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Architectural and real-time monitoring design of multi-stage solar still for solar water purification

Author

Listed:
  • Zhao, Qi
  • Wei, Yumeng
  • Yang, Yawei
  • Qiang, Mengyuan
  • Fu, Linjing
  • Ma, Yong
  • Liu, Bowen
  • Liu, Yihong
  • He, Xuedong
  • Que, Wenxiu

Abstract

Multi-stage solar still with separated photothermal/evaporation interfaces have high energy utilization and water collection efficiency compared to widely reported single-stage upward solar interfacial evaporation. Despite progress, it still faces a "black box" issue regarding internal conditions like evaporation and salt accumulation due to its enclosed design. Herein, we developed a real-time operating status monitoring system for multi-stage solar stills with separated photothermal/evaporation interfaces. Firstly, we designed an optimal 5-stage solar still architecture with two-way water supply to achieve rapid water collection rate (1.72 L m−2 h−1 under 2.0 kW m−2) and desalination effects. Secondly, the optimal operating status (12 h of solar irradiation + 12 h of dark rinsing) was achieved through verification of different salinities and operating conditions. Finally, the resistance and temperature monitoring strategies applied to determine the operating status of multi-stage solar stills were explored: The water supply status, irradiation intensity, and salinity can be monitored by resistance change at the water supply inlet; and the salt precipitation status in the evaporation dead zone can be monitored by the temperature change at evaporation layer. This study holds significant value for implementing and optimizing multi-stage solar stills in solar desalination, offering insights into intelligent, automated operation and monitoring systems for enhanced sustainability.

Suggested Citation

  • Zhao, Qi & Wei, Yumeng & Yang, Yawei & Qiang, Mengyuan & Fu, Linjing & Ma, Yong & Liu, Bowen & Liu, Yihong & He, Xuedong & Que, Wenxiu, 2025. "Architectural and real-time monitoring design of multi-stage solar still for solar water purification," Renewable Energy, Elsevier, vol. 244(C).
    • Handle: RePEc:eee:renene:v:244:y:2025:i:c:s0960148125003222
    DOI: 10.1016/j.renene.2025.122660
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    References listed on IDEAS

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    1. Chunyang He & Zhifeng Liu & Jianguo Wu & Xinhao Pan & Zihang Fang & Jingwei Li & Brett A. Bryan, 2021. "Future global urban water scarcity and potential solutions," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    2. Eliodoro Chiavazzo & Matteo Morciano & Francesca Viglino & Matteo Fasano & Pietro Asinari, 2018. "Passive solar high-yield seawater desalination by modular and low-cost distillation," Nature Sustainability, Nature, vol. 1(12), pages 763-772, December.
    3. Zhang, Lenan & Xu, Zhenyuan & Bhatia, Bikram & Li, Bangjun & Zhao, Lin & Wang, Evelyn N., 2020. "Modeling and performance analysis of high-efficiency thermally-localized multistage solar stills," Applied Energy, Elsevier, vol. 266(C).
    4. Kaijie Yang & Tingting Pan & Saichao Dang & Qiaoqiang Gan & Yu Han, 2022. "Three-dimensional open architecture enabling salt-rejection solar evaporators with boosted water production efficiency," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
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    1. Shen, Yuyao & Yang, Yawei & Liu, Bowen & Liu, Yihong & Zhao, Qi & Ma, Yong & Zhou, Mo & Wang, Tianyi & Guo, Lin & Que, Wenxiu, 2025. "Evacuated collector tube-based solar energy conversion system: Device structure, practical application, and sustainability assessment," Applied Energy, Elsevier, vol. 402(PA).

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