监测太阳跟踪太阳能电池板状态Secara实时Berbasis网站

None Hanifiyah Darna Fidya Amaral, Asfari Hariz Santoso, Priya Surya Harijanto, Krisna Adi Wibisono
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引用次数: 0

摘要

太阳能电池板吸收能量的能力取决于环境条件。因此,产生的功率会波动。基于web的太阳能电池板实时监测设计研究可以方便地监测太阳能电池板的状态,以便在太阳能电池板出现问题时,将监测系统发送给用户,加快行动速度。所使用的组件是NodeMCU ESP32,作为太阳能电池板和互联网之间的连接设备。安装在太阳能电池板上的电流和电压传感器的测量数据通过互联网连接发送到web服务器。网络服务器将接收数据,并通过用户可以访问的网络界面显示实时太阳能电池板电流和电压信息。在07:00 - 17:00 WIB,通过采集静态太阳能电池板和太阳能跟踪器上的电流和电压数据进行11小时的测试。根据测量结果,不带太阳能跟踪器(静态)和带太阳能跟踪器时的总功率分别为16.04 Wh和17.43 Wh。静态太阳能电池板和太阳能跟踪器之间的电流和功率增加百分比分别为7.22%和3.05%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monitoring Sun Tracking Solar Panel Statis Secara Real-Time Berbasis Website
The ability of solar panels to absorb energy depends on environmental conditions. Therefore, the power generated will fluctuate. Web-Based Real-Time Solar Panel Monitoring Design Research can facilitate monitoring the condition of solar panels so as to speed up action when there is a problem with solar panels with the monitoring system sent to users. The component used is NodeMCU ESP32 as a connecting device between solar panels and the internet. The measurement data of the current and voltage sensors installed on the solar panels is sent through an internet connection to the web server. The web server will receive the data and display real-time solar panel current and voltage information through a web interface that can be accessed by users. The test was carried out by taking current and voltage data on static solar panels and solar trackers for 11 hours at 07.00 – 17.00 WIB. Based on the measurement results, a total power of 16.04 Wh without a solar tracker (static) and 17.43 Wh with a solar tracker was obtained. The percentage of increase in current and power between static solar panels and solar trackers is 7.22% and 3.05%.
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