A sensitivity analysis of a numbered-up photomicroreactor system

Koen P.L. Kuijpers; Mark A.H. van Dijk; Quentin G. Rumeur; Volker Hessel; Yuanhai Su; Timothy Noël

doi:10.1039/C7RE00024C

A sensitivity analysis of a numbered-up photomicroreactor system

Koen P.L. Kuijpers
, Mark A.H. van Dijk
, Quentin G. Rumeur
, Volker Hessel
, Yuanhai Su
, Timothy Noël

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

64 Citaten (Scopus)

200 Downloads (Pure)

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Limitations with regard to the scalability of photochemical reactions can be efficiently overcome by using numbered-up microreactor technology. Here, the robustness of such a numbered-up capillary photomicroreactor system is tested when subjected to potential disturbances, such as channel blockage and light source failure. Channel blockage leads to relatively large changes in both flow distribution and yield. However, we found that the performance can be accurately predicted thus making it possible to adjust the reaction parameters to obtain certain output targets. Light source failure did not lead to large variations in the mass flow distribution, highlighting the importance of the flow distributor section. Since the reaction is photocatalyzed, the impact on the reaction yield was significant in the reactor where the light failure occurred.

Originele taal-2	Engels
Pagina's (van-tot)	109-115
Aantal pagina's	7
Tijdschrift	Reaction Chemistry and Engineering
Volume	2
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1039/C7RE00024C
Status	Gepubliceerd - 1 apr. 2017

Financiering

Funding for this research was provided by the Dutch Science Foundation (NWO) via a VIDI grant for T. N. (SensPhotoFlow, No. 14150). Y. S. would like to acknowledge financial support from the National Natural Science Foundation of China (No. 21676164). Also, we would like to thank the Loire Atlantique region, France, for their contribution of an Envoléo scholarship appointed to Q. Rumeur. Our gratitude also goes to Rong Fan, who performed preliminary results on the blockage experiments.

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10.1039/C7RE00024C

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A convenient numbering-up strategy for the scale-up of gas-liquid photocatalysis in flow
Kuijpers, K. (Spreker)
30 mei 2018
Activiteit: Types gesprekken of presentaties › Aangemelde presentatie › Wetenschappelijk

A convenient numbering-up strategy for the scale-up of gas-liquid photoredox catalysis in flow
Kuijpers, K. P. L., 2018.
Onderzoeksoutput: Bijdrage aan congres › Poster

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AU - Rumeur, Quentin G.

AU - Hessel, Volker

AU - Su, Yuanhai

AU - Noël, Timothy

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N2 - Limitations with regard to the scalability of photochemical reactions can be efficiently overcome by using numbered-up microreactor technology. Here, the robustness of such a numbered-up capillary photomicroreactor system is tested when subjected to potential disturbances, such as channel blockage and light source failure. Channel blockage leads to relatively large changes in both flow distribution and yield. However, we found that the performance can be accurately predicted thus making it possible to adjust the reaction parameters to obtain certain output targets. Light source failure did not lead to large variations in the mass flow distribution, highlighting the importance of the flow distributor section. Since the reaction is photocatalyzed, the impact on the reaction yield was significant in the reactor where the light failure occurred.

AB - Limitations with regard to the scalability of photochemical reactions can be efficiently overcome by using numbered-up microreactor technology. Here, the robustness of such a numbered-up capillary photomicroreactor system is tested when subjected to potential disturbances, such as channel blockage and light source failure. Channel blockage leads to relatively large changes in both flow distribution and yield. However, we found that the performance can be accurately predicted thus making it possible to adjust the reaction parameters to obtain certain output targets. Light source failure did not lead to large variations in the mass flow distribution, highlighting the importance of the flow distributor section. Since the reaction is photocatalyzed, the impact on the reaction yield was significant in the reactor where the light failure occurred.

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A sensitivity analysis of a numbered-up photomicroreactor system

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A convenient numbering-up strategy for the scale-up of gas-liquid photocatalysis in flow

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A convenient numbering-up strategy for the scale-up of gas-liquid photoredox catalysis in flow

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