期刊
GREEN SYNTHESIS AND CATALYSIS
卷 2, 期 4, 页码 356-361出版社
KEAI PUBLISHING LTD
DOI: 10.1016/j.gresc.2021.08.004
关键词
Glucose isomerization; Fructose; Digestate; Hydroxyapatite; Catalyst
资金
- National Natural Science Foundation of China (NSFC) [21908184]
- Hong Kong Environment and Conservation Fund (ECF) [2020-46]
- HKBU [RC-SGT1, RC-SGT2/19-20/SCI/009]
- HKBU Institute for Advanced Materials
The study demonstrates the successful production and application of a cost-effective catalyst for the isomerization of glucose to fructose using food waste digestate. The hydroxyapatite-based catalyst obtained by coupled hydrothermal-calcination approach showed excellent catalytic performance, achieving a high fructose yield of 32.3% with simple regeneration for reuse.
Transforming biomass waste into cost-effective catalysts for chemical reactions provides new opportunity for biomass waste valorization. In this work, we examined the possibility of using food waste solid digestate as raw materials for the production of a heterogeneous catalyst for glucose isomerization to fructose, which is one of the important intermediates for the production of platform chemicals, hydrocarbon fuels and synthetic materials from biomass. Hydroxyapatite-based catalysts were obtained from food waste digestate by a coupled hydrothermalcalcination approach. In the hydrothermal treatment process, the addition of exogenous calcium can adjust the alkalinity of the catalyst, which is beneficial to improve the activity of the catalyst. The reaction parameters such as reaction temperature, reaction time and catalyst dosage have also been optimized. The catalyst showed excellent catalytic performance in the glucose isomerization reaction resulting in a high fructose yield of 32.3% with a reaction time of only 20 min at 80 & DEG;C in water. The catalyst can be reused after a simple regeneration without significant activity. This work provides a win-win strategy, which not only solves the problem of the disposal and utilization of digestate, but also expands the synthesis method of the glucose isomerization reaction catalyst.
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