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Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments?

Publication ,  Journal Article
Ratnaparkhi, A; Dave, D; Meena, R; Rastogi, N; Bergin, M; Ghoroi, C
Published in: Solar Energy
November 15, 2023

Hydrophobic-coated glass (CS) on PV surfaces is known to reduce particulate matter (PM) accumulation. However, there is no comparative study on the % reduction in soiling loss (% RSL) on CS with respect to uncoated glass (UCS) for clean and polluted environments (higher atmospheric PM). The present field study (∼210 km2 in Gujarat, Western India) focuses on the evaluation of particle-size distribution of PM on CS and UCS, quantification of size-resolved soiling due to PM accumulation on CS and UCS, and comparison of % RSL of CS in cleaner and polluted environments. The findings show that 3 to 10 µm particles contribute to ∼21 % and ∼12 % of the total mass accumulated on CS and UCS, respectively. The observations are also validated using the theoretical adhesion model and critical rebounding velocity. Moreover, this particle-size fraction contributes to ∼50 % of the total soiling loss for CS against only ∼27 % soiling loss for UCS. Therefore, CS surfaces under polluted environments are expected to have a higher % of finer particle-size fraction in accumulated PM, which contributes significantly to the total soiling loss of CS and reduces the difference in % soiling loss between CS and UCS. Although CS reduces PM accumulation in both clean and polluted regions, the % RSL using CS is comparatively less in a polluted environment. The observations from the present study provide greater insight into the soiling aspect of solar PVs and have significant economic implications in deploying PV surfaces with hydrophobic coated glass.

Duke Scholars

Published In

Solar Energy

DOI

ISSN

0038-092X

Publication Date

November 15, 2023

Volume

265

Related Subject Headings

  • Energy
  • 40 Engineering
  • 33 Built environment and design
  • 12 Built Environment and Design
  • 09 Engineering
 

Citation

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Ratnaparkhi, A., Dave, D., Meena, R., Rastogi, N., Bergin, M., & Ghoroi, C. (2023). Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments? Solar Energy, 265. https://doi.org/10.1016/j.solener.2023.112120
Ratnaparkhi, A., D. Dave, R. Meena, N. Rastogi, M. Bergin, and C. Ghoroi. “Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments?Solar Energy 265 (November 15, 2023). https://doi.org/10.1016/j.solener.2023.112120.
Ratnaparkhi A, Dave D, Meena R, Rastogi N, Bergin M, Ghoroi C. Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments? Solar Energy. 2023 Nov 15;265.
Ratnaparkhi, A., et al. “Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments?Solar Energy, vol. 265, Nov. 2023. Scopus, doi:10.1016/j.solener.2023.112120.
Ratnaparkhi A, Dave D, Meena R, Rastogi N, Bergin M, Ghoroi C. Is hydrophobic coating on glass equally efficient in reducing % soiling loss of solar PVs in clean and polluted environments? Solar Energy. 2023 Nov 15;265.
Journal cover image

Published In

Solar Energy

DOI

ISSN

0038-092X

Publication Date

November 15, 2023

Volume

265

Related Subject Headings

  • Energy
  • 40 Engineering
  • 33 Built environment and design
  • 12 Built Environment and Design
  • 09 Engineering