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用于高效界面太阳能蒸汽产生的大孔 3D 桁架材料的仿生设计

Biomimetic Design of Macroporous 3D Truss Materials for Efficient Interfacial Solar Steam Generation

作者:Hao-Yu Zhao;Jin Huang;Jie Zhou;Li-Feng Chen;Chengming Wang;Yuxia Bai;Jun Zhou;Yu Deng;Wei-Xu Dong;Yan-Song Li;Shu-Hong Yu;

关键词:bionic solar evaporator,interfacial solar steam generation,macroporous structure,thermal insulation,isotropic truss sponge

DOI:https://doi.org/10.1021/acsnano.1c10184

发表时间:2022年

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摘要

利用局部加热技术在水-蒸汽界面进行蒸发的界面太阳能蒸汽发生(ISSG)因其高效的太阳热转换而引起了极大的关注,可实现可持续且环保的饮用水再生过程。在这里,受企鹅羽毛和北极熊毛发结构的启发,它们都具有大孔来捕获空气以实现隔热,我们报告了一种仿生太阳能蒸发器(BSE),其具有用于部分热管理的大孔骨架和用于丰富水输送和快速冷却的大孔骨架。蒸汽提取。同时,3D分层各向同性桁架结构可以诱导多次光反射,实现全向光吸收,双峰孔促进离子扩散,抑制盐沉积。该 BSE 在 1 个太阳下的蒸发率为 2.3 kg m–2 h–1 ,效率为 93%。高效和耐盐的多重优势使得BSE可用于未来实际的污水净化和海水淡化应用。


Abstract

Interfacial solar steam generation (ISSG) utilizing local heating technology for evaporation at the water-to-steam interface is drawing great attention because of its high efficiency of solar-thermal conversion for a sustainable and eco-friendly drinking water regeneration process. Here, inspired by the structure of penguin feathers and polar bear hairs that both have macropores to trap air for thermal insulation, we report a bionic solar evaporator (BSE) with macroporous skeleton for partial thermal management and macro patulous channels for abundant water transportation and rapid steam extraction. Meanwhile, the 3D hierarchical isotropic truss structures can induce multiple light reflections to enable omnidirectional light absorption, and bimodal pores facilitate ion diffusion to suppress salt deposits. This BSE exhibits an evaporation rate of 2.3 kg m–2 h–1 and efficiency of 93% under 1 sun. The multiple advantages of high efficiency and salt resistance make BSE available for future practical sewage purification and desalination applications.


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