Synthesis of Jet-Fuel Range Cycloalkanes from the Mixtures of Cyclopentanone and Butanal

High-density (0.82 g mL–1) jet-fuel range cycloalkanes were synthesized in high overall yields (∼80%) by the aldol condensation of cyclopentanone and butanal followed by hydrodeoxygenation (HDO). Among the investigated solid-base catalysts, magnesium–aluminum hydrotalcite (MgAl-HT) exhibited the hig...

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Published in:Industrial & engineering chemistry research 2015-12, Vol.54 (47), p.11825-11837
Main Authors: Yang, Jinfan, Li, Shanshan, Li, Ning, Wang, Wentao, Wang, Aiqin, Zhang, Tao, Cong, Yu, Wang, Xiaodong, Huber, George W
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cited_by cdi_FETCH-LOGICAL-a383t-3b47be1119b8b751b821ff4cb141d5e366f6b5e931f23488e72c7012f5abd54c3
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container_end_page 11837
container_issue 47
container_start_page 11825
container_title Industrial & engineering chemistry research
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creator Yang, Jinfan
Li, Shanshan
Li, Ning
Wang, Wentao
Wang, Aiqin
Zhang, Tao
Cong, Yu
Wang, Xiaodong
Huber, George W
description High-density (0.82 g mL–1) jet-fuel range cycloalkanes were synthesized in high overall yields (∼80%) by the aldol condensation of cyclopentanone and butanal followed by hydrodeoxygenation (HDO). Among the investigated solid-base catalysts, magnesium–aluminum hydrotalcite (MgAl-HT) exhibited the highest activity for the solvent-free aldol condensation of cyclopentanone and butanal. The excellent performance of MgAl-HT was rationalized by the synergism between strong base and weak acid sites on the surface of this material. The aldol condensation products were further hydrodeoxygenated to butylcyclopentane and 1,3-dibutylcyclopentane over the Ni/SiO2, Pd/SiO2, and bimetallic Ni–Pd/SiO2 catalysts. Compared to the Ni/SiO2 and Pd/SiO2 catalysts, the bimetallic Ni–Pd/SiO2 catalyst exhibited higher activity for the solvent-free HDO reaction. Over the 4%Ni–1%Pd/SiO2 catalyst, high carbon yield (88.0%) of butylcyclopentane and 1,3-dibutylcyclopentane was achieved at 503 K. According to the characterization results, the excellent performance of Ni–Pd/SiO2 catalyst can be explained by the formation of Ni–Pd alloy.
doi_str_mv 10.1021/acs.iecr.5b03379
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Eng. Chem. Res</addtitle><date>2015-12-02</date><risdate>2015</risdate><volume>54</volume><issue>47</issue><spage>11825</spage><epage>11837</epage><pages>11825-11837</pages><issn>0888-5885</issn><eissn>1520-5045</eissn><abstract>High-density (0.82 g mL–1) jet-fuel range cycloalkanes were synthesized in high overall yields (∼80%) by the aldol condensation of cyclopentanone and butanal followed by hydrodeoxygenation (HDO). Among the investigated solid-base catalysts, magnesium–aluminum hydrotalcite (MgAl-HT) exhibited the highest activity for the solvent-free aldol condensation of cyclopentanone and butanal. The excellent performance of MgAl-HT was rationalized by the synergism between strong base and weak acid sites on the surface of this material. The aldol condensation products were further hydrodeoxygenated to butylcyclopentane and 1,3-dibutylcyclopentane over the Ni/SiO2, Pd/SiO2, and bimetallic Ni–Pd/SiO2 catalysts. 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title Synthesis of Jet-Fuel Range Cycloalkanes from the Mixtures of Cyclopentanone and Butanal
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