Efficient preparation of 5-hydroxymethylfurfural from glucose using Na2SO4/NH4HSO4 as the catalyst in the continuous flow reactor

IF 2.4 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of chemical technology and biotechnology Pub Date : 2025-07-04 DOI:10.1002/jctb.70007

Huimin Li, Yucheng Lin, Liutao Hou, Yuli Wang, Huijuan Tian, Shiqiang Zhao, Chun Chang

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引用次数: 0

Abstract

BACKGROUND

5-Hydroxymethylfurfural (HMF), as an important biomass platform compound, can be transformed into biofuels and numerous high value-added chemicals, and occupies an extremely important position in biorefining. Herein, a novel catalytic system has been developed for the direct conversion of glucose to HMF using inexpensive Na₂SO₄/NH₄HSO₄ as the catalyst.

RESULTS

The maximum glucose conversion of 90.77% with 45.05% yield of HMF was obtained at 190 °C, catalyst Na₂SO₄/NH₄HSO₄ 80 wt%, water and methyl isobutyl ketone volume ratio 1/5, and residence time 20 min. A kinetics model was developed to predict the yield of HMF and glucose conversion, which was consistent with the experimental results.

CONCLUSION

The continuous production of HMF from glucose can be efficiently performed with Na₂SO₄/NH₄HSO₄ with a mass ratio of 3/2 as the catalyst. This catalytic system for the continuous production of HMF has great practical significance and potential economic value for promoting the industrial production of HMF and its derivatives. © 2025 Society of Chemical Industry.

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以Na2SO4/NH4HSO4为催化剂，在连续流反应器中以葡萄糖为原料高效制备5-羟甲基糠醛

5-羟甲基糠醛（HMF）是一种重要的生物质平台化合物，可转化为生物燃料和众多高附加值化学品，在生物炼制中占有极其重要的地位。本文开发了一种新的催化体系，以廉价的Na2SO4/NH4HSO4为催化剂，将葡萄糖直接转化为HMF。结果在催化剂Na2SO4/NH4HSO4质量分数为80 wt%、水与甲基异丁基酮体积比为1/5、停留时间为20 min的条件下，葡萄糖转化率为90.77%，HMF收率为45.05%。建立了预测HMF产率和葡萄糖转化的动力学模型，与实验结果一致。结论以质量比为3/2的Na2SO4/NH4HSO4为催化剂，葡萄糖连续生产HMF效果良好。该连续化生产HMF的催化体系对于促进HMF及其衍生物的工业化生产具有重要的现实意义和潜在的经济价值。©2025化学工业协会。

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来源期刊

Journal of chemical technology and biotechnology 工程技术-工程：化工

CiteScore

7.00

自引率

5.90%

发文量

268

审稿时长

1.7 months

期刊介绍： Journal of Chemical Technology and Biotechnology(JCTB) is an international, inter-disciplinary peer-reviewed journal concerned with the application of scientific discoveries and advancements in chemical and biological technology that aim towards economically and environmentally sustainable industrial processes.