(2021) Numerical Investigation of Mixing by Induced Electrokinetic Flow in T-Micromixer with Conductive Curved Arc Plate. Symmetry-Basel. p. 30.
Text
Numerical Investigation of Mixing by Induced Electrokinetic Flow in T-Micromixer with Conductive Curved Arc Plate.pdf Download (6MB) |
Abstract
Mixing is essential in microdevices. Therefore, increasing the mixing efficiency has a significant influence on these devices. Using conductive obstacles with special geometry can improve the mixing quality of the micromixers. In this paper, a numerical study on the mixing caused by an induced-charge electrokinetic micromixer was carried out using a conductive plate with a curved arc shape instead of a conductive flat plate or other non-conductive obstacles for Newtonian fluids. This study also explored the effect of the different radius curves, span length, the number of curved arc plates in the channel, the pattern of arrangement, concavity direction, and the orientation angle against the flow on the mixing. Furthermore, the efficiency of the T-micromixer against a flow with a low diffusion coefficient was investigated. It should be noted that the considered channel is symmetric regarding to the middle horizontal plane and an addition of flat plate reflects a formation of symmetric flow structures that do not allow to improve the mixture process. While an addition of non-symmetric curved arc plates al-lows to increase the mixing by creating vortices. These vortices were created owing to the non-uniform distribution of induced zeta potential on the curved arc plate. A rise in the span length of the curved arc plate when the radius was constant improved the mixing. When three arc plates in one concavity direction were used, the mixing efficiency was 91.86, and with a change in the concavity direction, the mixing efficiency increased to 95.44. With a change in the orientation angle from 0 to 25, the mixing efficiency increased by 19.2.
Item Type: | Article |
---|---|
Keywords: | micromixer electrokinetic conductive curved arc plate numerical simulation non-newtonian fluids electroosmotic flow passive micromixer simulation efficiency microchannel enhancement performance particles patterns Science & Technology - Other Topics |
Page Range: | p. 30 |
Journal or Publication Title: | Symmetry-Basel |
Journal Index: | ISI |
Volume: | 13 |
Number: | 6 |
Identification Number: | https://doi.org/10.3390/sym13060915 |
Depositing User: | مهندس مهدی شریفی |
URI: | http://eprints.bmsu.ac.ir/id/eprint/9913 |
Actions (login required)
View Item |