Design and validation of IoT measurement system for photovoltaic generation

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Ingenius-Revista de Ciencia y Tecnologia Pub Date : 2022-07-01 DOI:10.17163/ings.n28.2022.04

Thiago Angelino dos Santos, Filipe Gomes de Freitas, Diego Lima Carvalho Gonçalves, Luis M. Fernández‐Ramírez

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引用次数: 2

Abstract

The use of photovoltaic (PV) systems for electricity generation is constantly growing in Brazil. With the reduction in the price of PV modules and the implementation of the electric power compensation system by the power distributor, the consumer is investing in PV microgeneration to reduce the electricity bill. This article aims to develop an embedded system in the context of the Internet of Things (IoT). Having an IoT monitoring system applied to a grid-connected PV system in an educational institution helps teach concepts such as IoT and PV generation. The system is based on the ESP32 development board for acquiring DC voltage and current generated by a 1.35 kWp PV system connected to the grid and installed at the IFCE. This proposal offers a low-cost educational solution using open source and programmable hardware, which sends the data to a database in the cloud, enabling remote access worldwide. Then, using the data analysis methodology, it was possible to validate the values measured with the inverter installed with an error below 1% for the voltage and current acquired during one day. With this result, it is concluded that the designed IoT system can be used for measurement in PV systems.

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光伏发电物联网测量系统的设计与验证

在巴西，光伏发电系统的使用正在不断增长。随着光伏组件价格的降低和电力分销商电力补偿制度的实施，消费者正在投资光伏微发电以减少电费。本文旨在开发物联网(IoT)背景下的嵌入式系统。将物联网监控系统应用于教育机构的并网光伏系统，有助于教授物联网和光伏发电等概念。该系统基于ESP32开发板，用于获取由连接到电网并安装在IFCE的1.35 kWp光伏系统产生的直流电压和电流。该方案提供了一种使用开源和可编程硬件的低成本教育解决方案，将数据发送到云中的数据库，从而实现全球远程访问。然后，使用数据分析方法，可以验证安装了逆变器的测量值，在一天内获得的电压和电流的误差低于1%。由此得出结论，所设计的物联网系统可用于光伏系统的测量。

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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