Na促进Ca/AlOx催化剂上羧酸酮化生物油

Zichun Wang, Bjørnar Arstad, Leizhi Wang, Huajuan Ling, Jeffrey Shi, Catherine Stampfl, Yijiao Jiang, Jun Huang
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引用次数: 1

摘要

羧酸酮化对生物油的精制和生物衍生化学品的生产具有重要意义。利用低成本和天然丰富的金属,制备了各种Ca/Al比的Ca/AlOx金属氧化物。碱性金属或碱土金属的加入可以通过碱催化羧酸酮化显著提高Ca/AlOx催化剂的活性。然而,碱金属掺杂Ca/AlOx催化剂的活性位点仍存在争议,这些催化剂在长期使用中往往存在失活的问题。本文制备了不同Ca/Al摩尔比的Ca(Na)/AlOx催化剂,并对其在醋酸酮化反应中的作用进行了评价。钠的加入使NaAlO2的碱度高于CaO。这些强碱性位点能显著促进乙酸通过羧酸的热分解而酮化。表面填充NaAlO2的Ca(Na)/AlOx催化剂在400℃乙酸完全转化时具有100%的丙酮选择性,反应400 h后没有活性损失,是迄今为止酮化反应中最活跃、最稳定的催化剂。这些Ca(Na)/AlOx催化剂通过在反应混合物中加入主要的生物油模型化合物(如苯酚)也很稳定,这在未来的生物油升级应用中很有前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Bio-oil upgrading via ketonization of carboxylic acids on Na promoted Ca/AlOx catalysts

Ketonization of carboxylic acids is valuable for bio-oil upgrading and producing bio-derived chemicals. Ca/AlOx metal oxides with various Ca/Al ratios have been prepared by the low-cost and natural abundant metals in the process. The addition of alkaline or alkaline-earth metals could significantly improve the activity of Ca/AlOx catalysts by base-catalyzed ketonization of carboxylic acids. However, the active sites on alkaline-metal-doped Ca/AlOx catalysts are still under debate, and the commercialization of these catalysts often suffers from deactivation in long-term use. Here Ca(Na)/AlOx catalysts with various Ca/Al molar ratios were prepared and evaluated for the ketonization of acetic acid. Sodium addition resulting in the formation of NaAlO2 has higher basicity than CaO. These strong basic sites could significantly promote the ketonization of acetic acid via the thermal decomposition of carboxylates. The Ca(Na)/AlOx catalyst with NaAlO2 populated on the surface could provide 100% acetone selectivity at the complete conversion of acetic acid at 400°C and exhibit no activity loss after a 400 h reaction, which is the most active and stable catalyst for ketonization reaction hitherto. These Ca(Na)/AlOx catalysts are also stable by adding major bio-oil model compounds (e.g., phenol) into the reaction mixture, which are promising for future bio-oil upgrading applications.

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Issue Information Front Cover: Carbon Neutralization, Volume 3, Issue 6, November 2024 Inside Back Cover Image: Carbon Neutralization, Volume 3, Issue 6, November 2024 Back Cover Image: Carbon Neutralization, Volume 3, Issue 6, November 2024 A chronicle of titanium niobium oxide materials for high-performance lithium-ion batteries: From laboratory to industry
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