Efficient conversion of lignin-derived phenols to cycloalkanes over bifunctional catalysts with low loading of ruthenium

IF 7.2 2区 工程技术 Q1 CHEMISTRY, APPLIED Fuel Processing Technology Pub Date : 2024-03-14 DOI:10.1016/j.fuproc.2024.108073
Zhiyu Xiang, Weichen Wang, Fangyuan Zhou, Hongke Zhang, Yidan Wang, Wanbin Zhu, Hongliang Wang
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Abstract

Hydrodeoxygenation (HDO) reactions are extensively employed in the conversion of biomass to advanced fuels, which rely heavily on bifunctional catalysts that contain both a metal component and an acidic component. A significant challenge in the development of HDO catalysts is the need to reduce costs while simultaneously enhancing catalytic efficiency. Here, a series of Ru@W/ZrO2 catalysts with an extremely low loading of Ru (0.5 wt%) were successfully synthesized using different Ru or W loading sequences and different Ru/W mass ratios. The catalysts were applied in the HDO reaction of lignin-derived phenols, and their physical and chemical characteristics were revealed by various characterization techniques, including XRD, H2-TPD, NH3-TPD, and XPS. The results suggest that the synthesis method with post-loading Ru leads to improved exposure and utilization of the low-loaded Ru, which effectively serves as the active sites for hydrogenation in catalytic reactions. Under the same reaction conditions, the bifunctional catalyst with post-loading of Ru achieved a complete conversion of phenol into cyclohexane, while the catalyst with simultaneous loading of Ru and W only yielded 42% of cyclohexane. In addition, the Ru/W ratios have also shown significant effects on the HDO performance of the catalyst. The catalyst exhibits the highest hydrogenation activity when the Ru/W ratio is 10, which is further supported by kinetic experiments. This study highlights the significance of the loading sequence of noble metals and the metal/acid ratio in the synthesis of highly active bifunctional catalysts, and also lays the groundwork for the efficient utilization of noble metals in biomass HDO conversion.

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在低钌负载的双功能催化剂上将木质素衍生酚高效转化为环烷烃
加氢脱氧反应(HDO)广泛应用于将生物质转化为先进燃料的过程中,这种反应主要依赖于同时含有金属成分和酸性成分的双功能催化剂。开发 HDO 催化剂的一个重大挑战是需要在降低成本的同时提高催化效率。在此,我们采用不同的 Ru 或 W 负载顺序和不同的 Ru/W 质量比,成功合成了一系列 Ru 负载极低(0.5 wt%)的 Ru@W/ZrO2 催化剂。这些催化剂被应用于木质素衍生酚的 HDO 反应,并通过 XRD、H2-TPD、NH3-TPD 和 XPS 等多种表征技术揭示了其物理和化学特性。结果表明,后负载 Ru 的合成方法提高了低负载 Ru 的暴露和利用率,使其在催化反应中有效地成为氢化的活性位点。在相同的反应条件下,后负载 Ru 的双功能催化剂实现了苯酚到环己烷的完全转化,而同时负载 Ru 和 W 的催化剂仅产生了 42% 的环己烷。此外,Ru/W 比对催化剂的 HDO 性能也有显著影响。当 Ru/W 比为 10 时,催化剂的加氢活性最高,动力学实验也进一步证实了这一点。这项研究强调了贵金属负载顺序和金属/酸比例在合成高活性双功能催化剂中的重要意义,同时也为在生物质 HDO 转化中有效利用贵金属奠定了基础。
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来源期刊
Fuel Processing Technology
Fuel Processing Technology 工程技术-工程:化工
CiteScore
13.20
自引率
9.30%
发文量
398
审稿时长
26 days
期刊介绍: Fuel Processing Technology (FPT) deals with the scientific and technological aspects of converting fossil and renewable resources to clean fuels, value-added chemicals, fuel-related advanced carbon materials and by-products. In addition to the traditional non-nuclear fossil fuels, biomass and wastes, papers on the integration of renewables such as solar and wind energy and energy storage into the fuel processing processes, as well as papers on the production and conversion of non-carbon-containing fuels such as hydrogen and ammonia, are also welcome. While chemical conversion is emphasized, papers on advanced physical conversion processes are also considered for publication in FPT. Papers on the fundamental aspects of fuel structure and properties will also be considered.
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