Diseño e implementación de un cerco eléctrico, para protección de ganado, utilizando energía fotovoltaica.

Diseño e implementación de un cerco eléctrico, para protección de ganado, utilizando energía fotovoltaica.

The purpose of this research project is the design and implementation of an electric fence for the protection of livestock, using photovoltaic energy in the “La luz” farm, located in the province of Cotopaxi, Pujilí canton, specifically in the Pilaló parish, due to the availability of solar energy,...

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Detalles Bibliográficos
Autor principal: Castellano Arbito, Karen Brigite (author)
Otros Autores: Vargas Vizcaíno, Christian Jesús (author)
Formato: bachelorThesis
Lenguaje:spa
Publicado: 2021
Materias:
PANEL SOLAR
ACUMULADOR
INCIDENCIA
FACTOR CLIMÁTICO
ELECTROMECÁNICA
Acceso en línea:http://repositorio.utc.edu.ec/handle/27000/8087
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Descripción
Sumario:The purpose of this research project is the design and implementation of an electric fence for the protection of livestock, using photovoltaic energy in the “La luz” farm, located in the province of Cotopaxi, Pujilí canton, specifically in the Pilaló parish, due to the availability of solar energy, taking advantage of climatic and meteorological factors, which were compared with the data obtained in the aforementioned farm, for the analysis of the solarimetric information; It is necessary to know the final application that the solar resource will have. The data will allow us to give real values, to determine the number of solar panels that will be used in the implementation of the electric fence. The data obtained show a daily energy consumption of 40 Wh / day, resulting in the final monthly result Cme = 1200 Wh / month, which leads to the selection of a PROSTAR PMS120W monocrystalline solar panel, since the data obtained are compared where states that the province of Cotopaxi is in region IV with an average of 4,400 to 4,800 Wh / m2 / day. The farm being located on the second climatic floor of Ecuador, which refers to having a temperate climate. The Angle of 30 ° is chosen, however, the structure that includes the panel can correct its angle according to the solar incidence. Through the calculation, the charging capacity for the required accumulator was determined, which is 7 Ah, also based on the two peak hours of solar incidence per day, two STV BATTERIES are considered.

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