Bidirectional flow micropump based on dynamic rectification
Date
2013Author
Pei, Song Chee
Ruzairi, Abdul Rahim, Prof. Dr.
Rashidah @ Siti Saedah, Arsat, Dr.
Uda, Hashim, Prof. Dr.
Loew, Pei Ling, Dr.
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This paper proposes a new bidirectional pumping principle based on a dynamic rectification mechanism. The pump is composed of a moveable actuation platform and a gourd-shaped chamber, whose role is to behave as both a rectification and a pumping structure. An asymmetrically deflected membrane induces a differential pressure across the chamber and thus generates a pumping effect. The stream flow field inside the chamber was verified by numerical simulations. Furthermore, the feasibility of the pump was examined by developing a poly-dimethylsiloxane (PDMS)-based prototype using micro-electromechanical (MEMS) fabrication technology. Because the pumping performance is directional, the micropump characteristics were evaluated at different actuation points along the membrane. In addition, the operating performance was assessed over a range of low driving frequencies (1-10 Hz, in 1 Hz increments) and over a nominal frequency ranges (5-55 Hz, in 5 Hz increments). The proposed micropump exhibits maximum flow rates of 1.52 ml/min in the forward direction and 1.48 ml/min in the reverse direction, with resonance frequencies of 15 Hz and 20 Hz, respectively. The presented pump offers advantage in future disposable microfluidics applications due to its bi-directional properties, low fabrication cost and modular architecture.
URI
http://www.sciencedirect.com/science/article/pii/S0924424713004822http://dspace.unimap.edu.my:80/dspace/handle/123456789/32905