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Number of results

Journal

Acta Physica Polonica A

2011 | 120 | 6 | 1018-1020

Article title

Design and Coupled Electro-Fluidic Simulation of a Novel Dielectrophoretic Microfilter

Authors

O. Nedelcu

Content

Full texts: http://przyrbwn.icm.edu.pl/APP/PDF/120/a120z6p06.pdf [remote]

Title variants

Languages of publication

EN

Abstracts

EN
In this paper a design of a new dielectrophoretic microfilter is proposed, based on electrodes configuration having stairs geometry that multiply the opposite points of electrodes where minimal and maximal values of electric field are obtained. The results of electrostatic simulation show very well defined regions of extremes values where particles can be separated. A model for particle-fluid interaction is used in momentum equation as reaction body force depending on electric field and particle concentration. The fluid flow and particles separation were simulated for positive dielectrophoresis, based on electrostatic results by means of dielectrophoretic velocity and reaction force acting on suspending media. The distribution of particle concentration depends on dielectrophoretic velocity and flow velocity, but also it influences the flow velocity, hence these fields were solved in coupled approach. The resulting flow profile, streamlines and concentration distribution demonstrate that particle migration influences the surrounding fluid and leads to modified velocity distribution by comparison to classical fluid flow.

Keywords

EN

Discipline

Publisher

Institute of Physics, Polish Academy of Sciences

Journal

Acta Physica Polonica A

Year

2011

Volume

120

Issue

6

Pages

1018-1020

Physical description

Dates

published
2011-12
received
2011-10-31

Contributors

author
O. Nedelcu
  • National Institute for Research and Development in Microtechnologies, 126A Erou Iancu Nicolae Str., 077190, Bucharest, Romania

References

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  • 2. Y. Kang, D. Li, Microfluid Nanofluid 6, 431 (2009)
  • 3. F.F. Becker, X.B. Wang, Y. Huang, R. Pethig, J. Vykoukal, P.R.C. Gascoyne, Proc. Natl. Acad. Sci. USA 92, 860 (1995)
  • 4. P.R.C. Gascoyne, Y. Huang, R. Pethig, J. Vykoukal, F.F. Becker, Meas. Sci. Technol. 3, 439 (1992)
  • 5. Y. Huang, R. Holzel, R. Pethig, X.B. Wang, Phys. Med. Biol. 37, 1499 (1992)
  • 6. R. Pethig, G.H. Markx, Trends Biotech. 15, 426 (1997)
  • 7. Encyclopedia of Microfluidics and Nanofluidics, Ed. D. Li, Vol. 2, Springer, New York 2008
  • 8. N.G. Green, H. Morgan, J. Phys. D, Appl. Phys. 31, 25 (1998)
  • 9. N.G. Green, A. Ramos, H. Morgan, J. Phys. D, Appl. Phys. 33, 632 (2000)
  • 10. A. Castellanos, A. Ramos, A. Gonzalez, N.G. Green, H. Morgan, J. Phys. D, Appl. Phys. 36, 2584 (2003)

Document Type

Publication order reference

Identifiers

DOI
10.12693/APhysPolA.120.1018

YADDA identifier

bwmeta1.element.bwnjournal-article-appv120n606kz
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