@article{10272/24101,
year = {2024},
month = {8},
url = {https://hdl.handle.net/10272/24101},
abstract = {An electrical measurement network designed for analyzing power quality within microgrids
is presented in this paper. It is very portable and easy to install across various types of microgrids.
Data collected by the system meet the standards for measuring electrical parameters, calculating
waveforms spectra and comparing results from different microgrid nodes. The measurements
provided by the network are useful for both utility and consumer sides. The system’s effectiveness is
verified through two experimental setups, specifically built ad hoc: one for testing the accuracy of the
measurements obtained and the other for assessing the suitability of these measurements for power
quality analysis.},
organization = {This paper is part of the project “Development of a system based on Industrial IoT for the analysis of electrical power in power systems”, grant number UHU-202023, funded by the European Commission (EC), the University of Huelva (Q7150008F) and the Andalusia Government (S4111001F). The author Gabriel Gómez-Ruiz is enjoying an FPU grant funded by the Spanish Ministry of Universities for the training of university teaching staff during his PhD period.},
publisher = {MDPI},
title = {Optimum System for Diagnosing Power Quality in Electrical Microgrids},
doi = {10.3390/app14177666},
author = {Gómez Ruiz, Gabriel and Sánchez Herrera, María Reyes and Delgado Martín, Aránzazu and Andújar Márquez, José Manuel and Gómez Ruiz, Gabriel},
}