Please use this identifier to cite or link to this item: http://repositorio.ufc.br/handle/riufc/64558
Type: Artigo de Periódico
Title: Comparative analysis of photovoltaic modules center and edge temperature using IoT embedded system
Title in English: Comparative analysis of photovoltaic modules center and edge temperature using IoT embedded system
Authors: Pereira, Renata Imaculada Soares
Jucá, Sandro César Silveira
Carvalho, Paulo Cesar Marques de
Fernández Ramírez, Luis Miguel
Keywords: Photovoltaic generation;Temperature monitoring;IoT
Issue Date: 2019
Citation: PEREIRA, Renata Imaculada Soares; JUCÁ, Sandro César Silveira; CARVALHO, Paulo Cesar Marques de; Fernández Ramírez, Luis Miguel. Comparative analysis of photovoltaic modules center and edge temperature using IoT embedded system. In: INTERNATIONAL CONFERENCE ON RENEWABLE ENERGIES AND POWER QUALITY(ICREPQ'19), 17th., 10th to 12th April, 2019, Tenerife, Spain, 2019. Renewable Energy and Power Quality Journal (RE&PQJ), n.17, p.198-207, July 2019. REF: 261-19, DOI:10.24084/repqj17.261.
Abstract: The main objective of this project is to develop and implement an Internet of Things (IoT) monitoring system to analyze the temperature at the center and at the edge of grid-connected photovoltaic (PV) modules at Maracanaú – CE, Brazil. The proposed IoT embedded system is based on free software and hardware using ESP 32 development board, allowing online distribution, free usage and communication with a server in the Cloud wirelessly via WiFi. The use of open source and cross-platform (Linux, Windows® and Mac OSX) allows greater interaction and accessibility to the user. A web page called Web Monitor was developed for online data consulting and for real-time monitoring of the PV temperature. Monitoring individual PV modules has the objective of providing data for the analysis of electricity generation efficiency and for fault detection in case of PV cells overheating. Meteorological data such as solar irradiance, ambient temperature, relative humidity and wind speed were also measured and monitored to allow a more complete analysis of the effect of these variables on the module temperature response. According to the results, the PV module edge temperature is 1.5 to 2ºC lower than the center temperature.
URI: http://www.repositorio.ufc.br/handle/riufc/64558
ISSN: 2172-038X
Access Rights: Acesso Aberto
Appears in Collections:DEEL - Artigos publicados em revista científica

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