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Study of a passive radiative cooling coating on chemical storage tanks for evaporative loss control

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  • Chen, Siru
  • Lin, Kaixin
  • Pan, Aiqiang
  • Ho, Tsz Chung
  • Zhu, Yihao
  • Tso, Chi Yan

Abstract

All-day passive radiative cooling is a promising cooling technique achieves cooling without any energy input, thereby attracting tremendous attention. Most of the studies focus on building applications, but there remains a lack of information on other potential applications of radiative cooling systems. Herein, we report an application of a polymeric passive radiative cooling coating (PRCC) on the exterior surface of chemical storage tanks, which is often overlooked but exhibits great potential to efficiently control the evaporative loss of the chemicals. The PRCC exhibits strong solar reflectivity (96.2%) and emissivity (95%) in the mid-infrared wavelength range. According to the results of an outdoor test on a small-scale chemical storage container, the PRCC achieves 81.4%, 54.1%, and 19.8% of chemicals saved compared with a raw container, container painted with commercial white paint (CWP), and the shaded raw container, respectively. A numerical simulation is also conducted to estimate the chemical standing loss from an industrial large-scale chemical storage tank. It is found that the PRCC can achieve a saving of over 50% of the chemical compared with commercial white paint for a chemical storage tank, showing a promising potential to be applied on chemical storage systems.

Suggested Citation

  • Chen, Siru & Lin, Kaixin & Pan, Aiqiang & Ho, Tsz Chung & Zhu, Yihao & Tso, Chi Yan, 2023. "Study of a passive radiative cooling coating on chemical storage tanks for evaporative loss control," Renewable Energy, Elsevier, vol. 211(C), pages 326-335.
  • Handle: RePEc:eee:renene:v:211:y:2023:i:c:p:326-335
    DOI: 10.1016/j.renene.2023.04.141
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    References listed on IDEAS

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    2. Tong Wang & Yi Wu & Lan Shi & Xinhua Hu & Min Chen & Limin Wu, 2021. "A structural polymer for highly efficient all-day passive radiative cooling," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
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    4. Tso, C.Y. & Chan, K.C. & Chao, Christopher Y.H., 2017. "A field investigation of passive radiative cooling under Hong Kong’s climate," Renewable Energy, Elsevier, vol. 106(C), pages 52-61.
    5. Zhao, Bin & Hu, Mingke & Ao, Xianze & Chen, Nuo & Pei, Gang, 2019. "Radiative cooling: A review of fundamentals, materials, applications, and prospects," Applied Energy, Elsevier, vol. 236(C), pages 489-513.
    6. Bikram Bhatia & Arny Leroy & Yichen Shen & Lin Zhao & Melissa Gianello & Duanhui Li & Tian Gu & Juejun Hu & Marin Soljačić & Evelyn N. Wang, 2018. "Passive directional sub-ambient daytime radiative cooling," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
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    Cited by:

    1. Sheng, Mingfeng & Pan, Haodan & Xu, Dikai & Zhao, Dongliang, 2023. "Characterization and performance enhancement of radiative cooling on circular surfaces," Renewable and Sustainable Energy Reviews, Elsevier, vol. 188(C).
    2. 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).

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