vapor chamber
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2022 ◽  
Vol 253 ◽  
pp. 115138
Author(s):  
George Damoulakis ◽  
Constantine M. Megaridis

2021 ◽  
Vol 92 (12) ◽  
pp. 124902
Author(s):  
Xinyue Jiang ◽  
Anqi Chen ◽  
Fan Jiang ◽  
Wei Guo ◽  
You Lv ◽  
...  

2021 ◽  
Vol 170 ◽  
pp. 107145
Author(s):  
Guangwen Huang ◽  
Wangyu Liu ◽  
Yuanqiang Luo ◽  
Yong Li ◽  
Hanyin Chen

2021 ◽  
Author(s):  
Chen Zhang ◽  
Jun Shen ◽  
Xiuchen Xiao ◽  
Qingli Deng ◽  
Huimin Wang ◽  
...  

2021 ◽  
Author(s):  
Huihe Qiu ◽  
Yinchuang Yang

In this chapter, we describe surface modification techniques for enhancing heat/mass transfer and evaporation on heated surfaces. The effect of asymmetrical structure in designing a vapor chamber, patterned with multiscale micro/nanostructured surfaces will be introduced. The wettability patterned surface and its mechanism for improving the evaporation rate of a droplet and the thermal performance of nucleate boiling are discussed. An ultrathin vapor chamber based on a wettability patterned evaporator is introduced as a case for the application of the wettability pattern. Besides, modifying the surface with nanostructure to form a multiscale micro/nanostructured surface or superhydrophobic surface also enhances the phase change. Several types of heat spreaders are proposed to investigate the effects of multiscale micro/nanostructured surface and nanostructured superhydrophobic condenser on the thermal performance of the heat spreaders, respectively. The effects of multiscale micro/nanostructured evaporator surfaces with wettability patterns will be analyzed and experimental data will be presented.


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