Impact of Ceramic Micropillar Array and Fiber Layer Composite Structure on Kinematic and Heat Transfer Characteristics of Single Droplet Impacting a Wall
Dechao Zhang, Guangjing Zhang, Yiwei Li, Yaobin Jiang, Yusong Yu

TL;DR
This study explores how ceramic micropillar arrays and fiber layers affect droplet impact and heat transfer on high-temperature surfaces.
Contribution
The study introduces a composite structure with ceramic micropillars and fiber layers, revealing their impact on droplet dynamics and thermal transfer.
Findings
Fiber layers placed on top increased droplet spreading by over 40% compared to structures without film.
Embedded fiber layers increased droplet spreading by over 20%.
The fiber layer extended droplet evaporation time by altering surface wettability at 200 °C.
Abstract
The well-known limitations of spray cooling on high-temperature solids at the Leidenfrost temperature point have been significantly improved by a composite structure of steel micropillar arrays and insulating thin films. However, the physical mechanism of a single droplet impact on the walls of high-temperature composite structures in spray cooling remains elusive. We have experimentally studied and quantified the kinematic and thermal transfer characteristics of a single droplet impacting high-temperature micropillar arrays with fiber membrane composite structures. In particular, micropillar arrays of ceramic materials of different shapes (rectangular and cylindrical) used in this study were made using the more flexible PμSL technique, for which precision reaches the micron level. The results show that the presence and different layouts (embedded or placed on top) of the fiber layer…
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Taxonomy
TopicsFluid Dynamics and Heat Transfer · Plant Surface Properties and Treatments · Surface Modification and Superhydrophobicity
