Körner Paul, Jung Dennis, Kruse Andrea
University of Hohenheim Conversion Technologies of Renewable Resources Garbenstrasse 9 70599 Stuttgart Germany.
ChemistryOpen. 2019 Aug 26;8(8):1109-1120. doi: 10.1002/open.201900225. eCollection 2019 Aug.
The hydrothermal treatment of sugars features a promising technology for the production of fine and platform chemicals from renewable resources. In this work the hydrothermal decomposition of fructose was studied in a buffered medium at a pH range between 2.2 and 8.0. It is demonstrated that at lower pH values mainly 5-hydroxymethylfurfural (HMF), levulinic acid and humin are generated, while lactic acid and acetic acid are produced at higher pH values. The work shows that the use of moderate acidic conditions may have advantages for the hydrothermal HMF production over the use of strongly acidic conditions, as especially the degradation into levulinic acid is suppressed. Besides, this study deals with a rather complex reaction network, hence limitations and need for adaption of the kinetic model are discussed.
糖的水热处理是一种利用可再生资源生产精细化学品和平台化学品的很有前景的技术。在这项工作中,研究了果糖在pH值为2.2至8.0的缓冲介质中的水热分解。结果表明,在较低的pH值下,主要生成5-羟甲基糠醛(HMF)、乙酰丙酸和腐殖质,而在较高的pH值下则生成乳酸和乙酸。该研究表明,与使用强酸性条件相比,使用适度酸性条件对水热法生产HMF可能具有优势,因为特别是抑制了向乙酰丙酸的降解。此外,本研究涉及一个相当复杂的反应网络,因此讨论了动力学模型的局限性和适应性需求。