公共场所太阳能长椅的创新设计:集成 Arduino 的可再生能源

R. Kango, Ezra Hartarto Pongtularan, Mohamad Isram M. Ain
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摘要

本研究旨在设计和实施一种创新的公园长凳,将太阳能电池板技术与 Arduino 平台相结合。本研究的方法包括设计将太阳能电池板与 Arduino 组件集成在一起的长凳。在分析阶段,对各种光照和天气条件下的太阳能产量进行了测量。评估了系统在电池充电和满足能源需求方面的性能。对 Arduino 传感器提供的环境数据进行了分析,以说明环境条件对系统运行的影响。结果表明,太阳能工作台在白天产生的能量较高,而在夜间则有所降低。该系统可为照明和电子设备充电等用途提供能量。夜间的电压和电流数据显示太阳能电池板充电效率较低,而手机充电器条件下只要电池电量高于 15%就能工作。此外,通过 Arduino 传感器进行的环境分析表明,光照强度与能源生产和使用之间存在关联。这些发现可用于根据不断变化的环境条件优化智能工作台系统的运行。总之,这种太阳能工作台设计有可能减少对环境的影响,支持在城市公共场所使用可再生能源,并有可能提高公众对可持续能源的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Innovative Design of Solar Benches for Public Spaces: Renewable Energy with Arduino Integration
This research aims to design and implement an innovative park bench that combines solar panel technology with the Arduino platform. The methodology of this research consists of designing the integration of solar panels with Arduino components that are assembled integrated on the physical bench. In the analysis phase, measurements of solar energy production were conducted under various light and weather conditions. The performance of the system in battery charging and fulfillment of energy needs was evaluated. Environmental data from Arduino sensors were analyzed to illustrate the effect of environmental conditions on system operation. The results showed that the solar bench produced higher energy during daytime and reduced during nighttime conditions. The system can supply energy for purposes such as lighting and charging electronic devices. The voltage and current data at night show inefficiency in charging the solar panel, while the cell phone charger condition works as long as the battery is above 15%. In addition, environmental analysis through Arduino sensors revealed a correlation between light intensity and energy production and usage. These findings can be used to optimize the operation of the smart bench system based on changing environmental conditions. In conclusion, this solar bench design has the potential to reduce environmental impacts and support the use of renewable energy in urban public spaces, with the potential to increase public awareness of sustainable energy
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