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Efficient harvesting of renewable evaporative energy from atmospheric air through hierarchical nano/microscale shaping of air-water interface

Author

Listed:
  • Fang, Ranran
  • Luo, Chongfu
  • Pan, Zhonglin
  • Li, Junchang
  • Xu, Fulei
  • Zheng, Jiangen
  • Mao, Xuefeng
  • Wang, Xiaofa
  • Li, Rui
  • Wei, Yongbin
  • Chen, Yijing
  • Vorobyev, Anatoliy Y.

Abstract

Renewable evaporative energy from atmospheric air is a recently emerged research field that demonstrates the great potential for significant energy savings in the air conditioning of buildings, data/big-data/integrated-big-data centers, agricultural storage facilities, and greenhouses. Here, we develop a method for an essential increase in the harvesting efficiency of renewable air evaporative energy by enhancing the water evaporation rate through the shaping of the air-water interface (AWI) by the menisci formed in superhydrophilic hierarchical surface nano/microstructures. Using this method, we achieve a 10-fold rise in the evaporation rate for the microscale AWI shaping. For the first time, we discover the superevaporation effect that provides an unprecedented 130-fold rise in the evaporation rate at the hierarchical nano/microscale AWI shaping. Furthermore, based on these findings, for the first time, we elaborate a novel material with an engineered AWI for a significant increase in the harvesting of renewable air evaporative energy in the dew point (Maisotsenko cycle) indirect evaporative air conditioning systems whose operation is fundamentally based on utilizing renewable air evaporative energy. The dew point cooling device fabricated using this novel material shows significantly superior cooling performance, validating the substantially enhanced harvesting of the air's evaporative energy. Our findings can essentially advance the emerging field of renewable air evaporative energy and, besides the air conditioning technology, can provide significant efficiency enhancements in water purification/desalination, thermal management, gas turbine power generation, and waste heat recovery technologies.

Suggested Citation

  • Fang, Ranran & Luo, Chongfu & Pan, Zhonglin & Li, Junchang & Xu, Fulei & Zheng, Jiangen & Mao, Xuefeng & Wang, Xiaofa & Li, Rui & Wei, Yongbin & Chen, Yijing & Vorobyev, Anatoliy Y., 2024. "Efficient harvesting of renewable evaporative energy from atmospheric air through hierarchical nano/microscale shaping of air-water interface," Applied Energy, Elsevier, vol. 358(C).
    • Handle: RePEc:eee:appene:v:358:y:2024:i:c:s0306261924000382
    DOI: 10.1016/j.apenergy.2024.122655
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    References listed on IDEAS

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