W. D. A. Ilboudo, I. Ouédraogo, Windé Nongué Daniel Koumbem, P. F. Kieno
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引用次数: 0
摘要
这项工作的重点是模拟沙漠气溶胶对小型中央太阳能光伏(PV)的影响。我们所研究的物理模型可与多层结构相媲美。我们描述并离散了控制物理模型的数学方程。此外,我们还分析了参数τa和X对太阳能光伏组件表面接收太阳辐射的影响。图6(a)-(d)表示全球太阳辐射在至点和分点以及一年中已知的21个月的变化,其研究结果表明:如果τa = 0, X = 0, IC = 67.87%;若τa = 0.5, X = 0.5,则IC = 21%;若τa = 0.8, X = 0.8,则IC = 12%;若τa = 1.5, X = 1.5,则IC = 4%。这些结果表明,沙漠气溶胶对接收到的全球太阳辐射有显著影响。不幸的是,这种影响总体上降低了中央太阳能光伏发电的生产力。
Modeling the Impact of Desert Aerosols on the Solar Radiation of a Mini Solar Central Photovoltaic (PV)
This work focuses on modeling the impact of desert aerosols on a mini central solar photovoltaic (PV). Our studied physical model is comparable to a multilayer. We have described and discretized the mathematical equations which govern the physical model. Also, we analyzed the influence of the parameters τa and X on the solar radiation received at the surface of solar PV modules. The results of the study taken from Figures 6(a)-(d) representing the variations of the global solar radiation on the solstices and equinoxes as well as the 21 of the months of the year days understood show that: if τa = 0 and X = 0, IC = 67.87%; if τa = 0.5 and X = 0.5, IC = 21%; if τa = 0.8 and X = 0.8, IC = 12% and if τa = 1.5 and X = 1.5 then IC = 4%. These results show that desert aerosols significantly influence the global solar radiation received. Unfortunately, this influence lowers the productivity of the central solar PV in general.
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