Mo Improves Stability of Ni/HZSM-5 Catalyst in Fatty Acid Hydrodeoxygenation

IF 7.3 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

ACS Sustainable Chemistry & Engineering Pub Date : 2025-09-18 DOI:10.1021/acssuschemeng.5c07182

Xiaobo Guo, , , Jiaping Zhao, , , Shenjie Lv, , , Peng Liu*, , , Kui Wang, , , Jianchun Jiang, , and , Junming Xu,

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Abstract

Enhancing catalyst stability is crucial for reducing production costs and ensuring stable plant operation over the long-term. Ni/HZSM-5 catalysts undergo rapid deactivation during the hydrodeoxygenation of stearic acid. To address this issue, a series of Ni/HZSM-5 catalysts modified with different metal additives were prepared via impregnation. Among these, the Mo-modified catalyst (NiMo/HZSM-5) exhibited significantly enhanced stability. Specifically, it achieved 89.6% conversion and 62.7% alkane selectivity after 15 reaction cycles, whereas the unmodified Ni/HZSM-5 catalyst’s conversion decreased to below 50% after only five cycles. Characterization revealed that Mo addition strengthened the metal–support interaction, effectively suppressing metal agglomeration and metal leaching during the reaction. Additionally, the activities of the two catalysts were compared, and a parametric study was conducted on the NiMo/HZSM-5 catalyst. This work demonstrates that Mo modification is an effective strategy to enhance the long-term stability of Ni/HZSM-5 catalysts in the hydrodeoxygenation of stearic acid.

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Mo提高Ni/HZSM-5催化剂在脂肪酸加氢脱氧中的稳定性

提高催化剂的稳定性对于降低生产成本和确保工厂长期稳定运行至关重要。Ni/HZSM-5催化剂在硬脂酸加氢脱氧过程中快速失活。为解决这一问题，采用浸渍法制备了不同金属添加剂改性的Ni/HZSM-5催化剂。其中，mo改性催化剂（NiMo/HZSM-5）的稳定性显著提高。其中，经过15个反应循环后，Ni/HZSM-5催化剂的转化率达到89.6%，烷烃选择性达到62.7%，而未经改性的Ni/HZSM-5催化剂的转化率仅经过5个反应循环就下降到50%以下。表征表明，Mo的加入增强了金属-载体的相互作用，有效抑制了反应过程中的金属团聚和金属浸出。此外，比较了两种催化剂的活性，并对NiMo/HZSM-5催化剂进行了参数化研究。研究表明，Mo改性是提高Ni/HZSM-5催化剂在硬脂酸加氢脱氧过程中长期稳定性的有效策略。

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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来源期刊

ACS Sustainable Chemistry & Engineering CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL

CiteScore

13.80

自引率

4.80%

发文量

1470

审稿时长

1.7 months

期刊介绍： ACS Sustainable Chemistry & Engineering is a prestigious weekly peer-reviewed scientific journal published by the American Chemical Society. Dedicated to advancing the principles of green chemistry and green engineering, it covers a wide array of research topics including green chemistry, green engineering, biomass, alternative energy, and life cycle assessment. The journal welcomes submissions in various formats, including Letters, Articles, Features, and Perspectives (Reviews), that address the challenges of sustainability in the chemical enterprise and contribute to the advancement of sustainable practices. Join us in shaping the future of sustainable chemistry and engineering.