Diseño de un módulo seguidor fotovoltaico para determinar ángulos incidentes de radiación en la generación de energía eléctrica.

Diseño de un módulo seguidor fotovoltaico para determinar ángulos incidentes de radiación en la generación de energía eléctrica.

Photovoltaic energy worldwide is growing mainly in Asian countries, it also presents 2.6% of the demand for electricity worldwide, another factor that influences the growth of the incorporation of renewable energy sources using as The basis of photovoltaic energy is the development of technology whi...

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Bibliographic Details
Main Author: Canchala Tipanluisa, Jefferson Fabián (author)
Other Authors: Chasi Toapanta, Moisés Isaías (author)
Format: bachelorThesis
Language:spa
Published: 2021
Subjects:
PANEL SOLAR
VOLTAJE
CORRIENTE
EFICIENCIA
ELECTROMECÁNICA
Online Access:http://repositorio.utc.edu.ec/handle/27000/8128
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Summary:Photovoltaic energy worldwide is growing mainly in Asian countries, it also presents 2.6% of the demand for electricity worldwide, another factor that influences the growth of the incorporation of renewable energy sources using as The basis of photovoltaic energy is the development of technology which has managed to reduce the price of the implements necessary for its implementation. Ecuador is a country in which due to its location it is privileged since it has high solar radiation which can be used for the generation of electricity. In this project, the design of a tracker module is detailed for the collection of data in real time of voltage, current and incidence angles to decide the efficiency and power generated, by means of the visualization of the curves of the photovoltaic solar panels. Since there are no studies on their efficiency in the territory, the scarce investment in technology for the environment of the investigation, which makes it difficult to use this class of systems at the ideal geographic coordinates and angles. The didactic module is produced by sizing an entire photovoltaic composition as a photovoltaic generator, a 30W polycrystalline panel, a 12V charge regulator, a 12V battery and for taking irradiance data through ldrs since it is of lower cost than a pyrometer, an ACS712 current sensor and the FZ0430 voltage sensor, by means of the logic of structured calculations, the same one that makes it possible to visualize the convenient positioning of the photovoltaic solar panel where greater efficiency is achieved.

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