Design, Fabrication, and Experimental Analysis of a PV Panel for a Smart Sunflower System

Q3 Environmental Science
Hayder A. Alnaieli, A. Jadallah, A. Numan
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引用次数: 0

Abstract

The Smartflower, an innovative compact energy-generation system inspired by sunflowers, stands out in energy innovation. Unlike traditional photovoltaic (PV) panels, it integrates foldable solar cells within a foundational structure for solar tracking aligned with the sun's path. The present paper focuses on designing, fabricating, and analyzing a proposed Smartflower-PV panel solar system. The study aims to comprehensively evaluate the performance of the proposed PV panel under different atmospheric conditions. The significant impact of insolation and temperature on the panel's efficiency was revealed by comparing empirical results from the PV sunflower panel with analytical calculations using MATLAB (m. file code). Enhanced solar radiation improved the system’s performance and efficiency, resulting in higher power output. Analytical insights showed a direct correlation between a 104% increase in solar radiation and parallel increases of 115% in peak power production and 100% in output current. Conversely, higher temperatures reduced power output, with a 400% temperature rise causing an 11.11% power reduction. Empirical observations align with analytical analyses under equivalent conditions, validating the model’s accuracy. This study serves as a catalyst and guide for completing and advancing the Smartflower system's manufacturing, including control, tracking, and the entire energy-generation framework.
智能向日葵系统光伏电池板的设计、制造和实验分析
Smartflower 是一种创新的紧凑型能源发电系统,其灵感来自向日葵,在能源创新领域独树一帜。与传统的光伏(PV)板不同,它将可折叠太阳能电池集成在一个基础结构中,以便根据太阳的轨迹进行太阳能跟踪。本文的重点是设计、制造和分析所提出的 Smartflower-PV 板太阳能系统。研究旨在全面评估拟议的光伏板在不同大气条件下的性能。通过比较光伏向日葵面板的经验结果和使用 MATLAB(m.文件代码)进行的分析计算,揭示了日照和温度对面板效率的重要影响。增强的太阳辐射提高了系统的性能和效率,从而实现了更高的功率输出。分析结果表明,太阳辐射增加 104% 与峰值发电量增加 115% 和输出电流增加 100% 之间存在直接关联。相反,温度升高会降低功率输出,温度升高 400% 会导致功率降低 11.11%。经验观察结果与同等条件下的分析结果一致,验证了模型的准确性。这项研究为完成和推进智能花系统的制造(包括控制、跟踪和整个能源生产框架)提供了催化剂和指导。
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
CiteScore
1.50
自引率
0.00%
发文量
56
审稿时长
8 weeks
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