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W1974086292 abstract "Phase separation in two-phase microfluidic exchangers is a promising strategy for reducing the required pumping power. Past research has focused on using hydrophobic nanoporous structures in order to extract water vapor and retain liquid within the vapor-cooling device. This study focuses on characterizing the bursting pressure, the maximum Laplace pressure for liquid containment, of nanoporous alumina membranes and micro-glass capillaries. The pore size diameters of the alumina membranes have a nominal diameter of 170 nm that can produce a pressure drop of 1.5 kPa for wetting dielectric liquids. In order to contain higher Laplace pressures, the pore geometry for 'pinning' of the fluid at the liquid-vapor interface needs to be optimized. Single glass micro-glass capillaries were used in order to study the 'pinning effect' of wetting fluids for various micro-capillary diameters. The glass capillary diameters ranged from 250-840 μm with measured Laplace pressures up to ~0.9 kPa. Experimental results agreed well with an analytical model that calculates the Laplace pressure as a function of pore geometry." @default.
W1974086292 created "2016-06-24" @default.
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W1974086292 date "2014-05-01" @default.
W1974086292 modified "2023-10-16" @default.
W1974086292 title "Phase-separation of wetting fluids using nanoporous alumina membranes and micro-glass capillaries" @default.
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W1974086292 doi "https://doi.org/10.1109/itherm.2014.6892297" @default.
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