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Soiling loss in solar systems: A review of its effect on solar energy efficiency and mitigation techniques
•Soiling lowers solar efficiency, raises maintenance expenses, and reduce PV lifespan.•Solar energy has huge potentials, with the sun capable of providing about 5 × 1022 J annually.•Soiling vastly affects areas with high solar, impeding the full exploitation of the energy.•Natural cleaning strategie...
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| Published in: | Cleaner Energy Systems 2024-04, Vol.7, p.100094, Article 100094 |
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| container_start_page | 100094 |
| container_title | Cleaner Energy Systems |
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| creator | Adekanbi, Michael L. Alaba, Ezekiel S. John, Toluwalope J. Tundealao, Tomi D. Banji, Titilope I. |
| description | •Soiling lowers solar efficiency, raises maintenance expenses, and reduce PV lifespan.•Solar energy has huge potentials, with the sun capable of providing about 5 × 1022 J annually.•Soiling vastly affects areas with high solar, impeding the full exploitation of the energy.•Natural cleaning strategies are poor, and most artificial remedy are costly and need improvement.•Reducing soiling losses can enhance solar energy benefits and potentially reduce power outages.
To address the need for enhancing the efficiency and harnessing the full potential of solar energy systems, this research aims to investigate mitigating solar energy losses, thereby contributing to the global transition towards renewable energy. A major impediment to solar panel efficiency is soiling, a phenomenon that causes significant decline in performance. This review sheds light on the pronounced impact of soiling, particularly emphasizing the exacerbated effects in arid and semi-arid regions, where solar irradiance is abundant, and the untapped solar energy potential is immense. This review provides an extensive discussion on soiling by specifically building on the research gaps identified by previous reviews. The effect of soiling on the efficiency and the adoption of solar systems in conjunction with the state-of-the-art cleaning techniques that can help reduce or eliminate dirt deposition on the surface of solar panels were comprehensively discussed. This work establishes that incorporating advanced cleaning measures like electrodynamic screen into solar system design has huge potential to reduce soiling, but have high cost implications, potentially rendering these systems financially prohibitive for some individuals and contributing to the low rate of solar energy adoption. Therefore, there is a need to further research commercially viable and cost-effective solutions.
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| doi_str_mv | 10.1016/j.cles.2023.100094 |
| format | article |
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To address the need for enhancing the efficiency and harnessing the full potential of solar energy systems, this research aims to investigate mitigating solar energy losses, thereby contributing to the global transition towards renewable energy. A major impediment to solar panel efficiency is soiling, a phenomenon that causes significant decline in performance. This review sheds light on the pronounced impact of soiling, particularly emphasizing the exacerbated effects in arid and semi-arid regions, where solar irradiance is abundant, and the untapped solar energy potential is immense. This review provides an extensive discussion on soiling by specifically building on the research gaps identified by previous reviews. The effect of soiling on the efficiency and the adoption of solar systems in conjunction with the state-of-the-art cleaning techniques that can help reduce or eliminate dirt deposition on the surface of solar panels were comprehensively discussed. This work establishes that incorporating advanced cleaning measures like electrodynamic screen into solar system design has huge potential to reduce soiling, but have high cost implications, potentially rendering these systems financially prohibitive for some individuals and contributing to the low rate of solar energy adoption. Therefore, there is a need to further research commercially viable and cost-effective solutions.
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To address the need for enhancing the efficiency and harnessing the full potential of solar energy systems, this research aims to investigate mitigating solar energy losses, thereby contributing to the global transition towards renewable energy. A major impediment to solar panel efficiency is soiling, a phenomenon that causes significant decline in performance. This review sheds light on the pronounced impact of soiling, particularly emphasizing the exacerbated effects in arid and semi-arid regions, where solar irradiance is abundant, and the untapped solar energy potential is immense. This review provides an extensive discussion on soiling by specifically building on the research gaps identified by previous reviews. The effect of soiling on the efficiency and the adoption of solar systems in conjunction with the state-of-the-art cleaning techniques that can help reduce or eliminate dirt deposition on the surface of solar panels were comprehensively discussed. This work establishes that incorporating advanced cleaning measures like electrodynamic screen into solar system design has huge potential to reduce soiling, but have high cost implications, potentially rendering these systems financially prohibitive for some individuals and contributing to the low rate of solar energy adoption. Therefore, there is a need to further research commercially viable and cost-effective solutions.
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To address the need for enhancing the efficiency and harnessing the full potential of solar energy systems, this research aims to investigate mitigating solar energy losses, thereby contributing to the global transition towards renewable energy. A major impediment to solar panel efficiency is soiling, a phenomenon that causes significant decline in performance. This review sheds light on the pronounced impact of soiling, particularly emphasizing the exacerbated effects in arid and semi-arid regions, where solar irradiance is abundant, and the untapped solar energy potential is immense. This review provides an extensive discussion on soiling by specifically building on the research gaps identified by previous reviews. The effect of soiling on the efficiency and the adoption of solar systems in conjunction with the state-of-the-art cleaning techniques that can help reduce or eliminate dirt deposition on the surface of solar panels were comprehensively discussed. This work establishes that incorporating advanced cleaning measures like electrodynamic screen into solar system design has huge potential to reduce soiling, but have high cost implications, potentially rendering these systems financially prohibitive for some individuals and contributing to the low rate of solar energy adoption. Therefore, there is a need to further research commercially viable and cost-effective solutions.
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| subjects | Arid Dust Efficiency Soiling Solar |
| title | Soiling loss in solar systems: A review of its effect on solar energy efficiency and mitigation techniques |
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