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Title: | Experimental study on the effect of inverted aperture plate temperature on frosting characteristics under rising flow considering edge effect | ||||||||||
Author: | Huang, Lizhen; Song, Mengjie; Shen, Jun; Kim, Dong Rip; Zhang, Long; Pekař, Libor | ||||||||||
Document type: | Peer-reviewed article (English) | ||||||||||
Source document: | International Journal of Heat and Mass Transfer. 2024, vol. 224 | ||||||||||
ISSN: | 0017-9310 (Sherpa/RoMEO, JCR) | ||||||||||
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DOI: | https://doi.org/10.1016/j.ijheatmasstransfer.2024.125343 | ||||||||||
Abstract: | To reduce the negative impact of frost formation on cold surfaces in low-temperature environments, metal wire mesh can be set in the air flow direction from the cold surface to reduce air humidity. To quantitatively determine the effectiveness of dehumidification after passing through a metal wire, the frosting process needs to be studied. To analyze the mechanism of frost formation under the horizontal wire mesh surface, the wire mesh was simplified as a flat plate with holes, or aperture plate, with plate temperature varying at a range of -15.0 °C to -5.0 °C. The results show that, as the plate temperature decreases, the droplet condensation and growth and droplet solidification stages gradually decrease, the average frost layer thickness and frost layer growth rate rise, and overall frost layer surface roughness increases. For a frosting duration of 1,800 s, compared to -5.0 °C, the average frost layer thickness from -7.5 °C to -15.0 °C inside the hole increased by 56.68 % and 156.41 %, while the plate edge region away from the hole increased by 40.76 % and 169.92 %, respectively. The reverse melting frequency gap between the inside hole region and the plate edge region away from the hole increases with the decreasing aperture plate temperature. At -15.0 °C, the reverse melting frequency inside the hole is 5.00 × 10−3 Hz lower than in the region of the plate edge away from the hole. The results of this article are beneficial for understanding the frosting process of wire mesh or perforated-fin heat exchanger. | ||||||||||
Full text: | https://www.sciencedirect.com/science/article/pii/S0017931024001741 | ||||||||||
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