Sustainable development and renewable energy sources in milagros community

Jean Pierre Mera Bravo; Guillermo Antonio Loor Castillo; Wilber Manuel Saltos; Lenin Agustín Cuenca Alava

doi:10.29332/ijpse.v4n2.443

Authors

Jean Pierre Mera Bravo
jeanmera_@hotmail.com
Universidad Técnica de Manabí, Portoviejo, Ecuador
Guillermo Antonio Loor Castillo Universidad Técnica de Manabí, Portoviejo, Ecuador
Wilber Manuel Saltos Universidad Técnica de Manabí, Portoviejo, Ecuador
Lenin Agustín Cuenca Alava Universidad Técnica de Manabí, Portoviejo, Ecuador

Keywords:

electricity, energy, photovoltaic, solar energy, sustainable

Abstract

The exploitation and use of renewable energies have grown significantly, where the volatility of the prices of specific fuels, the fight against climate change, and the search for new business opportunities are many of the causes that have fueled this growth and development. The objective of this research was to carry out an evaluative study on renewable energies and the sustainable development of the inhabitants of rural areas in the province of Manabí. For this, it was necessary to carry out a study of the demand for electricity consumption in the El Milagro community, Riochico parish; Likewise, it was necessary to analyze and evaluate the different renewable energy alternatives, identifying if there are projects of this type implemented in that rural area, based on identifying the area where the system can be installed. The methodology to be applied was bibliographic and field, with techniques for collecting quantitative and qualitative information, textual theory, with exploratory, descriptive, analytical, and prepositive methods of observation, surveys, semi-structured interviews, bibliographic, and data tabulation. The survey was applied as research instruments.

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References

ARCONEL. (2016). Ecuador posee un 51,78% de energía renovable. Recuperado el 24 de Enero de 2020, de https://www.regulacionelectrica.gob.ec/ecuador-posee-un-5155-de-energia-renovable/.

Beeharry, R. P. (1996). Extended sugarcane biomass utilisation for exportable electricity production in Mauritius. Biomass and bioenergy, 11(6), 441-449. https://doi.org/10.1016/S0961-9534(96)00050-5

Briskman, R. N. (1992). A study of electrodeposited cuprous oxide photovoltaic cells. Solar Energy Materials and Solar Cells, 27(4), 361-368. https://doi.org/10.1016/0927-0248(92)90097-9

Carreño, P., Espinosa, M., Esteves, C., Fragozo, C., & Fragozo, E. (2017). La industria solar fotovoltaica y térmica. Obtenido de

Cedeño, G., & Chávez, S. (2015). Implementación de tecnologias fotovoltáica conectada a la red para suministrar energia electrica al segundo y tercer piso del edicicio N° 3 de Docentes de tiempo completo de la Universicdad Técnica de Manabí, el ahorro y la eficiencia energética. . Portoviejo: Universidad Técnica de Manabí.

Delgado, A., Saltos, W., Rodríguez, M., & Cuenca, L. (2017). Photovoltaic Energy to Face an Earthquake. International Journal of Physical Sciences and Engineering, 1(3), 19~30. Obtenido de https://sciencescholar.us/journal/index.php/ijpse/article/view/61.

FAO. (1999). The Challenge of Rural Energy Poverty in Developing Countries.

Hall, P. J., & Bain, E. J. (2008). Energy-storage technologies and electricity generation. Energy policy, 36(12), 4352-4355. https://doi.org/10.1016/j.enpol.2008.09.037

Herberholz, R., Nadenau, V., Rühle, U., Köble, C., Schock, H. W., & Dimmler, B. (1997). Prospects of wide-gap chalcopyrites for thin film photovoltaic modules. Solar energy materials and solar cells, 49(1-4), 227-237. https://doi.org/10.1016/S0927-0248(97)00199-2

Hernandez, A., Vera, D., & Rodriguez, M. (2018). Susceptibility to Flooding in Abdon Calderon of Canton Portoviejo Parish. International Journal of Life Sciences, 2(3), 111~120. Obtenido de https://www.sciencescholar.us/journal/index.php/ijls/article/view/220.

Lund, H. (2007). Renewable energy strategies for sustainable development. Energy, 32(6), 912-919. https://doi.org/10.1016/j.energy.2006.10.017

Martinez, V., Rodríguez, M., Bazurto, J., Vázquez, A., & Valencia, J. (2019). Implementation of a Geographic Information System for Sustainable Development, at the Universidad Técnica de Manabí. Revista Espacios, 40(39), 26.

Piloso, J. (2017). Diagnóstico y análisis de generación de energías renovables no convencionales en el Sistema Electrico del Ecuado. Manta, República del Ecuador : Universidad Laica eloy alfaro de Manabí. (pág. 97).

Rader, N. A., & Norgaard, R. B. (1996). Efficiency and sustainability in restructured electricity markets: the renewables portfolio standard. The Electricity Journal, 9(6), 37-49. https://doi.org/10.1016/S1040-6190(96)80262-4

Rodríguez, M. (2015). Factibilidad económica de la extención de la red eléctrica (Comunidades rurales de Chone). XXX Seminario de Sector Eléctrico ECUACIER 2015.

Rodríguez, M., Domínguez, J., Quijano, R., & Rodríguez, C. (2015). Los sig y la integración iberoamericana a partir del uso de las fuentes renovables de energía. XV ENCUENTRO DE GEOGRÁFOS DE AMERICA LATINA.

Rodriguez, M., Vásquez, A., Saltos, W., & Josnier, R. (2017). El Potencial Solar y la Generación Distribuida en la Provincia de Manabí en el Ecuador. Rev. Riemat, 2(2), 1-5.

Rodriguez, M., Vázquez, A., Martinez, V., & Bravo, J. (2019). The Geoportal as Strategy for Sustainable Development. Engineering, International Journal of Physical Sciences and, 3(1), 10-21. Obtenido de https://sciencescholar.us/journal/index.php/ijpse/article/view/239.

Rodriguez, M.; Vazquez, A. (2018). La energia fotovoltaica en la provincia de Manabí. Ediciones UTM- Universidad Técnica de Manabí, ISBN: 978-9942-948-20-5.

RTA. (2010). Desarrollo de las energías renovables marinas : condiciones de éxito en las regiones de la RTA del arco Atlántico. Red Nacional Transnacional Atlántica).

Schallenberg, J., & Otros, y. (2008). Energías renovables y eficiencia energética.

Thekaekara, M. P. (1973). Solar energy outside the earth's atmosphere. Solar energy, 14(2), 109-127. https://doi.org/10.1016/0038-092X(73)90028-5

Vazquez, A., Rodríguez, M., Saltos, W., Rodríguez, C., & Cuenca, L. (2018). Rendimiento energético, económico y ambiental de una Central Fotovoltaica de 3,4 KWp en el modo de la generación distribuida (GD). Revista Espacios.

Vázquez, A., Rodríguez, M., Villacreses, C., & Velez, A. (2019). Local Energy Development and Sustainability: The Ecuadorian University. Journal of Advanced Research in Dynamical and Control Systems, 11(05-Special Issue), 451-458.

Velez, M. (2018). Estudio de la eficiencia de los sistemas fotovoltaicos y su impacto socio económico en la zona rural del Cantón Chone. Revista Riemat, 3(1), 23-29.