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Electroosmotically enhanced microchannel heat sinks Afzal Husain
The Journal of Mechanical Science and Technology, vol. 23, no. 3, pp.814-822, 2009
Abstract : The present study investigates the microchannel heat sink for pure electroosmotic, pressure-driven, and mixed (electroosmotic
and pressure-driven) flows. A three-dimensional numerical analysis is performed for electroosmotic and
mixed flows. Electroosmotic flow (EOF) induced in an ionic solution in the presence of surface charge and electric
field is investigated with hydrodynamic pressure-driven flow (PDF) to enhance heat removal through the microchannel
heat sink. In a pressure-driven microchannel heat sink, the application of an external electric field increases the flow
rate that consequently reduces the thermal resistance. The effects of ionic concentration represented by the zeta potential
and Debye thickness are studied with the various steps of externally applied electric potential. A higher value of
zeta potential leads to higher flow rate and lower thermal resistance, which consequently reduce the temperature of the
microprocessor chip and load of the micropump used to supply coolant to the microchannels.
Keyword :
Electroosmotic flow; Microchannel heat sink; Numerical simulation; Thermal resistance
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