SZIGETI, Marton, Gábor JÁRVÁS and Andras GUTTMAN. DESIGN AND MODELING OF MICROFLUIDIC CELL CAPTURE DEVICES. In Chemické listy. Vol. 107. Praha: Česká společnost chemická, 2013. p. "S458"-"S459", 2 pp. ISSN 1213-7103.
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Basic information
Authors SZIGETI, Marton (348 Hungary), Gábor JÁRVÁS (348 Hungary, guarantor, belonging to the institution) and Andras GUTTMAN (348 Hungary).
Edition Vol. 107. Praha, Chemické listy, p. "S458"-"S459", 2 pp. 2013.
Publisher Česká společnost chemická
Other information
Original language English
Type of outcome Proceedings paper
Field of Study 10406 Analytical chemistry
Country of publisher Czech Republic
Confidentiality degree is not subject to a state or trade secret
Publication form electronic version available online
Impact factor Impact factor: 0.196
RIV identification code RIV/00216224:14740/13:00066926
Organization unit Central European Institute of Technology
ISSN 1213-7103
UT WoS 000328730800071
Keywords in English microfluidic cell; CFD simulation; cell capture capability
Tags ok, rivok
Changed by Changed by: Olga Křížová, učo 56639. Changed: 24. 3. 2014 09:51.
A novel microfluidic cell capture device design is investigated by means of computational fluid dynamics (CFD) simulation. The device features an array of cylindrically shaped microposts. The physical object is simulated in 2D. The model is based on the laminar form of the Navier-Stokes equation assuming one phase flow with same physical characteristics as water at 293.15 K and constant dynamic viscosity. The velocity field distribution and the formed share stress are calculated by numerical methods. It is concluded that that the cell capture capability of this novel device can be significantly improved by altering the positions of the pillars.
EE2.3.30.0037, research and development projectName: Zaměstnáním nejlepších mladých vědců k rozvoji mezinárodní spolupráce
GBP206/12/G014, research and development projectName: Centrum pokročilých bioanalytických technologií
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