Skip to main content
Journal cover image

Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter

Publication ,  Journal Article
Valerino, M; Ratnaparkhi, A; Ghoroi, C; Bergin, M
Published in: Solar Energy
October 1, 2021

Photovoltaic soiling - energy loss due to dust and particulate matter (PM) deposition - remains a top concern for global renewable energy generation. To minimize energy losses, the seasonality of soiling needs to be understood. This comprehensive study took place in Gandhinagar India and combined soiling monitoring (using a Campbell Scientific soiling station and a new, low-cost sensor called the Low-cost Alternative to Monitoring Photovoltaic Soiling, or LAMPS station) for all of 2019 with 3-week sampling cycles to analyze size distribution and composition. The LAMPS station has been found to monitor soiling to an accuracy of within 1.5% soiling. Soiling rates were found to be 0.45 ± 0.10% day−1 during dry periods and negligible during the monsoon. The monsoon rains dramatically shifted size distribution with a 90% reduction of deposited > PM10 mass, but more than twice the mass of deposited PM2.5 particles. Rain and humidity also lead to non-uniformity in mass loading over the scale of millimeters, deemed milli-scale non-uniformity (MSNU). Composition was found to be >95% crustal dust and there was no difference in composition seasonally. There was also no compositional difference between sizes of particles larger than PM2.5. Moisture led to a variety of cementation products deriving from reactions with water soluble gases as well as precipitation reactions all taking place within droplets on the surface. The most prevalent cementation effect was caking masses high in carbon and salts. Fungal growth was seen to be growing, and spore producing, after just 3-weeks.

Duke Scholars

Altmetric Attention Stats
Dimensions Citation Stats

Published In

Solar Energy

DOI

ISSN

0038-092X

Publication Date

October 1, 2021

Volume

227

Start / End Page

44 / 55

Related Subject Headings

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

Citation

APA
Chicago
ICMJE
MLA
NLM
Valerino, M., Ratnaparkhi, A., Ghoroi, C., & Bergin, M. (2021). Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter. Solar Energy, 227, 44–55. https://doi.org/10.1016/j.solener.2021.08.080
Valerino, M., A. Ratnaparkhi, C. Ghoroi, and M. Bergin. “Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter.” Solar Energy 227 (October 1, 2021): 44–55. https://doi.org/10.1016/j.solener.2021.08.080.
Valerino M, Ratnaparkhi A, Ghoroi C, Bergin M. Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter. Solar Energy. 2021 Oct 1;227:44–55.
Valerino, M., et al. “Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter.” Solar Energy, vol. 227, Oct. 2021, pp. 44–55. Scopus, doi:10.1016/j.solener.2021.08.080.
Valerino M, Ratnaparkhi A, Ghoroi C, Bergin M. Seasonal photovoltaic soiling: Analysis of size and composition of deposited particulate matter. Solar Energy. 2021 Oct 1;227:44–55.
Journal cover image

Published In

Solar Energy

DOI

ISSN

0038-092X

Publication Date

October 1, 2021

Volume

227

Start / End Page

44 / 55

Related Subject Headings

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