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Multikilogram per Hour Continuous Photochemical Benzylic Brominations Applying a Smart Dimensioning Scale-up Strategy

Alexander Steiner, Philippe M. C. Roth, Franz Josef Strauß, Guillaume Gauron, Günter Tekautz, Marc Winter, Jason D. Williams, C. Oliver Kappe

2020Organic Process Research & Development73 citationsDOIOpen Access PDF

Abstract

Although continuous flow technology can facilitate the scale-up of photochemical processes it is not yet routinely implemented on production scale in the fine chemical industries. This can be attributed to additional challenges compared to thermal processes, mostly in the homogeneous irradiation of the flow reactor. Here, we detail the process of bringing a previously developed photochemical benzylic bromination, utilizing in situ bromine generation, from lab to pilot scale. The process setup is discussed in detail, alongside a comprehensive risk assessment and discussion of problems encountered in the investigation of key reaction parameters. Ultimately, an assay yield of 88% was obtained in 22 s irradiated residence time, resulting in a productivity of 4.1 kg h–1 (space-time yield = 82 kg L–1 h–1) representing a 14-fold scale-up versus the lab-scale process.

Topics & Concepts

Yield (engineering)Flow chemistryResidence time (fluid dynamics)SCALE-UPProcess engineeringScale (ratio)Continuous flowProcess (computing)DimensioningContinuous reactorEnvironmental scienceHomogeneousChemistryBromineComputer sciencePhotochemistryMaterials scienceBiochemical engineeringOrganic chemistryCatalysisEngineeringAerospace engineeringThermodynamicsPhysicsMetallurgyOperating systemGeotechnical engineeringClassical mechanicsQuantum mechanicsInnovative Microfluidic and Catalytic Techniques InnovationRadical Photochemical ReactionsAdvanced Chemical Sensor Technologies