4.7 Article

Evaluating the distribution of soil particle size on glass samples by a new generation of optical microscopy for solar PV applications

Journal

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
Volume 30, Issue 34, Pages 81686-81696

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-022-23436-4

Keywords

Solar energy; Soiling; Rabat-Sale-Kenitra; Souss-Massa; Draa-Tafilalet; Density of deposits; Transmittance; Correlation; Leica Optic Microscope

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This study proposes an image analysis technique that combines a new generation optical microscope and image processing software for studying dirt particles on PV modules in three different regions. The method provides an accurate assessment of particle size distribution and shows that only three images are needed to represent the entire sample area.
In this work, an image analysis technique combining a new generation optical microscope (Leica DM6 M) and Cleanliness Expert image acquisition and processing software is proposed for the study of dirt particles on PV modules in three different regions: Souss-Massa region, Draa-Tafilalet region, and Rabat-Sale-Kenitra region. This method offers the possibility of providing an appropriate assessment of the particle size distribution. The analyzed glass samples were installed in these three different regions, on wooden holders tiled 15 degrees, 30 degrees, and 45 degrees and for a period ranging from 64 to 75 days. The studies carried out to evaluate the soiling phenomenon based on image processing are very limited and do not take into account the total scanning of the analyzed surface. They are generally limited to a single (one) or a few images taken at different locations of the sample and are then extrapolated over the entire surface. This observation raises the question of the representativeness of the results obtained with respect to the result on the entire surface of the sample. In this context, we thought of carrying out this experimental study, which aims to answer this question and evaluate the particle size of the dirt samples on the PV modules. The results obtained in this study have shown that three images will be enough to represent the whole area of the sample. In addition, the dominant particle diameters by number are in the range of 1-5 mu m.

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