文档介绍:2022年4月 工业催化 Apr. 2022
第30卷第4期 selectivity on the surface of ZrO2 catalyst were low. After Cu
modification, the ethanol conversion and n-butanol selectivity were significantly increased. After further
modification with alkali metal K,the ethanol conversion decreased slighdy,while the n-butanol selectivity
was further improved. The introduction of Cu promoted the dehydrogenation performance of ethanol, while
the introduction of K enhanced the surface alkaline strength of the catalyst, improved the amount of catalyst
alkali, promoted the condensation reaction, and improved the selectivity of n-butanol. In the 100 h reaction
process, the ethanol conversion of KCuZrO2 catalyst was maintained at about 86% , while the selectivity of
n-butanol was about 70%.
收稿日期: 2021 -ll-15;修回日期:2022 - 04-11
基金项目:山西省高等学校科技创新项目(2019L1007,2021L577)
作者简介:魏 玲,1982年生,女,博士,副教授,主要研究方向多相催化。
通讯联系人:魏 玲。E - mai: weiling0904@ 126. com2022年第4期 魏玲等:改性ZrO?基催化剂催化乙醇转化制备正丁醇 49
Key words: catalytic chemistry ; ethanol ; n-butanol ; condensation reaction ; ZrO2 -based catalysts
doi: 10. 3969/j. issn. 1008-1143・ 2022. 04. 008
CLC number: ; Document code: A Article ID: 1008-11