On the scalability of microstructured mixing devices

Kölbl, A.; Kraut, Manfred; Schubert, K. R.

doi:10.1016/j.cej.2010.02.037

Cited by 17 publications

(21 citation statements)

References 17 publications

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“…Generally, the continuous flow method is capable to measure very fast reactions, too. However, this often requires a high throughput and therefore high consumption of chemicals 31 or mixing under high pressure, 32 our SFM design is not capable to deal with. Next steps concern the measurement of lateral concentration profiles within the mixing channel and the focusing zone of the SFM and using a SFM with integrated heating channels to enable measuring at different temperatures.…”

Section: Discussionmentioning

confidence: 99%

Decay kinetics of sensitive bioinorganic species in a SuperFocus mixer at ambient conditions

et al. 2016

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Section: Discussionmentioning

confidence: 99%

Decay kinetics of sensitive bioinorganic species in a SuperFocus mixer at ambient conditions

et al. 2016

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“…Panic et al found similar absorbance values using the concentrations set 2 in a T-mixer [28]. Kölbl et al also used the concentrations set 2 to investigate the mixing efficiency of microstructured V-type mixers [29,30]. The authors found similar absorbance values but for higher pressure drops.…”

Section: Inlet Flow Rates Between 10 L/h and 30 L/hmentioning

confidence: 52%

Hydrodynamics and mixing performance of Hartridge Roughton mixers: Influence of the mixing chamber design

Patrizio

Bagnaro

Gaunand

et al. 2016

Chemical Engineering Journal

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“…Most of them are extraction units; some gas-liquid and liquid-liquid phase splitters were also tested and even integrated in reaction flows. Schubert et al built V-type and P-type micromixers that are applied for emulsion formation [91]. Extraction in microchannels was in the focus already from the early investigations in microfluidics and microreaction technology and this interest has continued until today.…”

Section: Performances Of Flow Separationsmentioning

confidence: 99%

“…In the international community, CEC research is dedicated to the separation capacity of analytically relevant substances [108][109][110]. Fe(II) into chloroform channel length: 10 mm [77] Microporous membrane Butyl rhodamine B into isobutanol [83] Y-type micromixer Butyl acetate/water system droplet formation [84] Standard slit interdigital micromixer (SSIMM) Silicon oil/water system [88][89][90] P/V-type micromixer Emulsification processes [91] YM-1, YM-2 micromixer Phenol from dodecane into water [93] YM-1 and IMM micromixers The main aim is to reduce the cross section of the separating column/media in order to allow, via reduction of the current, a decrease of the Joule heat formed [112,113].…”

Section: Performances Of Flow Separationsmentioning

confidence: 99%

Potential Analysis of Smart Flow Processing and Micro Process Technology for Fastening Process Development: Use of Chemistry and Process Design as Intensification Fields

et al. 2012

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Flow processes with microstructured reactors allow paradigm changes in process development and thus can enable a faster development time to the final production plant. They do this by exploiting similarity effects along the development chain (modularity) and intensification. The final result can be a (significantly) reduced number of apparatus in the plant, a (significantly) reduced apparatus size, and a higher predictability in the scale-out of the apparatus. So far, this was mainly achieved via transport intensification given in microstructured reactorsimproved mixing and heat transfer which increase productivity and possibly improve selectivity. A more new idea is chemical intensification through deliberate use of harsh chemistries at unusual (high) pressure, temperature, concentration, and reaction environment which again increases productivity. A very new idea is the process design intensification -the reaction-maximized flow processes need less separation expenditure and the small unit size together with the high degree in functionality gives large potential for system integration. Both means change and simplify the process scheme totally which can lead to a reduced number of apparatus and has impact on predictability. The modular nature of the small flow units allow an easy implementation to modern modular plant environments (Future Factories) which enables to perform all the testing cycles (lab, pilot, production) in one plant environment; an example are here container plants. All these measures have large potential for (much) decreased overall development time.

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On the scalability of microstructured mixing devices

Cited by 17 publications

References 17 publications

Decay kinetics of sensitive bioinorganic species in a SuperFocus mixer at ambient conditions

Decay kinetics of sensitive bioinorganic species in a SuperFocus mixer at ambient conditions

Hydrodynamics and mixing performance of Hartridge Roughton mixers: Influence of the mixing chamber design

Potential Analysis of Smart Flow Processing and Micro Process Technology for Fastening Process Development: Use of Chemistry and Process Design as Intensification Fields

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