Gordon & Mackey, Hamish R. & Al-Ansari, Tareq, 2021. "Jatropha curcas for jet biofuel production: Current status and future prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).
    4. 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).
    5. Hu, Liangdong & Ma, Longlong & Hu, Guangzhi & Zhang, Wenjie & Liu, Ying & Xu, Rui & Ge, Wen & Chen, Yubao, 2022. "Utilization of illumination and thermal field in the preparation of jet–fuel components: The photothermic catalysis of Jatropha oil over the M/TiO2–HZSM–5," Energy, Elsevier, vol. 239(PC).
    6. 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.
    7. 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).
    8. Li, Xingyong & Wu, Yankun & Wang, Qi & Li, Shuirong & Ye, Yueyuan & Wang, Dechao & Zheng, Zhifeng, 2022. "Effect of preparation method of NiMo/γ-Al2O3 on the FAME hydrotreatment to produce C15–C18 alkanes," Renewable Energy, Elsevier, vol. 193(C), pages 1-12.
    9. Moon, Myounghoon & Park, Won-Kun & Lee, Soo Youn & Hwang, Kyung-Ran & Lee, Sangmin & Kim, Min-Sik & Kim, Bolam & Oh, You-Kwan & Lee, Jin-Suk, 2022. "Utilization of whole microalgal biomass for advanced biofuel and biorefinery applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 160(C).
    10. 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).
    11. Song, Miaojia & Zhang, Xinghua & Chen, Yubao & Zhang, Qi & Chen, Lungang & Liu, Jianguo & Ma, Longlong, 2023. "Hydroprocessing of lipids: An effective production process for sustainable aviation fuel," Energy, Elsevier, vol. 283(C).
    12. Lin, Cheng-Han & Wang, Wei-Cheng, 2020. "Direct conversion of glyceride-based oil into renewable jet fuels," Renewable and Sustainable Energy Reviews, Elsevier, vol. 132(C).

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