. "Mathematical modeling of top-bottom zig-zag four phase AC electroosmotic micropump"@en . "Proceedings of 36th International Conference of Slovak Society of Chemical Engineering" . . "Alternating current electrosmosis (ACE) represents the flow of a liquid electrolyte resulting from Coulombic force in the electric double layer (EDL) near to the electrolyte-metallic electrode surface. In standard arrangement of electroosmotic micropump the array of planar microelectrodes is placed on the one side (e.g. bottom) of the microchannel. Several principles were described in the literature. Traveling wave electroosmosis is based on the phase shift of AC voltage between the electrodes (three or more phases). Nonsymmetric interdigitated (bipolar one phase) arrangement of the planar or three dimensional electrodes is based on the complex charging and discharging of the electric double layers on the electrodes with different sizes and gaps between them. In this paper we suggested new top-bottom zig-zag arrangement. The arrays of electrodes are placed both on the top and on the bottom of the microchannel. Experimental realization of such system is simpler than one side arrangement. Results of mat" . "RIV/60461373:22340/09:00021868!RIV10-MSM-22340___" . . . . "P(GD104/08/H055), P(IAA401280904), Z(MSM6046137306)" . . "Hrdli\u010Dka, Ji\u0159\u00ED" . "12"^^ . "Slovensk\u00E1 technick\u00E1 univerzita v Bratislave" . "Bratislava" . "4"^^ . . "Alternating current electrosmosis (ACE) represents the flow of a liquid electrolyte resulting from Coulombic force in the electric double layer (EDL) near to the electrolyte-metallic electrode surface. In standard arrangement of electroosmotic micropump the array of planar microelectrodes is placed on the one side (e.g. bottom) of the microchannel. Several principles were described in the literature. Traveling wave electroosmosis is based on the phase shift of AC voltage between the electrodes (three or more phases). Nonsymmetric interdigitated (bipolar one phase) arrangement of the planar or three dimensional electrodes is based on the complex charging and discharging of the electric double layers on the electrodes with different sizes and gaps between them. In this paper we suggested new top-bottom zig-zag arrangement. The arrays of electrodes are placed both on the top and on the bottom of the microchannel. Experimental realization of such system is simpler than one side arrangement. Results of mat"@en . "Mathematical modeling of top-bottom zig-zag four phase AC electroosmotic micropump"@en . . "4"^^ . "[B46237E62554]" . "324936" . . . . . . "Mathematical modeling of top-bottom zig-zag four phase AC electroosmotic micropump" . "P\u0159ibyl, Michal" . "Mathematical modeling of top-bottom zig-zag four phase AC electroosmotic micropump" . . "978-80-227-3072-3" . . . "Tatransk\u00E9 Matliare" . . . "\u010Cervenka, Petr" . . "AC electroosmosis; travelling wave; micropump; mathematical modeling"@en . "2009-05-25+02:00"^^ . . . "\u0160nita, Dalimil" . . "22340" . "RIV/60461373:22340/09:00021868" . .