[里程碑] 我科研之路的开端

2015年4月1日是我开始选择创新班导师的日子。在戴峭峰副研究员的指导下，我与团队完成了我的第一项科学研究，其摘要如下：

In this paper, an optical radiative cooler with quasi-Cantor structure is theoretically proposed and analyzed. This simple and symmetrically designed optical structure operates upon continuous thermal sources in diurnal subtropical conditions, and its efficiency is much higher than natural cooling, for instance, when operating upon a typical 323.15 K continuous thermal source with a wind speed at 3 m/s, it can generate a net cooling power of 363.68 W/m², which is 18.26% higher than that of non-radiative heat exchange (natural cooling) under the same conditions. Additionally, several aspects are considered in its design to ensure a low cost in application, which is of great economical and environmental significance. (Wu et al., 2017)

引用格式

J.-Y. Wu, et al., “Diurnal cooling for continuous thermal sources under direct subtropical sunlight produced by quasi-Cantor structure”, Chinese Physics B 26(10): 104201, 2017.

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相关成果

Diurnal cooling for continuous thermal sources under direct subtropical sunlight produced by quasi-cantor structure

Jia-Ye Wu, Yuan-Zhi Gong , Pei-Ran Huang, Gen-Jun Ma, and Qiao-Feng Dai^*

Chinese Physics B, Sep 2017

Editors’ Selection DOI Bib HTML

Editors’ Selection in Oct. 2017

@article{Wu2017a,
  title = {Diurnal cooling for continuous thermal sources under direct subtropical sunlight produced by quasi-cantor structure},
  author = {Wu, Jia-Ye and Gong, Yuan-Zhi and Huang, Pei-Ran and Ma, Gen-Jun and Dai, Qiao-Feng},
  year = {2017},
  month = sep,
  journal = {Chinese Physics B},
  volume = {26},
  number = {10},
  pages = {104201},
  issn = {1674-1056},
  doi = {10.1088/1674-1056/26/10/104201},
  lccn = {4},
  dimensions = {true},
}

引用格式

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相关成果

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