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Scaling Up of Continuous Flow Processes with Gases Using a Tube-in-Tube Reactor: Inline Titrations and Fanetizole Synthesis with Ammonia

Pastre, Julio C.; Browne, Duncan L.; O’Brien, Matthew; Ley, Steven V.

Authors

Julio C. Pastre

Duncan L. Browne

Steven V. Ley



Abstract

The development of a tube-in-tube reactor based on a semipermeable polymer membrane has enabled the efficient transfer of gases into liquid flow streams. In this work we describe the scalability and throughput of this reactor when applied to ammonia gas. This is made possible by a convenient titration method to rapidly assess a wide range of parameters including the liquid and gas configuration, reactor temperatures, flow rates, and solvent polarity. These data are then employed in a scaling-up process affording alkyl thioureas and are ultimately applied to a telescoped procedure leading to the anti-inflammatory agent fanetizole on a multigram scale.

Citation

Pastre, J. C., Browne, D. L., O’Brien, M., & Ley, S. V. (2013). Scaling Up of Continuous Flow Processes with Gases Using a Tube-in-Tube Reactor: Inline Titrations and Fanetizole Synthesis with Ammonia. Organic Process Research and Development, 17(9), 1183-1191. https://doi.org/10.1021/op400152r

Journal Article Type Article
Online Publication Date Aug 27, 2013
Publication Date Sep 20, 2013
Deposit Date Jun 16, 2023
Journal Organic Process Research & Development
Print ISSN 1083-6160
Electronic ISSN 1520-586X
Publisher American Chemical Society
Peer Reviewed Peer Reviewed
Volume 17
Issue 9
Pages 1183-1191
DOI https://doi.org/10.1021/op400152r
Keywords Organic Chemistry; Physical and Theoretical Chemistry


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