Wettability, water droplet dynamics and freezing on irregularly roughened stainless-steel surfaces for ice protection application ...
n the Arctic and other cold environments, ice can jeopardize local infrastructure, hinder field operations, damage buildings, offshore and ship superstructures and threaten life and property. Ice protection techniques are essential for equipment, structures, and personnel in these environments. Pass...
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| Format: | Text |
| Language: | English |
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Memorial University of Newfoundland
2023
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| Online Access: | https://dx.doi.org/10.48336/5awh-jd43 https://research.library.mun.ca/15835/ |
| Summary: | n the Arctic and other cold environments, ice can jeopardize local infrastructure, hinder field operations, damage buildings, offshore and ship superstructures and threaten life and property. Ice protection techniques are essential for equipment, structures, and personnel in these environments. Passive techniques rely on the physical properties of the target surface to dispose of ice or prevent ice build-up without any required external energy source. As a passive ice protection technology, (super)hydrophobic metallic surfaces can significantly delay the water droplet impact and freezing process. However, hydrophobic surfaces are not always icephobic. The droplet impact dynamics and freezing process on irregularly roughened (super)hydrophobic metal surfaces have not been fully understood. Previous experimental studies have limited the impact and freezing of water droplets on cold surfaces at room temperature. Most experimental and modelling investigations have also been limited to separately studying droplet ... |
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