High Quality Jet Fuel Blend Production by Oxygen-Containing

9 hours ago - Hence, Pt supported on a support with a milder acidity and better diffusion property was proposed to build a suitable terpenoids hydro-p...
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High Quality Jet Fuel Blend Production by Oxygen-Containing Terpenoids Hydro-processing Chao Ju, Meng Wang, Yong Huang, Yunming Fang, and Tianwei Tan ACS Sustainable Chem. Eng., Just Accepted Manuscript • DOI: 10.1021/ acssuschemeng.7b04334 • Publication Date (Web): 27 Feb 2018 Downloaded from http://pubs.acs.org on March 1, 2018

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ACS Sustainable Chemistry & Engineering

High Quality Jet Fuel Blend Production by Oxygen-Containing Terpenoids Hydro-processing Chao Ju, Meng Wang, Yong Huang, Yunming Fang*, Tianwei Tan National Energy R&D Research Center for Biorefinery, Department of Chemical Engineering, Beijing University of Chemical Technology, 15 Beisanhuan East Road, Beijing 100029, P.R. China * Corresponding author. Tel./fax: +86 10 64429057 E-mail: [email protected]

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Abstract: Bio-jet fuel production has attracted a lot of research interests due to the double threats of fuel shortage and environmental concerns. This paper works on the high quality jet fuel blend production by oxygen-containing terpenoids hydro-processing. Hydro-processing of three typical oxygen-containing terpenoids (geranyl acetone, nerolidol, and geraniol) over Pt/Al2O3 was firstly studied. The results indicate that the co-existence of branched carbon backbone, carbon-carbon double bond and oxygen-containing function group make the terpenoids highly reactive during the hydro-processing. The Pt/Al2O3 catalyst, which is considered to have a mild acidity, is still too active in terpenoids hydrogenation, and results in large heat release and extensive side reactions. Hence, Pt supported on a support with a milder acidity and better diffusion property was proposed to build a suitable terpenoids hydro-processing catalyst. Pt/Al-MCFs (MCF: mesocellular silica foam) were then successfully prepared, characterized, and tested in this reaction. Acidic sites could be introduced into MCFs by Al grafting of the pure silica MCF. The acidities of MCF supports and consequently Pt/MCFs could be fine-tuned by the Si/Al ratio in the resulting supports. Pt/Al-MCF-20 with a milder acidity than Pt/Al2O3 shows an excellent performance in geranyl acetone hydro-processing with complete deoxygenation, limited side reaction, and high stability. Characterization results of Pt/Al-MCFs and Pt/MCF indicate that Al introduction is critical for the stable performance. The products obtained from geranyl acetone hydro-processing over Pt/Al-MCF-20 are highly promising as jet fuel or jet fuel blend due to its multi-branched alkane and alkyl-cycloalkane nature, which meets all the specifications of ASTM 7566 in the desired freezing point (-72 °C), density (0.80 g/mL), flash point (51 °C), heat of combustion (45 MJ/kg), and aromatics content (