Case Studies: flow chemistry in SABRe
Scalable Agitated Baffle Reactor - a multi-CSTR multifunctional flow reactor. New possibilities and benefits of the system.Improvement of enzymatic oxidation in the continuous Scalable Agitated Baffle Reactor (SABRe) system
Case study on enzymatic oxidation by Prof John Woodley
Steven’s oxidation with Vapourtec
1.4 kg/day multiphase oxidation obtained integrating SABRe system with Vapourtec’s R-Series
Consistent oil-in-water emulsions in continuous flow
Using a continuous multi-CSTR system allowed us to make droplets 2.5 times more uniform compared to a batch reactor
How to calculate heat transfer in continuous flow applications
Continuous flow (such as micro-reactors) are superior for exothermic reactions. How do you compute the thermal performance of a reactor?
Maximising interfacial gas-liquid area with Scalable Agitated Baffle Reactor (SABRe)
How the SABRE system provides large gas-liquid area to maximise the reaction throughput and selectivity.
Comparison of continuous reactors in enzymatic esterification
We showed superior performance of SABRe in the enzymatic (liquid-liquid) esterification.
How residence time affects product quality in flow chemistry
How residence time is vital for throughput and product quality.
Gas-liquid mass transfer (kLa) in scalable flow chemistry. Scalable Agitated Baffle Reactor (SABRe)
The gas-liquid mass transfer coefficient is a key parameter in multiphase reactions. We studied it for the SABRe.
Residence time distribution in the Scalable Agitated Baffle Reactor (SABRe)
The SABRe provides precise residence time control.