海水
环境科学
热电联产
热电发电机
发电
海水淡化
卤水
电
可再生能源
热电效应
环境工程
废物管理
热电冷却
锅炉给水
水能关系
工作(物理)
工艺工程
功率密度
太阳能
余热回收装置
电力
热回收通风
盐水
材料科学
热能
水冷
太阳池
电压
余热
润湿
微咸水
水处理
起重机(装置)
能量回收
功率(物理)
生产率
热交换器
体积热力学
抽水
作者
Lu Wang,Wenhe Zhang,Chengbing Wang,Jingjing Jin,Hang Zhu,Jiakun Liu,Jing Zhang,Songbo Zhao,Hongyao Xie,Li‐Dong Zhao
摘要
ABSTRACT The global crises of water and energy scarcity call for integrated technologies that transcend single‐function operation. Here, we present a solar‐powered integrated thermoelectric generator (SPI‐TEG) that relies solely on sunlight to synergistically co‐produce electricity, freshwater, concentrated brine, and solid salt within a single device. The SPI‐TEG employs a wavelength‐selective absorber at the hot side of a thermoelectric module to maximize solar‐to‐heat conversion, while a superhydrophilic cleanroom wiper placed at the cold side enables continuous seawater transport and efficient evaporative cooling. This configuration establishes a significant temperature difference for power generation and simultaneously reutilizes the dissipated heat for desalination. Under 1.0 sun illumination, the device achieves a notable open‐circuit voltage of 258.8 mV, a power density of 0.504 W m −2 , and an evaporation rate of 1.79 kg m −2 h −1 , with a freshwater collection rate of 0.632 kg m −2 h −1 . Notably, through circulating evaporation, the device enables tunable brine concentration and achieves zero liquid discharge with a salt recovery rate of up to 83%. This work offers a practical zero‐carbon route for synergistic water‐electricity cogeneration and sustainable ocean resource recovery.
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