Low-cost reciprocating electromagnetic-based micropump for high-flow rate applications

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Sima, A. H ; Sharif University of Technology | 2015

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Type of Document: Article
DOI: 10.1117/1.JMM.14.3.035003
Publisher: SPIE , 2015
Abstract:
A reciprocating single-chamber micropump is designed and experimentally tested. The actuation technique of the pump is based on Lorentz force acting on an array of low-weight microwires placed on a flexible membrane surface. A square-wave electric current (5.6 and 7.8 A) with a low-frequency range (5.6 to 7.6 Hz) is applied through the microwires in the presence of a perpendicular magnetic field (0.08 to 0.09 T). The resultant oscillating Lorentz force causes the membrane to oscillate with the same frequency, and pushes the fluid to flow toward the outlet using a high-efficiency ball-valve. The micropump has exhibited a maximum efficiency of 2.03% with a flow rate as high as 490 μl/s and back pressure up to 1.5 kPa. Having a high self-pumping frequency of Fsp=32.71/min compared to other micropumps, our proposed pump is suitable for a wide range of applications specifically for biofluid transport
Keywords:
Microwire ; Efficiency ; Lorentz force ; Pumps ; Electromagnetic ; Flexible membranes ; High-flow rate ; Micro pump ; Microwire ; Reciprocating ; Oscillating flow
Source: Journal of Micro/ Nanolithography, MEMS, and MOEMS ; Volume 14, Issue 3 , July , 2015 ; 19325150 (ISSN)
URL: http://nanolithography.spiedigitallibrary.org/article.aspx?articleid=2436563