材料科学
蒸发
海水淡化
太阳能淡化
海水
气凝胶
光热治疗
自然对流
环境科学
对流
纳米技术
生态学
气象学
化学
物理
生物
生物化学
膜
作者
Weixiang Chao,Xiaohan Sun,Yudong Li,Guoliang Cao,Rupeng Wang,Chengyu Wang,Shih‐Hsin Ho
标识
DOI:10.1021/acsami.0c05902
摘要
Seawater desalination via solar energy has potential to alleviate freshwater scarcity. However, problems including insufficient air-water interface, large heat loss, and potential ecological impact have restricted its practical viability. Here, a novel wood-derived indirect-contact (hanging) photothermal evaporation system was designed. An evaporation rate of 1.351 kg·m-2·h-1 with efficiency up to 90.89% under one sun illumination (1 kW·m-2) was achieved, which is the highest record to the best of our knowledge. More importantly, a series of simulations and numerical modeling were carried out to analyze the main factors affecting seawater collection and evaporation, and the synergetic mechanisms of oriented seawater collection, photothermal thermogenesis, and natural convection were elucidated. Taken together, this study provides a new wood-derived hanging seawater desalination system with superior mechanical strength, good repeatability, great ecological security, and excellent thermal stability. The corresponding mechanisms of the whole process are shown, and the seawater evaporation efficiency approaching the real demand is maximized.
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