Reflections on the implementation of tidal energy in Ecuador
Keywords:
Environmental impacts, Manabi, Potentials, Renewable energy, Tidal energyAbstract
Renewable energy is a topic frequently discussed due to the need to change the forms of generation, from the centralized to the distributed form and take advantage of the potentials that are scattered in the territory and use local resources and thereby diversify the schemes of distributed generation that allows the man in his daily work to pass from consumption of energy to generator, in this way the environmental impacts are reduced that today accelerate the change of temperature in the planet, noticing in recent years the oil and its derivatives are responsible for this phenomenon. The objective of the research is to reflect on tidal energy, knowing that the province of Manabí, is the one that has the largest coastal area and where there is a potential that can be studied for future use.
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Alexander, S. B. A., & Esteban, F. C. C. Energía mareomotríz en el ecuador.
Antolin, J. M. M. (2008). La central mareomotriz del rance. Dyna-Ingeniería e Industria, 83(9).
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 (IJPSE), 1(2), 11-20.
Arauz, W. M. S., Gámez, M. R., Pérez, A. V., Castillo, G. A. L., & Alava, L. A. C. (2017). The Future of Micro-Grids in Ecuador. International Journal of Physical Sciences and Engineering (IJPSE), 1(3), 1-8.
Arauz, W. M. S., Gámez, M. R., Pérez, A. V., Castillo, G. A. L., & Alava, L. A. C. (2017). The Future of Micro-Grids in Ecuador. International Journal of Physical Sciences and Engineering (IJPSE), 1(3), 1-8.
Carreño, M. S. I. R. J., Hernández, D., Vasconcellos, D. E. B., & Loynaz, A. Análisis económico en los estudios de factibilidad del uso de las fare aplicando algoritmo genético.
Castillo, G. A. L., Álava, L. A. C., Fernández, M. C., & Llanes, M. V. (2017). Roadmap for the Introduction of Smart Grids in Ecuador. International Journal of Physical Sciences and Engineering (IJPSE), 1(2), 1-10.
Charlier, R. H., & Justus, J. R. (1993). Ocean energies: environmental, economic and technological aspects of alternative power sources (Vol. 56). Elsevier.
D. E. C. Castañeda, C. S. F. Herrera, and C. R. M. Pineda. (2015). La energía mareomotriz como energía renovable.
Devine-Wright, P. (2011). Place attachment and public acceptance of renewable energy: A tidal energy case study. Journal of Environmental Psychology, 31(4), 336-343.
Guerrero, E. G., Rodríguez, J. J. P., & Roldán, F. J. (2013). Uso de robots cooperativos para el desarrollo de habilidades de trabajo cooperativo en niños. Revista de Investigaciones UNAD, 12(2), 43-56.
H. E. Moreno García. Estudio de pre-factibilidad para generación de energía mareomotriz en la Costa Pacifico Colombiana; Ecuatoriana. Available: http://repository.lasalle.edu.co, 2016.
Kalaydjian, R. (2008). Données économiques maritimes françaises 2007, French Marine-Related Economic Data 2007.
López-González, J., Bert, H. L., & Silva-Casarín, R. (2010). Cuantificación de energía de una planta mareomotriz. Ingeniería, investigación y tecnología, 11(2), 233-245.
Ogunsiji, A. S., & Ladanu, W. K. (2017). A Theoretical Study of Performance Measures in the Strategic and Corporate Entrepreneurships of Firms. International Journal of Physical Sciences and Engineering (IJPSE), 1(1), 72-80.
Omer, A. M. (2017). Sustainable Development and Environmentally Friendly Energy Systems. International Journal of Physical Sciences and Engineering (IJPSE), 1(1), 1-39.
Pingree, R. D., & New, A. L. (1989). Downward propagation of internal tidal energy into the Bay of Biscay. Deep Sea Research Part A. Oceanographic Research Papers, 36(5), 735-758.
Quintero González, J. R., & Quintero González, L. E. (2015). Energía mareomotriz: potencial energético y medio ambiente. Gestión y Ambiente, 18(2).
Rourke, F. O., Boyle, F., & Reynolds, A. (2010). Tidal energy update 2009. Applied Energy, 87(2), 398-409.
Suleiman, O. M. E. (2017). Deflection of Laminated Composite Plates Using Dynamic Relaxation Method. International Journal of Physical Sciences and Engineering (IJPSE), 1(1), 40-53.
Valencia Pérez, M. J. (2014). Desarrollo de un plan comercial para investigación de mercado online en base a un panel estable.
Wartawan, P. G. (2017). The Effectiveness of the Use of Portfolio Assessment by Controlling Prior Knowledge to Enhance Scientific Attitude among Senior High School Students. International Journal of Physical Sciences and Engineering (IJPSE), 1(3), 9-18.
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