Experimental Study on the Frosting/Defrosting Performance of Super Hydrophobic Evaporator Based on Micro-Nano Technology

机译：基于微纳技术的超疏水蒸发器结霜/除霜性能的实验研究

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In order to improve the heat exchanger efficiency, reduce energy consumption, the anti-frosting performance of superhydrophobic evaporator was investigated experimentally. By comparing the frosting time, form, process, surface condition and defrosting time, form, process and surface condition of hydrophilic evaporator and superhydrophobic evaporator, the frosting/defrosting principle of superhydrophobic evaporator was analyzed. Conclusion showed that the super hydrophobicity can delay frosting formation initially, reduce frosting accumulation effectively. In the process of frosting, the energy consumption ratio of hydrophilic evaporator and superhydrophobic evaporator was obtained. It declared that the superhydrophobic evaporator had better anti-frosting performance and higher energy efficiency ratio than the hydrophilic evaporator.

机译：为了提高换热器效率，减少能耗，对超疏水蒸发器的抗结霜性能进行了实验研究。通过比较亲水蒸发器和超疏水蒸发器的结霜时间，形式，工艺，表面条件和除霜时间，形式，过程和表面条件，分析了超疏水蒸发器的结霜/除霜原理。结论表明，超疏水性可以初步延缓结霜的形成，有效减少结霜的积累。在结霜过程中，获得了亲水蒸发器和超疏水蒸发器的能耗比。宣称与疏水性蒸发器相比，超疏水性蒸发器具有更好的防霜性能和更高的能效比。

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《International Conference on Artificial Intelligence and Electromechanical Automation》|2020年|594-598|共5页
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Du Weixiao; Liu Meng; Zhan Li; Liu Feng; Woonbong Hwang;
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Micro-nano technology; superhydrophobic evaporator; anti-frosting performance; hydrophilic evaporator;

机译：微纳技术;超疏水蒸发器防霜性能;亲水蒸发器;

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Experimental Study on the Frosting/Defrosting Performance of Super Hydrophobic Evaporator Based on Micro-Nano Technology

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