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Ferrofluid actuation with varying magnetic fields for micropumping applications

Kurtoğlu, Evrim and Bilgin, Alp and Şeşen, Muhsincan and Mısırlıoğlu, Burç and Yıldız, Mehmet and Acar, Funda Yağcı and Koşar, Ali (2012) Ferrofluid actuation with varying magnetic fields for micropumping applications. Microfluidics and Nanofluidics (Sl), 13 (4). pp. 683-694. ISSN 1613-4982 (Print) 1613-4990 (Online)

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Official URL: http://dx.doi.org/10.1007/s10404-012-1008-5

Abstract

Magnetic nanoparticle suspensions and their manipulation are becoming an alternative research line. They have vital applications in the field of microfluidics such as microscale flow control in microfluidic circuits, actuation of fluids in microscale, and drug delivery mechanisms. In microscale, it is possible and beneficial to use magnetic fields as actuators of such ferrofluids, where these fluids could move along a dynamic gradient of magnetic field so that a micropump could be generated with this technique. Thus, magnetically actuated ferrofluids could have the potential to be used as an alternative micro pumping system. Magnetic actuation of nanofluids is becoming an emergent field that will open up new possibilities in various fields of engineering. Different families of devices actuating ferrofluids were designed and developed in this study to reveal this potential. A family of these devices actuates discrete plugs, whereas a second family of devices generates continuous flows in tubes of inner diameters ranging from 254<m to 1.56mm. The devices were first tested with minitubes to prove the effectiveness of the proposed actuation method. The setups were then adjusted to conduct experiments on microtubes. Promising results were obtained from the experiments. Flow rates up to 120μl/s and 0.135μl/s were achieved in minitubes and microtubes with modest maximum magnetic field magnitudes of 300mT for discontinuous and continuous actuation, respectively. The proposed magnetic actuation method was proven to work as intended and is expected to be a strong alternative to the existing micropumping methods such as electromechanical, electrokinetic, and piezoelectric actuation. The results suggest that ferrofluids with magnetic nanoparticles merit more research efforts in micro pumping.

Item Type:Article
Uncontrolled Keywords:Microfluidics, Microchannel, Magnetic actuation, Ferrofluids, Nanofluids, Pumps, Magnetohydrodynamics
Subjects:T Technology > T Technology (General)
T Technology > TJ Mechanical engineering and machinery
Q Science > QC Physics > QC501-766 Electricity and magnetism
Q Science > QD Chemistry
ID Code:19969
Deposited By:Ali Koşar
Deposited On:06 Nov 2012 23:09
Last Modified:03 Dec 2012 11:41

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