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Study on Frost-Suppression Characteristics of Superhydrophobic Aluminum Surface Heat Exchanger Applied in Air Source Heat Pump

Yaxiu Gu, Guixiang He, Shuaipeng Li, Weiqi Ding, Hanlin Li, Jiahui Duan

2022Sustainability17 citationsDOIOpen Access PDF

Abstract

In order to solve the frosting problem of air source heat pump (ASHP) outdoor heat exchange under low-temperature and low-humidity conditions, a superhydrophobic aluminum (Al) surface with a contact angle (CA) of 158.3° was prepared by chemical etching. The microscopic characteristics of droplet condensation and the freezing process of a superhydrophobic surface were revealed through visual experiments and theoretical analysis. On this basis, the frost-suppression effect of a superhydrophobic Al-based surface simulating the distribution of actual heat exchanger fins was preliminarily explored. The results demonstrated that, due to the large nucleation energy barrier and the coalescence-bounce behavior of droplets, the condensed droplets on the superhydrophobic surface appeared late and their quantity was low. The thermal conductivity of the droplets on a superhydrophobic surface was large, so their freezing rate was low. The frosting amount on the superhydrophobic Al-based surface was 69.79% of that of the bare Al-based surface. In turn, the time required for melting the frost layer on the superhydrophobic Al-based surface was 64% of that on the bare Al-based surface. The results of this study lay an experimental and theoretical foundation for the application of superhydrophobic technology on the scale of heat exchangers.

Topics & Concepts

Materials scienceHeat exchangerFrost (temperature)Coalescence (physics)Contact angleNucleationDefrostingComposite materialThermal conductivityCondensationThermodynamicsPhysicsAstrobiologySurface Modification and SuperhydrophobicityHeat Transfer and OptimizationSolar-Powered Water Purification Methods
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