沸石
催化作用
化学
焦炭
硅酸铝
无机化学
布朗斯特德-洛瑞酸碱理论
离子
离子交换
有机化学
作者
Ryuichi Inoue,Koji Miyake,Yuma Hotta,Xinyu Li,Ryoga Yashiro,Yuichiro Hirota,Yoshiaki Uchida,Manabu Miyamoto,Yasunori Oumi,Chang Yi Kong,Thomas Maschmeyer
出处
期刊:Fuel
[Elsevier]
日期:2021-08-05
卷期号:305: 121487-121487
被引量:12
标识
DOI:10.1016/j.fuel.2021.121487
摘要
Ethane dehydroaromatization (EDA) reaction is one of the promising processes to meet the growing demand of aromatics in the future. Zn ion exchanged MFI type aluminosilicate zeolite (Zn/[Al]-MFI) shows high activity on EDA reaction. Zn ion and Brønsted acid derived from Al sites contribute to the high activity on EDA reaction, but excess strong acid sites promote coke formation, leading to rapid deactivation. Herein, we have developed a new synthesis method for Zn ion exchanged MFI type galloaluminosilicate zeolite (Zn/[Ga,Al]-MFI). The coke formation was suppressed by partially substituting Al with Ga since acidity derived from Ga sites are weaker than that derived from Al sites. Zn/[Ga,Al]-MFI was the ideal catalyst to achieve both high catalytic activity and stability on EDA reaction. Our work provides a new design direction of zeolite catalysts on EDA reaction, which can contribute to the progress on the transformation of light alkanes to value-added chemicals.
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