Smart Energy Meter Prototype For Single-Phase Power Lines In Peru
Citation
MLA Style: Dalton Narciso-Celestino, Natalia I. Vargas-Cuentas "Smart Energy Meter Prototype For Single-Phase Power Lines In Peru" International Journal of Engineering Trends and Technology 69.4(2021):209-214.
APA Style:Dalton Narciso-Celestino, Natalia I. Vargas-Cuentas. Smart Energy Meter Prototype For Single-Phase Power Lines In Peru International Journal of Engineering Trends and Technology, 69(4),209-214.
Abstract
World energy demand is increasing as a result of population growth and industrial development. Nowadays, in Peru, electricity consumption has significantly increased. Elec- tric companies in Peru depend on their staff to record the consumption of meters; on the other hand, users do not have the easiness of monitoring their consumption day by day or the access to the information of their consumption. Given the problem described, in this project, the development of a smart meter based on Wi-Fi communication technology is presented. The Wi-Fi transmission allows saving the consumption of a user in a database. The present research project implements an intelligent electric consumption meter that can calculate and display the monetary expenditure of a residence. The implemented prototype has an electronic system that records the electrical energy consumption by means of sensing the current and voltage signals through a developed algorithm that is able to calculate the electrical energy consumption in kilowatt per hour. This in order to provide the user with easy access to information in real-time and to help them in managing their consumption better. The proposed solution intends to contribute to the saving of electrical energy, which represents a saving in monthly billing for the user and overall a reduction in Peruvian household`s CO2 emissions.
Reference
[1] J. Tamayo, J. Salvador, A. Vásquez, and C. Vilches., La industria de la electricidad en el perú: 25 años de aportes al crecimiento económico de país., Organismo Supervisor de la Inversion en Energí?a y Minería del Perú, 2(2016) 250–256.
[2] INEI, Principales indicadores macroeconomicos,. [Online]. Available:https://www.inei.gob.pe/estadisticas/índicetematico/economia/.,(2020).
[3] E. Quintanilla, A. V ásquez, R. García, J. Salvador, and D. Orosco,Acceso a la energía en el perú: Algunas opciones políticas, Organismo Supervisor de la Inversion en Energía y Minería del Perú, 1(2012) 33–36.
[4] L. Muñoz, Diseño de un medidor de consumo eléctrico en redes industriales domésticas basado en la adquisicion y digitalizacion de señales para el monitoreo y analisis de la calidad de energia, Pontificia Universidad Católica del Perú, (2014).
[5] M. Stusek, J. Pokorny, P. Masek, J. Hajny, and J. Hosek, A non-invasive electricity measurement within the smart grid landscape: Arduino-based visualization platform for iot, Nov. (2017).
[6] [P. Arqui and B. Vallejo, Implementación de un analizador de redes trifásico a bajo costo, INVESTIGACIÓN TECNOLÓGICA ISTCT, 1(1)(2019) 28–41.
[7] W. Hlaing, S. Thepphaeng, V. Nontaboot, N. Tangsunantham, T. Sang- suwan, and C. Pira, “Implementation of wifi-based single-phase smart meter for the internet of things (iot), in 2017 International Electrical Engineering Congress (iEECON), (2017) 1–4.
[8] S. Pasha., Thingspeak based sensing and monitoring system for iot with matlab analysis, International Journal of New Technology and Research, 2(6)(2016).
[9] W. Hurley., The fundamentals of power factor correction, International Journal of Electrical Engineering Education, 31(3) (1994) 213–229.
Keywords
Microcontroller, Single-phase, Kilowatt, Alternating Current, Wi-Fi.