2023
DOI: 10.1002/adfm.202306756
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Topography Optimization for Sustainable Dropwise Condensation: The Critical Role of Correlation Length

Panagiotis Sarkiris,
Vassilios Constantoudis,
Kosmas Ellinas
et al.

Abstract: An effective pathway to enhance the heat transfer process is to induce the formation of highly mobile condensate droplets, employing micro‐nanoengineered superhydrophobic surfaces. However, the design of the topography of these surfaces for sustained high performance constitutes a significant scientific and technological challenge. Herein, the critical role of the correlation length of topography is demonstrated as an important factor when designing superhydrophobic surfaces for heat transfer applications. Spe… Show more

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Cited by 10 publications
(7 citation statements)
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“…The steam was With increased subcooling, the dropwise condensation mode on PDMS brushes was maintained (Figure 3a, Videos S6−S8, Supporting Information), without a change of the circular drop shape. On our superhydrophobic reference surface (see Experimental Section for details), 66 dropwise condensation was observed at subcooling <1 K. Superhydrophobic surfaces are known for their jumping dropwise condensation mode only at low subcooling. 17,67 However, the drops show an irregular shape at subcooling of 2 K and finally turn into a liquid film at 3 K. The filmwise condensation is due to the flooding at high subcooling values because the surface remains superhydrophobic after condensation upon drying.…”
Section: Preparation and Characterization Of Pdmsmentioning
confidence: 93%
See 3 more Smart Citations
“…The steam was With increased subcooling, the dropwise condensation mode on PDMS brushes was maintained (Figure 3a, Videos S6−S8, Supporting Information), without a change of the circular drop shape. On our superhydrophobic reference surface (see Experimental Section for details), 66 dropwise condensation was observed at subcooling <1 K. Superhydrophobic surfaces are known for their jumping dropwise condensation mode only at low subcooling. 17,67 However, the drops show an irregular shape at subcooling of 2 K and finally turn into a liquid film at 3 K. The filmwise condensation is due to the flooding at high subcooling values because the surface remains superhydrophobic after condensation upon drying.…”
Section: Preparation and Characterization Of Pdmsmentioning
confidence: 93%
“…The reaction lasts for 4 h. Hydrophilic CuO surfaces are prepared by immersing oxide-free pristine copper in boiling water for 30 min. The superhydrophobic surfaces are fabricated as described before . Briefly, after the cleaning process, the substrates are immersed into a 9.25% V/V aqueous solution of hydrochloric acid for 10 min to fabricate microstructures.…”
Section: Methodsmentioning
confidence: 99%
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“…According to 69 , surpassing a critical ratio between the distances of the surface structures (correlation length) and the distance of nucleation for the condensation of droplets in the partial Cassie state is necessary for sustainable dropwise condensation on hierarchical surfaces. It is assumed that this criterion could be met, as the enhanced heat transfer at low temperatures could be maintained over the entire measurement campaign of 4 months with a total of over 500 operating hours.…”
Section: Application Of Laser-functionalized Metal Pipes To Enhance T...mentioning
confidence: 99%