用于稳定太阳能辅助海水淡化的自清洁一体化气凝胶

Self-Cleaning Integrative Aerogel for Stable Solar-Assisted Desalination.

作者信息

Gu Yufei, Mu Xiaojiang, Wang Pengfei, Wang Xiaoyang, Tian Yongzhi, Wei Anyun, Zhang Jiahong, Chen Yulian, Sun Zhiqiang, Zhou Jianhua, Miao Lei

机构信息

Guangxi Key Laboratory of Information Material Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials School of Material Science and Engineering Guilin University of Electronic Technology Guilin 541004 China.

Department of Materials Science and Engineering SIT Research Laboratories Innovative Global Program Faculty of Engineering Shibaura Institute of Technology Tokyo 135-8548 Japan.

出版信息

Glob Chall. 2020 Dec 16;5(1):2000063. doi: 10.1002/gch2.202000063. eCollection 2021 Jan.

DOI:10.1002/gch2.202000063

PMID:33437526

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7788587/

Abstract

The solar-assisted desalination generator (SADG) shows great potential for solving water scarcity problems. However, salt precipitation and accumulation is still a challenge for SADG, which slows down solar steam generation performance of evaporator during operation. Here, a facile integrative evaporator featuring stable and high evaporation performance breaks this bottleneck. By using a rational design in which amorphous carbon particles are evenly composited within the porous chitosan aerogel, the evaporator not only integrates excellent light absorption, heat management, and water transportation abilities but also endows a large vapor escape space. Upon desalination, salt concentration ingredients between carbon particles and chitosan membranes can be quickly balanced by water transport in interconnected chitosan chains, and thus salt precipiation on the evaporator surface would be avoided. Compared to other salt-rejection evaporators, the integrative evaporator can operate in 3.5 wt% brine for 60 days without salt precipiation and exhibits a stable evaporation rate (1.70 kg m h), indicating its potential for practical applications in seawater desalination and the harvest of clean drinking water.

摘要

太阳能辅助海水淡化发生器（SADG）在解决水资源短缺问题方面显示出巨大潜力。然而，盐的沉淀和积累仍是SADG面临的一项挑战，这在运行过程中会降低蒸发器的太阳能蒸汽产生性能。在此，一种具有稳定且高蒸发性能的简易一体化蒸发器突破了这一瓶颈。通过采用一种合理的设计，即非晶碳颗粒均匀地复合在多孔壳聚糖气凝胶中，该蒸发器不仅兼具出色的光吸收、热管理和水传输能力，还赋予了一个较大的蒸汽逸出空间。在海水淡化过程中，通过相互连接的壳聚糖链中的水传输，碳颗粒与壳聚糖膜之间的盐浓度成分能够迅速达到平衡，从而避免蒸发器表面出现盐沉淀。与其他除盐蒸发器相比，这种一体化蒸发器能够在3.5 wt%的盐水中运行60天而不出现盐沉淀，并且展现出稳定的蒸发速率（1.70 kg m² h⁻¹），表明其在海水淡化和清洁饮用水获取的实际应用中具有潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9243/7788587/1504ffb1dc81/GCH2-5-2000063-g001.jpg

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用于稳定太阳能辅助海水淡化的自清洁一体化气凝胶

Self-Cleaning Integrative Aerogel for Stable Solar-Assisted Desalination.

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