Independent and collective roles of surface structures at different length scales on pool boiling heat transfer

Calvin H. Li; Russell P. Rioux

doi:https://doi.org/10.1038/srep37044

doi.org/10.1038/srep37044

Independent and collective roles of surface structures at different length scales on pool boiling heat transfer

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Scientific Reports4.60

Volume: 6, Issue: 1

Published: Nov 14, 2016

Abstract

Spherical Cu nanocavity surfaces are synthesized to examine the individual role of contact angles in connecting lateral Rayleigh-Taylor wavelength to vertical Kevin-Helmholtz wavelength on hydrodynamic instability for the onset of pool boiling Critical Heat Flux (CHF). Solid and porous Cu pillar surfaces are sintered to investigate the individual role of pillar structure pitch at millimeter scale, named as module wavelength, on hydrodynamic...

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Paper Details

Title

Independent and collective roles of surface structures at different length scales on pool boiling heat transfer

DOI

doi.org/10.1038/srep37044

Published Date

Nov 14, 2016

Journal

Scientific Reports

Volume

6

Issue

1

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