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Thin liquid films can provide efficient means for heat and mass transfer by supporting a large rate of evaporation, while maintaining temperatures under saturation conditions. The use of nanoporous membranes establishes thin liquid films minimizing the possibility of dryout by exploiting capillary confinement of the fluid. In combination with gas jet impingement, this yields record high heat and mass...
A MEMS-NEMS cooling device based on gas-assisted, thin-film evaporation and its experimental performance characterization are presented, aiming to dissipate large heat fluxes at low junction temperature for thermal management of hot spots in microprocessors. The salient feature of this cooling scheme that distinguishes it from other currently used microfluidic cooling techniques is an efficient combination...
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