Ethanol Dehydration over Silica-Supported H3PW12O40 and the Role of Water

脱水 催化作用 乙醇 化学 化学工程 材料科学 核化学 有机化学 工程类 生物化学
作者
Lucia Frattini,Friederike C. Jentoft,Christopher M. A. Parlett,Venkata D. B. C. Dasireddy,Deshetti Jampaiah,Hamidreza Arandiyan,Christophe Len,Adam F. Lee,Karen Wilson
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:15 (11): 9430-9441 被引量:3
标识
DOI:10.1021/acscatal.5c01806
摘要

Catalytic dehydration of (bioderived) ethanol to ethylene or diethyl ether (DEE) offers an atom-efficient route to commodity chemicals and renewable aviation fuels. Here, the impact of silica support morphology and dispersion of H3PW12O40 (HPW) on the vapor-phase dehydration of ethanol to ethylene and DEE was investigated. Ethanol conversion at 175 °C and ambient pressure was inversely proportional to HPW dispersion over a fumed silica and mesoporous SBA-15 support, with specific activity directly proportional to the crystalline water content, highlighting the importance of catalysis within the pseudo-liquid phase. A common turnover frequency of ∼2500 h–1 was determined for HPW/SBA-15, with all acid sites participating. Catalyst deactivation at 175 °C could be suppressed by co-feeding 10 wt % water, likely by mitigating the loss of crystalline (acidic) water; higher reaction temperatures induce decomposition of the heteropolyanion to WO3 and could also be partially suppressed by co-fed water. In the presence of co-fed water, the optimum 50 wt % HPW/SBA-15 catalyst could be used for three consecutive reactions at 175 °C with minimal loss of activity or selectivity without any reactivation protocol. Ethanol dehydration was selective to DEE (∼80%) for reaction <225 °C, with higher temperatures inducing a switchover to ethylene (87% ≥ 300 °C) in accordance with thermodynamic predictions. Maximum steady-state DEE productivity was 600 mmol·gcat–1·h–1 at 175 °C, and maximum steady-state ethylene productivity was 1800 mmol·gcat–1·h–1 at 225 °C. In situ DRIFTS identified the protonated ethanol dimer (C2H5OH)2H+ as the reactive intermediate to DEE formation, with higher temperatures favoring the formation of protonated ethanol (C2H5OH)H+ and ethoxy intermediates to ethylene.
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