Mechanism and Kinetics of Ethanol Coupling to Butanol over Hydroxyapatite

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• 作者：Christopher R. Ho ; Sankaranarayanapillai Shylesh ; Alexis T. Bell
• 刊名：ACS Catalysis
• 出版年：2016
• 出版时间：February 5, 2016
• 年：2016
• 卷：6
• 期：2
• 页码：939-948
• 全文大小：585K
• ISSN：2155-5435

文摘

The mechanism and kinetics for ethanol coupling to n-butanol over hydroxyapatite (HAP) were investigated at 573–613 K. In situ titration experiments show that the active sites for acetaldehyde and butanol formation are different. In combination with FTIR studies, it was found that ethanol dehydrogenation is catalyzed by Ca–O sites, whereas condensation of acetaldehyde is catalyzed by CaO/PO₄^3– pairs. Measurements of the reaction kinetics at various ethanol (3.5–9.4 kPa) and acetaldehyde (0.055–0.12 kPa) partial pressures reveal that direct condensation involving two ethanol molecules does not play a significant role in butanol formation; instead, n-butanol is formed via a Guerbet pathway. At a constant acetaldehyde pressure, enolate formation is rate-limiting, and ethanol inhibits acetaldehyde condensation rates by competitive adsorption. A model of the reaction kinetics consistent with all experimental observations is developed.