Abstract
A physicomathematical model is developed for spatiotemporal evolution of an ice layer growing upon solid body interaction with individual droplets that slide along the body surface and harden on it, resulting in two-dimensional roughness (lumpy ice). The case of a cross-flow circular cylinder illustrates the calculation results for a set of control parameters typical for ground-based experiments in an aero-refrigeration wind tunnel.
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Funding
The study was carried out within the MUSIC-haic project of the HORIZON 2020 EU program and supported by the Ministry of Science and Education of the Russian Federation as part of the federal target program Research and Development on Priority Directions of the Scientific-Technological Complex of Russia in 2014–2020, project no. RFMEFI62818X0010.
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Translated by L. Trubitsyna
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Kashevarov, A.V., Stasenko, A.L. Discrete-Drop Mode of Ice Accretion on a Cylinder in Transverse Supercooled Flow. Tech. Phys. 65, 41–47 (2020). https://doi.org/10.1134/S1063784220010120
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DOI: https://doi.org/10.1134/S1063784220010120