期刊
CHEMICAL ENGINEERING JOURNAL
卷 415, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2021.128944
关键词
Asymmetric fiber; Fog harvesting; Synergistic bioinspiration; Microfluidics; 3D printing
资金
- Research Grants Council of Hong Kong [GRF 17204420, 17210319, 17204718, 17237316, CRF C1018-17G]
- City University of Hong Kong [9610502]
- Zhejiang Provincial Government
- Hangzhou Municipal Government
- Lin'an County Government
This study enhances the efficiency of fog deposition and water drainage by designing fibers with synergistic asymmetry. These fibers, inspired by natural structures, achieve high efficiency in collecting fog water.
Access to sustainable, clean, and safe freshwater remains a global challenge. Harvesting atmospheric fog droplets with mesh collectors enables an environmental-friendly supply of good-quality freshwater. However, the functional outcomes of existing fibers used in collectors are not satisfactory, because of the inadequacies of conventional fiber design in engineering the surface microstructures and properties. By selectively combining functionalities and advantages of natural structures, we design fibers with synergistic asymmetry in their shape, surface roughness, and surface chemistry to simultaneously enhance fog deposition and water drainage. We draw inspiration from the rugged shape of Gunnera leaf to enhance fog deposition, the hierarchical surface roughness of Cotula leaf to lubricate the pathway for rapid water drainage, and the heterogeneous wettability of the Namib Desert beetle to promote the directional water transport in bridging fog deposition and water drainage. These fibers achieve a fog-harvesting rate of up to 8.2 x 10-3 g cm-2 s- 1, a 7-time enhancement, and thus represent a step-change in addressing the grand challenge of global water shortage.
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