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Production of the platform chemical 5-Hydroxymethylfurfural (HMF) on the basis of sugar for biological based returnable bottles and plasticizer

Project


Project code: TI-AT-08-PID262
Contract period: 01.11.2013 - 28.02.2017
Purpose of research: Applied research

The replacement of the fossil-based plastic PET used for soft drink bottles by bio-based PEF still fails due to the lack of an efficient conversion of sugars to HMF. Our new innovative research approach to produce bio-based HMF shall solve this problem. The most promising candidate for replacing polyethylene terephthalate (PET, annual production amount about 50 million tons) is the bioplastic polyethylene furanoate (PEF) because of its structural resemblance. Its primary monomer 2,5-furandicarboxylic acid (FDCA) is produced from 5-hydroxymethylfurfural (HMF) via an oxidation process. However, for 100 years the conversion of carbohydrates to HMF is still not satisfactorily solved. Our new and innovative research approach shall solve this problem and pave the way to a bio-based economy. Usually a carbohydrate solution is treated with an acid catalyst at higher temperature in: an aqueous system a non-aqueous system a bi- or multiphasic system In an aqueous system many side reactions occur which limit the yield of HMF. Non-aqueous systems like organic solvents or ionic liquids suppress these side reactions, but product recovery and solvent recycling is difficult. A biphasic system has the advantage to use economic more favourable water as solvent and to simultaneous extract the product into the second phase thereby suppressing side reactions. Because of high water solubility of HMF no efficient biphasic systems is available, yet. A new extraction agent shows promising properties, its application may help to solve this problem.

In this project the solvent hexafluoroisopropanol (HFIP) was tested as extraction solvent for in situ extraction of HMF from acidic aqueous reaction solutions and as reaction solvent for the synthesis of HMF for the first time. Because of the huge extraction capability of HFIP for HMF very high yields of around 90 % HMF can be achieved in two-phase reaction systems (hydrochloric acidic aqueous reaction phase and HFIP as extraction solvent), which is outstanding compared to the state of the art. On top of that HFIP can also be used in monophasic reaction systems. In a continuous system with ionic exchange resins as heterogeneous acidic catalyst around 80 % yield of HMF can be achieved. The usage of HFIP and other fluorous alcohols for production of HMF is patent pending (WO2016055608). The oxidation of HMF to FDCA can be achieved efficiently with bimetallic gold/platinum catalysts in quantitative yields. The results of this project are the basis for further work in the project “biobased dicarboxylic acids”.

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