To address the growing demand for more sustainable and greener chemistry, mechanochemical methodologies are emerging as key players. Herein, we report the first application of bead-mill technology for the synthesis of Paracetamol. The proposed me...
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Furfural to Cyclopentanone – a Search for Putative Oligomeric By‐products
Von Wiley-VCH zur Verfügung gestellt
The reductive rearrangement of Furfural to Cyclopentanone, a renewable chemical with bio jet applications, is accompanied by the undesired formation of oligomeric byproducts. Although initially deemed unwanted, upon thorough analysis, these heavier side products exhibit promising potential for conversion into liquid hydrocarbon fuels.
Abstract
We report here on the reductive rearrangement of biomass-derived furfural to cyclopentanone, a promising non-fossil feedstock for fuels and chemicals. An underreported aspect of this reaction is the inevitable formation of heavy byproducts. To mitigate its formation, process condition such as, solvent, catalyst, temperature, acidity, and feed concentration were varied to unravel the chemistry and improve the reaction performance. Water medium was confirmed to play a crucial role, as organic solvents were unable to deliver cyclopentanone or heavy by products. Copper-based catalyst showed the highest selectivity for ring-rearrangement, reaching 50 mol % under the conditions investigated. The main factor influencing the yields of cyclopentanone (CPO), and promote oligomer formation, are the feed concentration and the pH, as high feed concentrations and high acidity facilitate the self-polymerization of furfuryl alcohol (FALC). This was confirmed by dedicated experiments using FALC and the hydroxypentenone intermediate as feed. The concentration challenge could be mitigated by slowly dosing the feed, which increased the desired product yields by 4–12 mol %. Nevertheless, most oligomers appeared to fall in the range of common liquid fuels and could be converted to diesel by hydrodeoxygenation.
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