太阳能电池在热阻尼系统中的性能增强

Jambura Journal of Electrical and Electronics Engineering Pub Date : 2023-07-11 DOI:10.37905/jjeee.v5i2.18802

Soni Prayogi, Fitria Silviana, Z. Zainuddin

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引用次数: 0

摘要

在这项研究中，我们赞扬了太阳能电池与热阻尼器结合进行的实验研究。房间内的实验设置是设计和组装的，以研究冷却系统对太阳能电池性能的影响。卤素被用来模拟太阳辐射，并对不同的太阳辐射值进行研究。此外，研究还对天然空气进行了研究，并强迫其冷却热力。研究结果表明，使用冷却系统加热可以提高太阳能电池的性能。太阳能电池的温度下降了5.4 %和11%，在天然空气和强空气降解器上使用冷却冷却系统。此外，当供热冷却系统使用时，太阳能电池的效率和功率增加了16%。在这项研究中，我们进行了一项实验，研究太阳能电池在一个相对简单的系统中具有热性的表现。一种室内实验，设置和评估使用热配合系统在太阳电池性能上的影响。卤素脚下是过去to simulate太阳能辐射and research是carried out on the value of太阳能辐射哪种varies从《最高wavelength to the lowest wavelength。在加法,水,自然研究是carried out on和强迫到酷的散热器。最近的研究表明，利用热冷却系统增加太阳电池的性能。太阳能电池的温度是由5.4 %和11%的尊重，通过使用天然水和加强水冷却系统来降低的。当温度冷却系统启动时，我们相信太阳能电池的效率和电力增加了16%。

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Peningkatan Performa Sel Surya Dengan Sistem Peredam Panas

Dalam studi ini, kami menyaajikan investigasi eksperimental terhadap kinerja sel surya yang digabungkan dengan peredam panas. Pengaturan eksperimental dalam ruangan dirancang dan dirakit untuk menyelidiki dampak penggunaan sistem pendingin peredam panas pada kinerja sel surya. Lampu halogen digunakan untuk mensimulasikan radiasi matahari dan penelitian dilakukan pada nilai radiasi matahari yang berbeda. Selain itu, penelitian dilakukan pada udara alami dan paksa untuk mendinginkan peredam panas. Hasil penelitian menunjukkan bahwa penggunaan sistem pendingin peredam panas meningkatkan kinerja sel surya. Suhu sel surya menurun sekitar 5,4 % dan 11 % masing-masing dengan menggunakan sistem pendingin peredam panas pada udara alami dan udara paksa di atas peredam panas. Selain itu, efisiensi dan daya sistem sel surya meningkat sekitar 16% saat sistem pendingin peredam panas digunakan.In this study, we conducted an experimental investigation of the performance of a solar cell coupled with a heat sink in a relatively simple system. An indoor experimental setup was designed and assembled to investigate the impact of using a heat sink cooling system on the performance of solar cell performance. Halogen lamps are used to simulate solar radiation and research is carried out on the value of solar radiation which varies from the highest wavelength to the lowest wavelength. In addition, research was carried out on natural and forced air to cool the heat sink. The results showed that the use of a heat dissipation cooling system increases the performance of solar cells. The temperature of the solar cell was decreased by about 5.4 % and 11 % respectively by using natural air and forced air to overheat sink cooling systems. We believe the efficiency and power of the solar cell system increase by about 16% when a heat dissipation cooling system is used.

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Jambura Journal of Electrical and Electronics Engineering

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