2023
DOI: 10.3390/inorganics11020049
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Micromixing and Co-Precipitation in Continuous Microreactors with Swirled Flows and Microreactors with Impinging Swirled Flows

Abstract: One of the promising methods for process intensification for micromixing, co-precipitation, and crystallization in continuous reactors is the use of vigorous vortices. A combination of the high intensity of the kinetic energy input with the small volume of the micromixing volume allows to concentrate the energy dissipation rate up to 104 W/kg and more. As the embodiment of such an idea, four new types of microreactors with intensively swirled flows were created and studied as a tool for continuous co-precipita… Show more

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Cited by 10 publications
(3 citation statements)
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“…The design of the microreactor with impinging swirling flows is described in [72]. The reactor from pyrex glass has two tangentially arranged nozzles for the supply of the initial components and a nozzle for the discharge of products.…”
Section: Samples Preparationmentioning
confidence: 99%
See 1 more Smart Citation
“…The design of the microreactor with impinging swirling flows is described in [72]. The reactor from pyrex glass has two tangentially arranged nozzles for the supply of the initial components and a nozzle for the discharge of products.…”
Section: Samples Preparationmentioning
confidence: 99%
“…At the same time, the organization of such conditions that allow the reagents to be distributed at the molecular or ionic level with the necessary degree of uniformity of their distribution in micro-volumes is an obvious prerequisite for obtaining nanoparticles with specified characteristics. Previously, the possibility of synthesis of nanoscale particles of oxides and fluorides in microreactors with impinging jets [67][68][69][70] and in microreactors with intensely swirling flows [67,[71][72][73][74] was experimentally proved. The influence of specific energy dissipation rate on micromixing quality was demonstrated experimentally by means of iodide-iodate method widely used for microreactors with ultimate level of micromixing [74].…”
Section: Introductionmentioning
confidence: 99%
“…Through the coupling of micro-mixing and reaction processes, the micro-mixing rate is synchronized with the reaction rate, ultimately yielding products with fewer vacancy defects and crystal water. [50][51][52] In traditional stirred-tank reactors, the micro-mixing efficiency is low, leading to material concentration gradients within the vessel, resulting in uneven saturation distribution. Micro-mixing times are oen prolonged, leading to varying micro-mixing conditions in different regions.…”
Section: Introductionmentioning
confidence: 99%