Programmable logic controller based design and implementation of multiple axes solar tracking system

2013 International Conference on Electrical Communication, Computer, Power, and Control Engineering (ICECCPCE) Pub Date : 2013-12-01 DOI:10.1109/ICECCPCE.2013.6998742

O. Mahmood

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引用次数: 5

Abstract

The power generation using solar energy has been used widely many years ago due to fuel shortage and its low cost. In this paper, a design and implement of dual axis solar tracking system has been implemented using programmable logic controller (PLC). This proposed system, keeps the solar panels aligned with the sun during the sunrise hours, in order to maximize solar power extracted from the sun. In this work an open loop control systems been designed and carried out using PLC, and direct current motors for solar cell sun tracking. The tracking has done in two manners, that is, the usual daily sun tracking vertically, and the seasonal sun tracking horizontally. The second tracking technique, computes the difference in the day hours per year in four seasons, with the aid of PLC program, which is the solar time of the day hours or the sunrise hours of the day. After the system has completely installed a suitable measurement has been carried out for the fixed and moving solar panel. As compared with usual fixed panels, the power that has been obtained from the solar system is 38% better than the fixed technique.

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基于可编程控制器的多轴太阳能跟踪系统的设计与实现

由于燃料短缺和成本低廉，太阳能发电在许多年前就得到了广泛的应用。本文采用可编程控制器(PLC)实现了太阳能双轴跟踪系统的设计与实现。这个系统在日出时保持太阳能电池板与太阳对齐，以便最大限度地从太阳中提取太阳能。本文设计了一个开环控制系统，采用PLC和直流电机对太阳能电池进行太阳跟踪。跟踪有两种方式，即垂直方向的日常太阳跟踪和水平方向的季节性太阳跟踪。第二种跟踪技术，在PLC程序的辅助下，计算出一年四季的日照时数之差，即一天中的太阳时数或一天中的日出时数。在系统完全安装后，对固定和移动的太阳能电池板进行了适当的测量。与通常的固定面板相比，从太阳能系统获得的能量比固定技术高出38%。

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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来源期刊

2013 International Conference on Electrical Communication, Computer, Power, and Control Engineering (ICECCPCE)

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