• Corpus ID: 18881020

umbering-up and mass transfer studies of liquid – liquid two-phase icrostructured reactors

@inproceedings{Kashid2010umberingupAM,
  title={umbering-up and mass transfer studies of liquid – liquid two-phase icrostructured reactors},
  author={Navnath G. Kashid and A. K. Gupta and Albert Renken and Lioubov Kiwi-Minsker},
  year={2010}
}
Microstructured reactors are known to provide high heat and mass transfer rates for liquid–liquid twophase systems when used as a single channel. For industrial scale production, scale-up of microstructured reactors is essential to achieve throughput in the required range which is done by numbering-up of a 

Figures and Tables from this paper

References

SHOWING 1-10 OF 19 REFERENCES
Radical polymerization using microflow system: Numbering-up of microreactors and continuous operation
A microchemical pilot plant for radical polymerization of methyl methacrylate (MMA) was constructed by numbering up eight microtube reactors. Continuous operation was accomplished for 6 days without
The intensification of rapid reactions in multiphase systems using slug flow in capillaries.
A multiphase microreactor based upon the use of slug flow through a narrow channel has been developed. The internal circulation, which is stimulated within the slugs by their passage along the
Microstructured Reactors for Multiphase Reactions: State of the Art
The manufacture of chemicals in microstructured reactors (MSR) has become recently a new branch of chemical reaction engineering focusing on process intensification and safety. MSR have an equivalent
A Microreactor for the Nitration of Benzene and Toluene
Narrow channel microreactors have been evaluated for the reaction of immiscible liquid-liquid systems. In order to stimulate rapid interphase mixing and mass transfer, alternating slugs of organic
Liquid−Liquid Slug Flow in a Capillary: An Alternative to Suspended Drop or Film Contactors
The widely used separation process of liquid−liquid extraction is performed in a variety of contactors. The interfacial area in these conventional contactors is often poorly defined, because of the
Liquid-liquid two-phase mass transfer in the T-junction microchannels
In this work, the mass transfer characteristics of immiscible fluids in the two kinds of stainless steel T-junction microchannels, the opposing-flow and the cross-flow T-junction, are investigated
...
...