Study and Realization of A Monoaxial Solar Tracker Over an Equatorial Mount

2019 7th International Renewable and Sustainable Energy Conference (IRSEC) Pub Date : 2019-11-01 DOI:10.1109/IRSEC48032.2019.9078168

Hicham Bouzakri, A. Abbou

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引用次数: 3

Abstract

A solar tracker is a mechanism that helps the photovoltaic panel to increase its power while keeping the latter oriented towards the sun. This paper aims to introduce an adjustment that makes our solar tracker efficient, by using a single tracking axis instead of two, in order to minimize the cost of production and the power dissipated, without reducing the efficiency of our photovoltaic panel. We chose a tracking mechanism used for telescopes, called equatorial mount since it allows us to follow perfectly the objects of the sky (the sun, the stars and the planets) with a single axis (this is the tracking axis). We began with a theoretical comparison, and simulation of the solar irradiation amount absorbed by our proposed system, and a perfect tracking system in order to derive the lost amount. The obtained results reveal that the decrease is negligible esteemed to be about 5%. After completing the realization project, we tested it by measuring the production and consumption of our tracker for a period of 24 hours. The results show that our solar tracker has a power gain of 49% compared to the fixed system, with minimal energy consumption.

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赤道上单轴太阳跟踪器的研究与实现

太阳能跟踪器是一种帮助光伏板增加功率的机制，同时保持后者朝向太阳。本文旨在介绍一种调整，通过使用单个跟踪轴而不是两个跟踪轴，使我们的太阳能跟踪器高效，以最小化生产成本和功耗，同时不降低光伏板的效率。我们选择了一种用于望远镜的跟踪机制，称为赤道支架，因为它允许我们用一个轴(这是跟踪轴)完美地跟踪天空中的物体(太阳，恒星和行星)。我们首先进行了理论比较，并模拟了我们所提出的系统吸收的太阳辐照量，并建立了一个完善的跟踪系统，以得出损耗量。得到的结果表明，这种下降可以忽略不计，估计为5%左右。在完成实现项目后，我们通过测量跟踪器的生产和消耗进行了24小时的测试。结果表明，与固定系统相比，我们的太阳能跟踪器的功率增益为49%，能耗最小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 7th International Renewable and Sustainable Energy Conference (IRSEC)

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