Desarrollo de una aplicación para el cálculo de instalaciones fotovoltaicas hasta 100 kW para la provincia de Loja
This project consists of the implementation of a technological application to size and select elements required in the design of photovoltaic systems up to 100Kw for the province of Loja, the applied methodology consists of: determining the energy demand to supply, determining the solar radiation av...
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| Glavni autor: | |
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| Format: | bachelorThesis |
| Jezik: | spa |
| Izdano: |
2022
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| Teme: | |
| Online pristup: | https://dspace.unl.edu.ec/jspui/handle/123456789/25451 |
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Dodaj oznaku | Sažetak: | This project consists of the implementation of a technological application to size and select elements required in the design of photovoltaic systems up to 100Kw for the province of Loja, the applied methodology consists of: determining the energy demand to supply, determining the solar radiation available in the location, size the voltaic system and then select the appropriate equipment and components. The development of this tool began with the collection of information regarding the solar potential available in each of the parishes and cantons of the province of Loja. Solar databases such as: NASA-SSE satellite data 1983-2005, Meteonorm, among others, they were the main sources of information used to create the information matrices required for the application, data tables were also prepared with each of the equipment and components used in photovoltaic systems, such as: solar panels, batteries, controllers of load and inverters, this information was collected from different brands and suppliers. To develop the programming source code, a general mathematical model was established, this model was made up of the equations used in the conventional method of calculation. The yEd Graph Editor® and j2gml® software were used to create the solution algorithm graph using the dichromatic graph technique. The application was generated in the MatLab® GUI (Guide User Interface), it is characterized: as versatile, precise and reliable, its validation was carried out by developing and contrasting the results of case studies carried out with other software for the design of photovoltaic systems. In the tool, an abbreviated diagram of the connection of the panels can be generated, a print sheet detailing some calculated values, the type and quantity of components and equipment required for the implementation of the photovoltaic systems dimensioned in each case of study. Keywords: photovoltaic systems, autonomous systems, solar radiation, photovoltaic design, solar energy, algorithm. |
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