Modelamiento de un sistema fotovoltaico de alta eficiencia y análisis de producción energética bajo diferentes condiciones climáticas estacionarias
This paper presents the results of executed tests that allow to understand the performance of a photovoltaic power plant. This research is focused on high-concentrated photovoltaic plants (HCPV). Firstly, they have analyzed the advantages of employing this renewable technology. Moreover, it has been...
| Autor Principal: | Ayala Villacis, Víctor Fabricio |
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| Formato: | bachelorThesis |
| Idioma: | spa |
| Publicado: |
Universidad Politécnica Salesiana. Carrera de Ingeniería Eléctrica. Sede Quito.
2018
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| Acceso en línea: |
Ayala Villacis, V. F. (2018). Modelamiento de un sistema fotovoltaico de alta eficiencia y análisis de producción energética bajo diferentes condiciones climáticas estacionarias. Universidad Politécnica Salesiana. Carrera de Ingeniería Eléctrica. Sede Quito. |
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This paper presents the results of executed tests that allow to understand the performance of a photovoltaic power plant. This research is focused on high-concentrated photovoltaic plants (HCPV). Firstly, they have analyzed the advantages of employing this renewable technology. Moreover, it has been studied the ways to improve the efficiency and power output of HCPV systems.
The proposed model is intended to have low energy payback time (EPBT). The EPBT allow to measure both positive and negative environmental effects of HCPV. The tested model has natural cooling. The most favorable irradiance conditions are expected. The analysis of stationary weather conditions became so important. This analysis will allow a fair approach of increased potential from proposed solar power system.
The researchers present the results of laboratory test. These tests where applied under different stationary weather conditions. The tests have shown the differences and improvements of an HCPV system versus a conventional PV system.
After all these tests, it is possible to find an acceptable location, after they understand the most favorable conditions for generation based on photovoltaic effect and concentration. The present study analyzes the variations of current and voltage when temperature varies. This is a fundamental parameter to achieve raising on power output from HCPV.
They also made an analysis of the power resources available on different locations. They have estimated production of HCPV both daily and annual basis. This analysis takes account of some random locations chosen within Ecuador. |
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