Reaction Kinetics Analysis of Ethanol Dehydrogenation Catalyzed by MgO–SiO2

催化作用 乙醛 脱氢 化学 无机化学 吡啶 乙烯 动力学 乙醇 反应机理 合作性 有机化学 生物化学 量子力学 物理
作者
Hussein T. Abdulrazzaq,Amir Rahmani Chokanlu,B.G. Frederick,Thomas J. Schwartz
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:10 (11): 6318-6331 被引量:40
标识
DOI:10.1021/acscatal.0c00811
摘要

The Mg-catalyzed dehydrogenation of ethanol to yield acetaldehyde is an important step in the Lebedev reaction. In this work, we prepared a model MgO–SiO2 catalyst by impregnation of MgO onto an SBA-15 support and used this material to study the reaction kinetics of ethanol dehydrogenation to acetaldehyde. The rates of acetaldehyde and ethylene production were measured for ethanol partial pressures ranging from 0.92 to 5.25 kPa. Both rates are fractional order at 723 K, decreasing to nearly zero-order at 648 K. Consistent with the literature for MgO–SiO2 Lebedev catalysts, both basic sites and Lewis acidic sites were observed on this catalyst. The rates of both acetaldehyde and ethylene were inhibited by pyridine but not by 2,6-ditertbutylpyridine, suggesting that both reactions involve not only basic but also Lewis acidic sites. To elucidate the origin of this cooperativity, a microkinetic model was constructed using a recently published mechanism for the Lebedev reaction catalyzed by MgO. The model was fit to our data using four fitting parameters. The fitting suggests that adsorbed ethanol and hydrogen atoms have a weaker bond with mixed-oxide MgO–SiO2 catalysts than with bulk MgO catalysts, which we attribute experimentally to an increase in the number of moderate-strength Mg2+–O2– site pairs formed at the expense of strongly basic MgO sites.
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