Abstract
<h2>Summary</h2> A sustainable high heat transfer coefficient is critical for water and energy systems that utilize steam condensation. Current techniques cannot achieve a high heat transfer performance at a high heat flux. It is desired to separate vapor and liquid flow to provide a large surface area for condensation. Here, we report sustainable phase separation on microchannel-elevated micromembrane (MEM) by (1) separating the vapor and liquid using a hydrophobic micromembrane that rapidly removes condensed droplets to achieve a high heat transfer coefficient and (2) sustaining continual condensate removal inside the hydrophobic microchannels beneath the micromembrane to prevent flooding. We found that MEM could sustain phase separation at a heat flux of 1,000 kW/m<sup>2</sup> without apparent failure. The heat transfer coefficient is 300% higher than that of the dropwise condensation on a hydrophobic flat surface. The phase separation on MEM provides a paradigm for sustainable high-performance condensation regardless of subcooling.
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