An Active Mixer with Vertical Flow Placement via a Series of Inlets for Micromixing
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
An Active Mixer with Vertical Flow Placement via a Series of Inlets for Micromixing

Authors: Pil Woo Heo, In Sub Park

Abstract:

Flows in a microchannel are laminar, which means that mixing depends on only inter-diffusion. A micromixer plays an important role in obtaining fast diagnosis results in the fields of m-TAS (total analysis system), Bio-MEMS and LOC (lab-on-a-chip).

In this paper, we propose a new active mixer with vertical flow placement via a series of inlets for micromixing. This has two inlets on the same axis, one of which is located before the other. The sample input by the first inlet flows into the down-position, while the other sample by the second inlet flows into the up-position. In the experiment, the samples were located vertically in up-down positions in a micro chamber. PZT was attached below a chamber, and ultrasonic waves were radiated in the down to up direction towards the samples in the micro chamber in order to accelerate the mixing. The mixing process was measured by the change of color in a micro chamber using phenolphthalein and NaOH. The results of the experiment showed that the samples in the microchamber were efficiently mixed and that our new active mixer was superior to the horizontal type of active mixers in view of the grey levels and the standard deviation.

Keywords: Active mixer, vertical flow placement, microchannel, bio-MEMS, LOC.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1089483

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1766

References:


[1] J. Aubin, D. F. Fletcher and C. Xuereb, "Design of micromixers using CFD modeling,”Chem. Eng. Sci. 60, 2005, pp. 2503-2516.
[2] 2. N. T. Nguyen and Z. Wu, "Micromixers –a review," J. Micromech. Microeng. 15, 2005, R1-R16.
[3] 3. Z. Yang, H. Goto, M. Matsumoto and T. Yada, "Micromixer incorporated with piezoelectrically driven valveless micropump," Micro Total Analysis Systems, 1998, pp. 177-180.
[4] 4. Z. Yang, H. Goto, M. Matsumoto and R. Maeda, "Active micro mixer for microfluidic systems using PZT generated ultrasonic vibration," Electrophoresis 21, 2000, pp. 116-119.
[5] 5. Z. Yang, S. Matsumoto, H. Goto, M. Matsumoto and R. Maeda, "Ultrasonic micromixer for microfluidic systems," Sens. Actuators A 93, 2001, pp. 266-272.