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Development of an automated multi-stage continuous reactive crystallization system with in-line PATs for high viscosity process
An automated multi-stage continuous reaction system with in-line PATs for a high viscosity reactive crystallization process was developed in the present study. Data acquisition (DAQ) hardware and Labview software were used as the local control system. A “forward-backward” burst pumping strategy was...
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Published in: | Reaction chemistry & engineering 2018-10, Vol.3 (5), p.658-667 |
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Main Authors: | , , , , , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | An automated multi-stage continuous reaction system with in-line PATs for a high viscosity reactive crystallization process was developed in the present study. Data acquisition (DAQ) hardware and Labview software were used as the local control system. A “forward-backward” burst pumping strategy was developed to smoothly transfer the highly viscous hot slurry from one vessel to the next. In addition, a comparative analysis between a plug flow reactor (PFR) and continuous stirred-tank reactors (CSTRs) in series revealed that to achieve the same conversion, the latter would require more volume than the former, but less than a single CSTR. For a second-order reaction, the value of the Damköhler number necessary to achieve conversion of 90.0% in a single CSTR is 90. Thus, it is reasonable to approximate a PFR using CSTRs in series to obtain a high yield with a smaller reaction volume (compared with a single CSTR). As the probes could not be positioned in the hot slurry due to fouling issues, in-line focused beam reflectance measurement (FBRM) and React IR were used to monitor the crystal size and reactant concentration in the vessel containing the cold slurry.
E-factors
of batch and continuous processes were also compared and the continuous reaction could obtain a lower
E-factor
because less waste was generated. |
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ISSN: | 2058-9883 2058-9883 |
DOI: | 10.1039/C8RE00078F |