Outdoor assessment and modeling of dust deposition impact on optimal tilt angle and operating temperature of photovoltaics
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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en
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18
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International Journal of Environmental Science and Technology, Volume 22, issue 15, pp. 16061-16078
Abstract
The role of decentralization in decarbonizing the grid by focusing on the effective deployment of localized, roof-installed photovoltaic systems, is here considered by addressing the impact of dust in large cities. An analysis of 8 months of outdoor experimental data is conducted to study the impact of dust deposition on the optimal tilt angle and overall efficiency of photovoltaic systems. The accuracy of existing theoretical models for optimal tilt angle is tested, and the effect of a specific natural phenomenon, a dust storm, is also explored. The optimal tilt angle increased significantly to compensate for the reduced solar irradiance caused by dust accumulation on the modules, and after the dust storm the clean modules exhibited a higher temperature compared to the dusty modules. The degradation in efficiency due to dust accumulation is primarily attributed to the decreased solar radiation absorption, while temperature changes in the modules do not play any significant role for this parameter. It was also verified that the currently available theoretical models are not satisfactory in accounting for dust deposition. To address this, a preliminary correction model that incorporates the effects of dust into optimal tilt angle predictions is proposed. The obtained results are not only applicable to the specific testing location but can also be generalized to other regions affected by dust storms and to semi-arid climates more broadly, offering practical design guidance for installers and contributing to more reliable system design under real-world conditions.Description
| openaire: EC/H2020/856602/EU//FINEST TWINS
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Khodakaram-Tafti, A, Yaghoubi, M & Ferrantelli, A 2025, 'Outdoor assessment and modeling of dust deposition impact on optimal tilt angle and operating temperature of photovoltaics', International Journal of Environmental Science and Technology, vol. 22, no. 15, pp. 16061-16078. https://doi.org/10.1007/s13762-025-06723-8