Abstract
We report nonequilibrium molecular simulations of the vibration-induced heating of nanoscale-thick water layers on a metal substrate. In addition to experimentally confirmed acoustothermal evaporation, we observe hitherto unmapped nucleate and film boiling regimes, accompanied by the generation of unprecedented heat fluxes [∼O(109) W/m2]. We develop a universal scaling parameter to classify the heat-transfer regimes and to predict the thickness of the residual nonevaporating liquid layer. The results find broad application to systems involving drying, coatings, and sprays.
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CITATION STYLE
Pillai, R., Borg, M. K., & Reese, J. M. (2018). Acoustothermal Atomization of Water Nanofilms. Physical Review Letters, 121(10). https://doi.org/10.1103/PhysRevLett.121.104502
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