3/1/2024 0 Comments 1920s reactivity trendIn our strongly multi-disciplinary approach, we successfully combine the experimental activities with the most advanced mathematical modelling of chemical kinetics, transport phenomena and flow pattern in multiphase systems. The reaction products are used as fine and specialty chemicals, components in green fuels as well as ingredients in pharmaceutical and alimentary products. The use and valorization of molecules from biomass is a core area in our research, particularly hydrogenation, oxidation, epoxidation and isomerization of multifunctional molecules. The use of ultrasound and microwave irradiation has resulted in breakthroughs, particularly in the valorization of the components originating from biomass. The trend of today is to shift from batch processes to continuous reactor technology: we are among the global pioneers in this domain. New structured catalysts, such as fibres, monoliths and solid foam structures are utilized for process intensification. Micro- and millistructured reactors are developed for energy-efficient, for more enhanced and more selective chemical processes. The key domain in our research is process intensification through the development of new catalysts and new chemical reactors and the use of non-conventional forms of energy, such as acoustic and microwave irradiation. Industrial chemistry and reaction engineering, the hard core of chemical engineering focuses on catalysis, chemical kinetics and chemical reactor technology. Murzin) and chemical reaction engineering (Tapio Salmi). Today the faculty has two chairs in the field of Industrial chemistry and reaction engineering: chemical technology (Dmitry Yu. The activities in Industrial chemistry at Åbo Akademi started in 1920 as the Borgström professorship in chemical technology was established within the Faculty of Chemical Engineering.
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