Novel electroosmotic micromixer configuration based on ion-selective microsphere
Autor: | Maxim Alekseev, Evgeny A. Demekhin, Nikolay Nikitin, Jarrod Schiffbauer, G. S. Ganchenko |
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Rok vydání: | 2021 |
Předmět: |
Electrophoresis
Materials science Clinical Biochemistry Micromixer Mechanics Equipment Design Biochemistry Streaming current Microspheres Analytical Chemistry Vortex Volumetric flow rate Physics::Fluid Dynamics Electrokinetic phenomena Models Chemical Lab-On-A-Chip Devices Fluid dynamics Computer Simulation Electrohydrodynamics Electroosmosis Mixing (physics) |
Zdroj: | Electrophoresis5 References. 42(23) |
ISSN: | 1522-2683 |
Popis: | In this paper, a micromixer of a new configuration is presented, consisting of a spherical chamber in the center of which an ion-selective microsphere is placed. Stratified liquid is introduced through the chamber via inlet and outlet holes under an external pressure gradient and an external electric field is directed in such a way that the resulting electroosmotic flow is directed against the pressure-driven flow, resulting in mixing. The investigation is carried out by direct numerical simulation on a super-computer. Optimal values of the applied electric field are determined to yield strong mixing. Above this optimal mixing regime, a number of instabilities and bifurcations are realized, which qualitatively coincide with those occurring during electrophoresis of an ion-selective microgranule. As shown by our calculation, these instabilities do not lead to an enhanced mixing. The resulting electroconvective vortices remain confined near the surface of the microgranule, and do not sufficiently perturb the stratified fluid flow further from the granule. On the other hand, another type of instability caused by the salt concentration gradient can generate sufficiently strong oscillations to enhance mixing. However, this only occurs when the external electric field is sufficiently high that the electroosmotic flow is comparable to the pressure-driven flow. This ultimately leads to creation of reverse flows of the liquid and cessation of the device operation. Thus, it was shown that the best mixing occurs in the absence of electrokinetic instability. Based on the data obtained, it is possible to select the necessary geometric characteristics of the micromixer to achieve the optimal mixing mode for a given set of liquids, which may be ten times more effective than passive mixers at the same flow rates. A comparison with the experimental data of the other authors confirms the effectiveness of this device and its other capabilities. Furthermore, the basic device design can be operated in other modes, for example, an electrohydrodynamic pump, a streaming current generator, or even a micro-reactor, depending on the system parameters and choice of an ion-selective granule. |
Databáze: | OpenAIRE |
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