Keywords
How to Cite
Abstract
This article presents the design of an energy injection system based on supercapacitors
in order to reduce the voltage gaps caused by the random connection of electric
machines that are used in industrial activities, with the aim of improving the quality of
energy at the common connection point. Therefore, a model of the energy distribution
of the studied case, the energy storage that is composed of supercapacitors, the twoway energy conversion and the current and voltage control systems are made. The
designed system allows the injection of a power of 22,8 kW with a capacity of 1.2 Wh,
compensating the transients produced by the connected loads to the network in order
to keep the voltage levels within the established standards given by IEEE 1159, CONELEC
004/01 y NP EN 50160-2010.
References
Bose A., Tomsovic K. & Vaziri M. (2004). A Directed Graph Formulation of the Multistage Distribution Expansion
Problem. IEEE Transactions on Power Delivery, 19, 1335 – 1341. doi: http://doi.org/10.1109/TPWRD.2004.829146
TECSUP (2017). Programa de Extensión para profesional-Sistemas de Distribución de Energía Eléctrica. Recuperado de:
https://es.scribd.com/document/179746191/sistemas-de-distribucion
Banco Central del Ecuador (2017). Reporte de Minería. Dirección Nacional de Síntesis Macroeconómico. Recuperado
el 11 de noviembre de 2017 de: https://web.archive.org/web/20170926215322/https://contenido.bce.fin.ec/documentos/Estadisticas/Hidrocarburos/ReporteMinero012017.pdf
Información de Historia, Cultura y Turismo de Cuenca-Azuay (2017, mayo 06). Revista Cuenca Ilustre – Ecuador.
Recuperado de: https://web.archive.org/web/20170616014309/https://patomiller.wordpress.com/
Einzmann H. (1991). Tres Chorreras: Minería Artesanal e Informal en el Cantón Pucará. Ecuador: Adoum ediciones.
Criollo H. & Hernández F. (2017). Minería Artesanal del oro de Aluvión Mocoa, Putumayo, Amazonia Colombiana.
Universidad Nacional de Colombia: Sede Amazonia-Leticia. Recuperado de: https://web.archive.org/web/20170926220714/http://www.bdigital.unal.edu.co/53064/6/9587015630.preliminares.pdf
Deshpande G. & Sankeshwari S. (2013). Speed Control of Induction Motors Using Hybrid PI Plus Fuzzy Controller.
International Journal of Advances in Engineering & Technology, 2254 – 2258.
González L. (2011). Mejora de la eficiencia y de las prestaciones dinámicas en procesadores electrónicos de potencia para
pequeños aerogeneradores sincrónicos operando en régimen de velocidad variable (Tesis de doctorado). Universidad
Politécnica de Valencia, España.
Bardemaker F. (2006). Modulação Vetorial aplicada a Retificadores Trifásicos PWM Unidirecionais (Tese de doutorado).
Universidad Federal de Santa Catarina, Brasil
Barbi I., Morais A. & Tofoli F. (2015). Modelling, Digital Control and Implementation of a Three-Phase Four-Wire
Power Converter Used as A Power Redistribution Device. IEEE Transactions on Industrial Informatics, 12, 2 –5.
doi: http://doi.org/10.1109/TII.2016.2544248
Toliyat H., Talebi S., McMUllen P., Huynh C. & Filatov A. (2005). Advanced High-Speed Flywheel Energy Storage
Systems for Pulsed Power Applications. IEEE Electric Ship Technologies Symposium. doi: http://doi.org/10.1109/
ESTS.2005.1524703
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Copyright (c) 2020 Carlos Mauricio Orellana Uguna, luis gerardo gonzalez morales