蒸发
多孔介质
多孔性
材料科学
环境科学
化学工程
纳米技术
复合材料
工程类
气象学
物理
作者
Changzheng Li,Jiaqiang Liao,Jingying Dai,Rui Tao,Hengyi Guo,Xiantao Zhang,Yanjun Chen,Zhi Qun Tian
标识
DOI:10.1021/acssuschemeng.5c01740
摘要
The scarcity of freshwater resources represents a significant challenge to the advancement of humanity and society. While solar-driven interfacial evaporation technology offers distinctive advantages, the acquisition and preparation of photothermal materials have significantly hindered its further development. Herein, we introduce a novel approach employing porous sand disc (PSD) as a photothermal material, showcasing exceptional evaporation performance. The natural sand is transformed into a micron-sized superhydrophilic PSD, which is then used to design a one-dimensional and self-water-supplied T-shaped evaporator (T-PSD), that is similar in function to plant transpiration. The T-PSD demonstrates a remarkable evaporation rate of 1.428 kg/(m2·h) with low surface temperature (36.5 °C) under 1 sun, resulting in an impressive evaporation efficiency of 86.1%. The T-PSD maintains a high evaporation performance even when evaporating salt water, attributed to the PSD crystallizing preferentially at the edge. The edge-preferential crystallization significantly enhances the evaporator’s continuous operational capability. Leveraging abundant and cost-effective natural sand as a photothermal material offers a sustainable development approach for advancing interfacial evaporation technology.
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