1. Shape-selective alkylation of benzene with ethylene over a core–shell ZSM-5@MCM-41 composite material
- Author
-
Chongwei Ma, Sun Hongmin, Wang Darui, Weimin Yang, Junlin He, Shen Zhenhao, and Zhirong Zhu
- Subjects
Environmental Engineering ,Materials science ,Ethylene ,General Chemical Engineering ,General Chemistry ,engineering.material ,Biochemistry ,Ethylbenzene ,Catalysis ,chemistry.chemical_compound ,chemistry ,Coating ,MCM-41 ,engineering ,ZSM-5 ,Composite material ,Benzene ,Space velocity - Abstract
A series of ZSM-5@MCM-41 core–shell composite materials prepared via a multi-cycle-sol–gel coating strategy is investigated as the catalyst for benzene alkylation with ethylene, in which both ethylbenzene and para-diethylbenzene (p-DEB) are aimed as the target products. With multi-cycle-sol–gel coating, the external acid sites on the samples are gradually passivated by the inert MCM-41 shell. As a result, the shape selectivity to p-DEB is greatly enhanced. Nevertheless, the coating of mesoporous MCM-41 shell on ZSM-5 accelerates deactivation of the catalyst only due to the dilution effect of ZSM-5 content in the catalyst at the same space velocity, which is a reason that core–shell ZSM-5@MCM-41 will potentially be a practical catalyst in shape selective alkylation of benzene. In order to enhance the yield of p-DEB on ZSM-5@MCM-41, the reaction conditions at the fixed bed reactor including temperature, the molar rate of benzene to ethylene and GHSV, are also optimized.
- Published
- 2021