Design of a photovoltaic power plant connected to the grid to cover the daytime energy demand of the Jenmer cia ltda service station
Keywords:
carbon footprint, distributed generation, photovoltaic systems, renewable energy, social impactAbstract
The work presents an analysis linked to one of the sustainable energy alternatives that are currently being adopted with success worldwide. Putting the field research method into practice, the results of a study related to an application of technological innovation are shown to reduce the amount of the electricity bill at the JENMER CIA LTDA Service Station, through the introduction of photovoltaic technology connected to the low voltage network of the institution. The results of the study of load and hourly energy consumption of said entity are shown and its methodology is deployed for the technological design of a photovoltaic plant connected to the grid, which can avoid the energy consumption of the conventional grid, reducing the amount of the electricity bill of the institution, at the same time that it is possible to reduce losses, improve the quality of electricity service and reduce COemissions2 into the atmosphere. The energy, economic, environmental, and social impacts associated with the penetration of photovoltaic technology are exposed.
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Arauz, W. M. S., Cedeño, G. I., Chávez, S. S., Pérez, A. V., & Gámez, M. R. (2017). Microgrid With a 3.4 kWp Photovoltaic System in the Universidad Técnica de Manabí. International Journal of Physical Sciences and Engineering, 1(2), 11-20.
Arauz, W. M. S., Gámez, M. R., Pérez, A. V., & Fernández, M. C. (2016). Microgrids views from a geographic information system. System, 2454, 2261.
Cabeza, C.J.V. (2018). Estudio del potencial disponible en el edificio 3 para aumentar la generación por energía solar. Facultad de Ciencias Matemáticas, Físicas y Químicas. trabajo de titulación previo para obtener el título de Ingeniero Electricista, Repositorio de la biblioteca de la Universidad Técnica de Manabí.
Cedeno, M. L. D., Arteaga, M. G. D., Perez, A. V., & Arteaga, M. L. D. (2017). Regulatory framework for renewable energy sources in Ecuador case study province of Manabi. International Journal of Social Sciences and Humanities (IJSSH), 1(2), 29-42.
Chilan, J. C. H., Perez, A. V., Gamez, M. R., García, A. A. M., & Breffe, O. E. T. (2017). Use of Small Wind Turbines in Isolated Areas Social Impact. International Research Journal of Engineering, IT and Scientific Research, 3(2), 96-103.
Delgado, G.A.E. (2016). La energía fotovoltaica en la preparación de la sociedad para enfrentar un sismo de gran intensidad en la provincia de Manabí. Trabajo de diploma. Carrera de Ingeniería Elécrtrica. Facultad de Ciencias Matemática, Física y Química, Repositorio de la biblioteca de la Universidad Técnica de Manabí.
Dincer, I. (2000). Renewable energy and sustainable development: a crucial review. Renewable and sustainable energy reviews, 4(2), 157-175. https://doi.org/10.1016/S1364-0321(99)00011-8
El-Ghonemy, A. M. K. (2012). Retracted: water desalination systems powered by renewable energy sources, Review. https://doi.org/10.1016/j.rser.2011.11.002
Espinoza, V.A.E., & Macías, M.E.F. (2016). Reducción de la factura eléctrica y el incremento de la eficiancia energética en la Unidad Educativa José Leonidas Delgado del cantón Rocafuerte. Trabajo de diploma. Carrera de Ingeniería Eléctrica. Facultad de Ciencias Matemática, Física y Química, Repositorio de la biblioteca de la Universidad Técnica de Manabí.
Fabjan, C., Garche, J., Harrer, B., Jörissen, L., Kolbeck, C., Philippi, F., ... & Wagner, F. (2001). The vanadium redox-battery: an efficient storage unit for photovoltaic systems. Electrochimica Acta, 47(5), 825-831. https://doi.org/10.1016/S0013-4686(01)00763-0
Gabriela, IC, & Susana, SC (2015). Implementation of photovoltaic technology connected to the grid to supply electricity to the second and third floors of building No. 3 of full-time teachers of the Technical University of Manabí, energy saving and efficiency.
Gámez, M. R., Pérez, A. V., Wilber, M., & Guardarrama, J. R. (2017). El Potencial Solar y la Generación Distribuida en la Provincia de Manabí en el Ecuador. Revista de Investigaciones en Energía, Medio Ambiente y Tecnología: RIEMAT ISSN: 2588-0721, 2(2), 41-45.
Giraudy Arafet, CM, Massipe Cano, I., Rodríguez Rivera, R., Rodríguez Gámez, M., & Vázquez Pérez, A. (2014). Feasibility of installing photovoltaic systems connected to the grid. Energy Engineering , 35 (2), 141-148.
Joerissen, L., Garche, J., Fabjan, C., & Tomazic, G. (2004). Possible use of vanadium redox-flow batteries for energy storage in small grids and stand-alone photovoltaic systems. Journal of power sources, 127(1-2), 98-104. https://doi.org/10.1016/j.jpowsour.2003.09.066
Macías, M.I.O., & Macías, C.S.V. (2016). Papel de la energía fotovoltaica en la reducción de desastres naturales en la provincia de Manabí. Tesis de diploma. Carrera de Ingeniería Eléctrica. Facultad de Ciencias Matemática, Física y Química, Repositorio de la biblioteca de la Universidad Técnica de Manabí.
María, R. G. (2015). SIGDES. Sistema de Información Geográfica para el Desarrollo Sostenible. Facultad de Ciencias Matemáticas, Físicas y Químicas de la Universidad Técnica de Manabí.
Medveczky, O.D., & Ochoa, C.J. (2012). Tesis previa a la obtención de título de ingeniero eléctrico. Universidad de Cuenca.
Murray, S., & Larry, S. (2009). Disponible. 577
Panwar, N. L., Kaushik, S. C., & Kothari, S. (2011). Role of renewable energy sources in environmental protection: A review. Renewable and sustainable energy reviews, 15(3), 1513-1524. https://doi.org/10.1016/j.rser.2010.11.037
Pérez, A. V., Castillo, G. A. L., Alava, L. A. C., & Chilan, J. C. H. (2016). The regulatory framework for renewable energy sources. International Research Journal of Management, IT and Social Sciences, 3(11), 8-21.
Perez, A. V., Gámez, M. R., Viteri, C. G. V., & Quiroz, A. M. V. (2017). Community power as a driving force for sustainable local development. Journal of College and University. This is an open access article under the, 2454, 2261.
Quijije A Wilson S, & Reina V Jefferson D. (2016). Implementación de una microrred fotovoltaica conectada a la red, para suministrar energía eléctrica al primer piso del edificio no. 3 de Docentes a Tiempo Completo de la Universidad Técnica de Manabí, el ahorro y la eficiencia energética. Informe escrito del trabajo de titulación para obtener el Título de Ingeniero Eléctrico. Modalidad de Trabajo Comunitario y Cambio de la Matriz Energética. Repositorio de la Biblioteca de la Universidad Técnica de Manabí.
Rodríguez Gámez, M., Vázquez Pérez, A., Castro Fernández, M., & Vilaragut Llanes, M. (2013). Photovoltaic systems and land use planning. Energy Engineering , 34 (3), 247-259.
Rodríguez, G.M., & Vázquez, P.A. (2018). Libro Guía de la Energía Solar en la provincia de Manabí. Repositorio de la biblioteca central de la Universidad Técnca de Manabí. Carrera de Ingeniería Eléctrica. Facultad de Ciencias Matemáticas Físicas y Químicas.
Rodriguez, María; Vázquez, P Antonio; Saltos, A Wilbert M & Castillo, J. Washington C. (2016). Sustainable Transformation of Energy Matrix. International Research Journal of Engineering, IT & Scientific Research (IRJEIS), 2(9), 28-33.
Sarmiento Sera, A., Rodríguez Gámez, M., Castillo Castillo, O., & Vázquez Pérez, A. (2014). Integrated energy systems with renewable sources, requirements and options. Energy Engineering , 35 (1), 70-78.
Soto, I. E. P. (2005). Celdas fotovoltaicas en generación distribuida. Santiago de Chile, 7.
Van, D.W. (2002). La cooperación transnacional, un instrumento al servicio del desarrollo rural. Cooperación internacional entre territorios rurales. Consultado diciembre 2017.
Zahedi, A. (2006). Solar photovoltaic (PV) energy; latest developments in the building integrated and hybrid PV systems. Renewable Energy, 31(5), 711-718. https://doi.org/10.1016/j.renene.2005.08.007
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