Prototype System of Solar Tracking Design to Optimize the Energy Absorption Based on Arduino

Proceedings - International Conference on Software Engineering. International Conference on Software Engineering Pub Date : 2020-04-30 DOI:10.14421/ICSE.V3.507
A. Wenda, Rendy Dwi Putra
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Abstract

This research optimizes the absorption of solar energy in solar panels by designing mechanical systems that can move solar panels in the direction of incoming sunlight. Light-sensitive sensors are used to track the sun. The solar tracking system is designed using two axes, namely rotation axis and the tilt axis. Both axes are driven by servo motors based on light-sensitive sensors. The system was developed using an ATmega328 microcontroller unit. The test results found that using solar tracking the amount of energy produced was greater than static solar panels. Radiation generated between solar tracking and static sun can increase by 55.2%.
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基于Arduino优化能量吸收的太阳能跟踪设计原型系统
这项研究通过设计机械系统,使太阳能板朝着入射阳光的方向移动,从而优化了太阳能板对太阳能的吸收。光敏传感器用于跟踪太阳。太阳跟踪系统采用旋转轴和倾斜轴两轴进行设计。两个轴都由基于光敏传感器的伺服电机驱动。该系统是使用ATmega328微控制器开发的。测试结果发现,使用太阳能跟踪产生的能量量大于静态太阳能电池板。太阳跟踪与静态太阳之间产生的辐射可以增加55.2%。
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来源期刊
Proceedings - International Conference on Software Engineering. International Conference on Software Engineering
Proceedings - International Conference on Software Engineering. International Conference on Software Engineering
CiteScore
7.60
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0.00%
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0
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