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Minireview: Flow chemistry studies of high-pressure gas-liquid reactions with carbon monoxide and hydrogen

Minireview: Flow chemistry studies of high-pressure gas-liquid reactions with carbon monoxide and... Tube-in-tube flow reactors are emerging as a highly efficient flow chemistry strategy for performing various types of gas-liquid reactions due to their unique characteristics, such as high specific interfacial area, enhanced mass transfer and mixing, reduced material consumption, and safe handling of toxic and flammable gases. In this article we discuss the most recent advancements in utilizing tube-in-tube flow reactors for fundamental and applied studies of high-pressure gas-liquid reactions with carbon monoxide, hydrogen, and syngas. General guidelines for successful assembly of such flow chemistry platforms are discussed. In addition, a perspective on future potential directions for further development of the tube-in-tube flow reactors such as scale-up and increased robustness are provided. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Flow Chemistry Springer Journals

Minireview: Flow chemistry studies of high-pressure gas-liquid reactions with carbon monoxide and hydrogen

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References (33)

Publisher
Springer Journals
Copyright
Copyright © Akadémiai Kiadó 2020
ISSN
2062-249X
eISSN
2063-0212
DOI
10.1007/s41981-019-00059-4
Publisher site
See Article on Publisher Site

Abstract

Tube-in-tube flow reactors are emerging as a highly efficient flow chemistry strategy for performing various types of gas-liquid reactions due to their unique characteristics, such as high specific interfacial area, enhanced mass transfer and mixing, reduced material consumption, and safe handling of toxic and flammable gases. In this article we discuss the most recent advancements in utilizing tube-in-tube flow reactors for fundamental and applied studies of high-pressure gas-liquid reactions with carbon monoxide, hydrogen, and syngas. General guidelines for successful assembly of such flow chemistry platforms are discussed. In addition, a perspective on future potential directions for further development of the tube-in-tube flow reactors such as scale-up and increased robustness are provided.

Journal

Journal of Flow ChemistrySpringer Journals

Published: Mar 17, 2020

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