研究目的
The main objective of this work is the proposal of a prototype system to optimize the harvesting of solar energy on photovoltaic panels.
研究成果
The LDR is a low-cost method to track the position of the sun but is more affected by noise. The sun-earth equations are the most precise approach when not depending on a GPS device. Both tracking methods showed a 30% gain in power generation compared to a fixed panel.
研究不足
The LDR matrix is very sensitive to noise, presenting a higher deviation. The GPS approach depends on the device's ability to get a fix, which can be delayed or lost.
1:Experimental Design and Method Selection:
The study compares two approaches for solar tracking—using LDR sensors and using a GPS with sun-earth geometry equations. A mobile robot prototype powered by a solar panel was developed to test these approaches.
2:Sample Selection and Data Sources:
The LDR matrix consists of a Styrofoam half-sphere with 20 LDRs attached on its surface. The GPS device provides location, date, and time data.
3:List of Experimental Equipment and Materials:
LDR sensors, GPS device, ARM microcontroller (STM32F407), solar panel, mobile robot.
4:Experimental Procedures and Operational Workflow:
The LDRs' readings were processed to find the sun's position. The GPS data were used to calculate the sun's azimuth and zenith angles. The robot's position and the panel's inclination were adjusted based on these calculations.
5:Data Analysis Methods:
The performance of the solar panel was compared in three scenarios: fixed panel, LDR-based tracking, and GPS-based tracking.
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