RationalDesign and Salt Resistance Study of 3D ConicalSolar Evaporators via Gravity-Enhanced Water Supply

蒸发器 海水淡化 卤水 蒸发 海水 材料科学 太阳能 降水 化学工程 人工海水 盐(化学) 多物理 锥面 环境工程 太阳能蒸馏器 环境科学 水运 工艺工程 太阳能淡化 分离器(采油) 涂层 低温热脱盐 水处理 地热脱盐 废水 太阳能干燥器 供水 盐溶液 纯净水 传热 化学 传质
作者
Z H Wei,Yiye Xu,Peng Han (623382),Guicun Qi (2397808),Dali Gao (11269732),RC Li,Lijing Zhang (463702),Wendong Liu (507488),Yumeng Zhou (6998099),Yuchao Wang (1403281),Shengyang Tao (1425394)
出处
期刊: [Figshare (United Kingdom)]
标识
DOI:10.1021/acs.est.6c02513.s005
摘要

Developing robust strategies to prevent salt precipitation during the treatment of high-salinity and complex brines is essential for achieving stable solar desalination. On the basis of desirable energy management, a gravity-enhanced water transport strategy was rationally designed on a 3D conical evaporator to ingeniously realize a dynamic equilibrium between water supply and evaporation for salt resistance under various complex brine conditions. Through systematic investigation of the critical factors in the salt precipitation behavior through experimental testing and multiphysics simulation, our conical evaporator with optimized composition, dimensions, and morphology could operate stably in not only high-concentration NaCl solution (25 wt % NaCl) but also complex ion composition brine (10 wt % artificial concentrated seawater). Thanks to the water transfer improvement of the photothermal cone via gravity, the evaporation rate could be maintained at 2.06 kg m–2 h–1 during continuous 100 h measurement on 10 wt % artificial concentrated seawater without observable salt precipitation. In outdoor experiments, the evaporator was assembled into an application array, achieving a freshwater output of 7.92 L m–2 d–1 with a total photothermal projection area of 0.037 m2 (using 10 wt % artificially concentrated seawater). Gravity-enhanced water transport has been demonstrated as an effective strategy for salt resistance during solar-driven desalination toward high-salinity water, which can be extensively applicable to various 3D evaporator designs.

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