Production of Jet Fuel Range Aromatics by Alkylation of Benzene with Olefins over Bifunctional Ga/ZSM‐5 Catalyst
Yushan Wu, Shuai Guo, Jida Wang, Junchen Xu, Mingyue Ding
Abstract
Abstract Aromatic components of C 8 −C 15 are playing indispensable roles in multi‐functional properties of jet fuel. Here, we reported the controllable alkylation of benzene with mixed olefins of ethylene and propylene toward C 8 −C 15 aromatic hydrocarbons for jet fuels over the bifunctional Ga/ZSM‐5 catalyst. The resultant 2Ga/ZSM‐5 exhibited a superior selectivity of 86.4 % (yield of 55.5 %) to C 8 −C 15 range aromatics, at benzene conversion of 40.3 %, ethylene and propylene conversion of 99.5 % and 99.2 %, respectively. The incorporation of Ga species could effectively weaken the strong acid sites of ZSM‐5 and endow 2Ga/ZSM‐5 catalyst with appropriate acidity, therefore facilitating the benzene alkylation process and suppressing the undesired hydrogen transfer or aromatization side reactions as well, thus improving the yield of desired C 8 −C 15 aromatics for jet fuels. This work provided insight into the development of promising bifunctional catalyst for the oriented transformation of biomass‐derived chemicals to aviation fuels.