Efficient synthesis of C15 fuel precursor by heterogeneously catalyzed aldol-condensation of furfural with cyclopentanone

Lei Ao; Wei Zhao; Yin-Shuang Guan; Ding-Kai Wang; Kai-Shuai Liu; Tian-Tian Guo; Xing Fan; Xian-Yong Wei

doi:10.1039/c8ra09517e

Efficient synthesis of C₁₅ fuel precursor by heterogeneously catalyzed aldol-condensation of furfural with cyclopentanone

RSC Adv. 2019 Jan 28;9(7):3661-3668. doi: 10.1039/c8ra09517e. eCollection 2019 Jan 25.

Authors

Lei Ao¹, Wei Zhao¹, Yin-Shuang Guan¹, Ding-Kai Wang¹, Kai-Shuai Liu¹, Tian-Tian Guo¹, Xing Fan¹, Xian-Yong Wei¹

Affiliation

¹ Key Laboratory of Coal Processing and Efficient Utilization, China University of Mining & Technology Xuzhou 221116 Jiangsu People's Republic of China zhaow1965@163.com +86 13905200134.

Abstract

The aldol-condensation reaction of biomass-derived furfural and cyclopentanone coupled with hydrogenation/hydrodeoxygenation is a promising route for the production of renewable high-quality diesel or jet fuel. In this paper, we focus on the heterogeneously catalyzed aldol condensation of furfural with cyclopentanone, in order to maximize the yield of 2,5-bis(2-furylmethylidene)cyclopentan-1-one (F₂C, a C₁₅ fuel precursor). Experiments were conducted over a series of solid-base catalysts and it was found that potassium fluoride impregnated alumina shown the highest catalytic efficiency. We further investigated the effect of different parameters on the performance of KF/γ-Al₂O₃, including KF loading amount, solvent, reaction time and temperature. Over KF/γ-Al₂O₃ with a 33% KF loading amount, the aldol reaction achieved an F₂C molar yield up to 95.4% at 333 K within 2 h. Under the nearly optimal condition, the separated solid product is almost F₂C with a purity of 100%, providing a high-quality biofuel precursor for the next processing step.