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Passive all-day freshwater harvesting through a transparent radiative cooling film

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Listed:
  • Yang, Rui
  • Niu, Dong
  • Pu, Jin Huan
  • Tang, G.H.
  • Wang, Xinyu
  • Du, Mu

Abstract

The freshwater shortage problem is a global problem that has raised great concerns. However, most solutions involve heavy energy consumption. Solar desalination and radiative cooling are two ways to gain freshwater without energy consumption. This study aims to design a transparent radiative cooling film by combining these two methods to achieve efficient all-day freshwater harvesting. The effects of doping particles, film thickness, and water droplets on the radiation transfer are quantified systematically through the combination of the Mie theory, Monte Carlo method, and Monte Carlo ray tracing method. For the first time, an evaluation method is established to assess the performance of solar transmissivity and radiative cooling simultaneously. The solar transmissivity and the ”sky window” emissivity of the polymer films (polymethyl methacrylate, PMMA and polydimethylsiloxane, PDMS) doped with silica (SiO2) microspheres are investigated numerically. The optimal transparent radiative cooling film can reach a solar transmissivity of 92.8% and a ”sky window” emissivity of 95.6%. Also, the effects of condensate droplets on the film at both day and night on the solar transmissivity and the ”sky window” emissivity are calculated. The results reveal that the super-hydrophilic surfaces have the highest solar transmissivity and ”sky window” emissivity among all the surfaces covered with droplets. This study provides guidance for designing high-efficiency transparent radiative cooling covers for all-day passive freshwater harvesting devices.

Suggested Citation

  • Yang, Rui & Niu, Dong & Pu, Jin Huan & Tang, G.H. & Wang, Xinyu & Du, Mu, 2022. "Passive all-day freshwater harvesting through a transparent radiative cooling film," Applied Energy, Elsevier, vol. 325(C).
    • Handle: RePEc:eee:appene:v:325:y:2022:i:c:s0306261922010777
    DOI: 10.1016/j.apenergy.2022.119801
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    References listed on IDEAS

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    Cited by:

    1. Dong, Yan & Zou, Yanan & Li, Xiang & Wang, Fuqiang & Cheng, Ziming & Meng, Weifeng & Chen, Lingling & Xiang, Yang & Wang, Tong & Yan, Yuying, 2023. "Introducing masking layer for daytime radiative cooling coating to realize high optical performance, thin thickness, and excellent durability in long-term outdoor application," Applied Energy, Elsevier, vol. 344(C).
    2. Xin, Yalu & Gao, Wei & Zhang, Chengbin & Chen, Yongping, 2024. "Scalable and sustainable radiative cooling enabled by renewable poplar catkin-derived films," Energy, Elsevier, vol. 290(C).
    3. Dong, Yan & Zhang, Xinping & Chen, Lingling & Meng, Weifeng & Wang, Cunhai & Cheng, Ziming & Liang, Huaxu & Wang, Fuqiang, 2023. "Progress in passive daytime radiative cooling: A review from optical mechanism, performance test, and application," Renewable and Sustainable Energy Reviews, Elsevier, vol. 188(C).
    4. Huang, Jiachen & Zhang, Xuan-kai & Yu, Xiyu & Tang, G.H. & Wang, Xinyu & Du, Mu, 2024. "Scalable self-adaptive radiative cooling film through VO2-based switchable core–shell particles," Renewable Energy, Elsevier, vol. 224(C).
    5. Arunkumar, T. & Parbat, Dibyangana & Lee, Sang Joon, 2024. "Comprehensive review of advanced desalination technologies for solar-powered all-day, all-weather freshwater harvesting systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 199(C).

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