基于arduino的原型太阳能跟踪器

Karnova Yanel, Rozi Saferi, Prodi Teknik, Mesin Sarjana, Institut Teknologi Padang, Jl. Gajah, Mada Jl. Kandis, Kp Raya, Kec Olo, Nanggalo
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引用次数: 0

摘要

太阳辐射是太阳发出的光,也被称为电磁辐射。从阳光中产生的巨大能量使太阳能电池成为未来非常有前途的替代能源。考虑到太阳能电池不需要传输,因为它们可以以模块化的方式安装在任何需要的地方,因此太阳能电池作为一种实用的能源也具有优势。在制造太阳能电池的过程中已经开发了各种技术,以降低生产成本,使其更加经济。本研究的目的已经实现,即设计一个基于arduino的太阳能跟踪系统,通过使用太阳能跟踪器可以比不使用太阳能跟踪器更优化地吸收和产生太阳能。黑盒测试的结果证明了这一点。至于在黑箱中测试系统的结果,结果是太阳能电池板可以跟随阳光移动并产生最大的能量。因此,这个工具可以应用于所有地区,并可以帮助政府努力克服能源问题,特别是优化替代能源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PROTOTYPE SOLAR TRACKER BERBASIS ARDUINO
Solar radiation is the light – also known as electromagnetic radiation – that is emitted by the sun. The enormous amount of energy generated from sunlight makes solar cells a very promising alternative energy source for the future. Solar cells also have the advantage of being a practical energy source considering they do not require transmission because they can be installed in a modular manner at any location where they are needed. Various technologies have been developed in the process of making solar cells to reduce production costs to make them more economical. The aim of this research has been achieved, namely to design an Arduino-based solar tracking system, so that by using a solar tracker solar energy can be absorbed and produced more optimally than without using a solar tracker. This is proven based on the results of the Black box test. As for the results of testing the system in a black box, the result is that solar panels can move to follow the sunlight and produce maximum energy. So that this tool can be applied to all regions and can assist the government in efforts to overcome energy problems, especially optimizing alternative energy.
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