Copper-Based Ultrathin Nickel Nanocone Films with High-Efficiency Dropwise Condensation Heat Transfer Performance

Zhao Ye; Luo Yuting; Zhu Jie; Li Juan; Gao Xuefeng

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Copper-Based Ultrathin Nickel Nanocone Films with High-Efficiency Dropwise Condensation Heat Transfer Performance

机译：具有高效液滴凝结传热性能的铜基超薄镍纳米锥膜

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We report a type of copper-based ultrathin nickel nanocone films with high-efficiency dropwise condensation heat transfer (DCHT) performance, which can be fabricated by facile electrodeposition and low-surface-energy chemistry modification. Compared with flat copper samples, our nanosamples show condensate microdrop self-propelling (CMDSP) function and over 89% enhancement in the DCHT coefficient. Such remarkable enhancement may be ascribed to the cooperation of surface nanostructure-induced CMDSP function as well as in situ integration and ultrathin nature of nanofilms. These findings are very significant to design and develop advanced DCHT materials and devices, which help improve the efficiency of thermal management and energy utilization.

机译：我们报告了一种铜基超薄镍纳米锥膜，该膜具有高效的逐滴冷凝传热（DCHT）性能，可以通过简便的电沉积和低表面能化学修饰来制备。与扁平铜样品相比，我们的纳米样品显示出冷凝物微滴自推进（CMDSP）功能，并且DCHT系数提高了89％以上。这种显着增强可能归因于表面纳米结构诱导的CMDSP功能的协同作用，以及纳米膜的原位整合和超薄特性。这些发现对于设计和开发先进的DCHT材料和设备非常重要，有助于提高热管理和能源利用的效率。

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来源
《ACS applied materials & interfaces》 |2015年第22期|共5页
作者
Zhao Ye; Luo Yuting; Zhu Jie; Li Juan; Gao Xuefeng;
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正文语种 eng
中图分类化学工业;
关键词
dropwise condensation; nanostructure; ultrathin film; microdrop self-propelling; enhanced heat transfer;

机译：逐滴凝结;纳米结构;超薄膜;微滴自推进;传热;

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专利

1. Copper-Based Ultrathin Nickel Nanocone Films with High-Efficiency Dropwise Condensation Heat Transfer Performance [J] . Zhao Ye, Luo Yuting, Zhu Jie, ACS applied materials & interfaces . 2015,第22期

机译：具有高效液滴凝结传热性能的铜基超薄镍纳米锥膜
2. Fabrication of copper-based ZnO nanopencil arrays with high-efficiency dropwise condensation heat transfer performance [J] . Mengnan Qu, Jia Liu, Jinmei He RSC Advances . 2016,第64期

机译：具有高效滴加传热性能的铜基ZnO纳米油阵列的制造
3. Density Maximization of One-Step Electrodeposited Copper Nanocones and Dropwise Condensation Heat-Transfer Performance Evaluation [J] . Wang Rui, Wu Feifei, Xing Dandan, ACS applied materials & interfaces . 2020,第21期

机译：一步电沉积铜纳米酮的密度最大化和滴凝块传热性能评价
4. Heat transfer characteristic on a vertical tube under dropwise condensation (effect of the direction of cooling water on heat transfer) [C] . Tsutomu Hosokawa, Toshio Nakata, Yosuke Kawashima 日本伝熱シンポジウム . 2000

机译：垂直管在滴凝块下的传热特性（冷却水方向对热传递的影响）
5. Parametric studies on dropwise condensation heat transfer [D] . Cheng, Kuok 2014

机译：逐滴冷凝传热的参数研究
6. Investigation of Dropwise Condensation Heat Transferon Laser-Ablated Superhydrophobic/Hydrophilic Hybrid Copper Surfaces [O] . Zitao Song, Mingxiang Lu, Xuemei Chen, 2020

机译：逐滴冷凝传热调查在激光烧蚀的超疏水/亲水性杂交铜表面上
7. Dropwise-filmwise coexisting condensation heat transfer. [O] . Satoshi KUMAGAI, Hitoshi FUKUSHIMA, Hiroyuki KATSUDA, 1989

机译：滴致胶片共存冷凝热传递。

Copper-Based Ultrathin Nickel Nanocone Films with High-Efficiency Dropwise Condensation Heat Transfer Performance

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