MATHEMATICAL MODELLING OF AEROSOLS IN SOLAR PANELS
DOI:
https://doi.org/10.56345/ijrdv6n203Keywords:
polluting particles, radioactive potential, mathematical modeling, incident lightAbstract
The continuous demands for electricity, the fulfillment of standards in relevance with European directives have fostered Kosovo to think seriously about the use of alternative energies. The study of this study presents the effect of aerosols on the potential of solar panels in the production of electricity from solar energy. Changing the solar radiation that comes to the ground during unclear clean days is a good indicator concerning the efficiency of energy conversion. Assessing the level of concentration in aerosol concentrations from sunlight into the atmosphere is done by looking at the solar energy in the time unit and in the surface unit after the last rain when aerosol smog’s are present at this time. This paper is primarily focused to scrutinize the impact of climate conditions on the general pollution on the surface of solar panels, the efficient use of solar energy with mathematical modeling, the geographic possibilities of installing solar plants without any other impact of CO2 and aerosol smog’s, which can contribute sensitive to the security of power supply and solar thermal energy in an energy system for certain localities. Consequently, in this research we have come up to a conclusion that with the fall of rain the concentration of aerosol present at the surface of the solar panels are diminished at a large extent and the days after rain there is witnessed an increase in concentration of polluting particles which leads to reducing the efficiency of the sun's rays coming to the surface of solar panels.
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