期刊
FUEL
卷 349, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2023.128706
关键词
Biomass; High-density fuel; Mannich reaction; Michael reaction; Enamine mechanism; Alkaline treatment
Cycloalkanes jet fuel derived from biomass is the perfect alternative to fossil fuel. The Mannich-Michael reaction of cyclopentanone and formaldehyde followed by hydrodeoxygenation (HDO) is a promising method for producing high-density jet fuel. The combination of pyrrolidine and acetic acid showed high catalytic activity in the one-pot Mannich-Michael reaction under mild conditions. By using the enamine catalytic pathway, a high yield of condensed products and conversion of cyclopentanone was achieved. The alkali-treated H beta 25-1 catalyst combined with Pd/C effectively catalyzed the hydrodeoxygenation of the condensed products, resulting in a high yield of dicyclopentylmethane with desirable density and heating value. This work provides a new route for producing high-density jet fuel from lignocellulosic compounds.
Cycloalkanes jet fuel with high-density derived from biomass are the ideal alternative to fossil fuel. The one-pot Mannich-Michael reaction of cyclopentanone and formaldehyde followed by hydrodeoxygenation (HDO) is a prospective route for the synthesis of cyclic high-density jet fuel. The synergistic interaction of pyrrolidine with acetic acid exhibited high catalytic activity in the one-pot Mannich-Michael reaction under mild conditions (50 celcius, 6 h). Additionally, solvents with appropriate polarity promote proton transfer to form Mannich bases, which are subsequently decomposed to produce 2-methylenecyclopentanone as the substrate for Michael addition. Thus, a high yield of condensed products (92.3%) with 93.3% conversion of cyclopentanone was obtained via an enamine catalytic pathway. The alkali-treated H beta 25-1 combined with Pd/C effectively catalyze the HDO of condensate products. The alkali-treated H beta 25-1 with larger mesoporous volume and sufficient acid sites lead to a high yield of dicyclopentylmethane (73.6%). The density and heating value of the HDO liquid products were 0.906 g/cm3 and 40.5 MJ/L, respectively. This work provided a novel route for high-density jet-fuel from lignocellulosic platform compounds.
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