Citas bibligráficas
Rivera, L., (2021). Evaluación del rendimiento del sistema de paneles solares para disminuir la huella de carbono de una empresa de residuos sólidos [Universidad Nacional Agraria La Molina]. https://hdl.handle.net/20.500.12996/5154
Rivera, L., Evaluación del rendimiento del sistema de paneles solares para disminuir la huella de carbono de una empresa de residuos sólidos []. PE: Universidad Nacional Agraria La Molina; 2021. https://hdl.handle.net/20.500.12996/5154
@misc{renati/244953,
title = "Evaluación del rendimiento del sistema de paneles solares para disminuir la huella de carbono de una empresa de residuos sólidos",
author = "Rivera Huaringa, Luis Gabriel",
publisher = "Universidad Nacional Agraria La Molina",
year = "2021"
}
In this study, the performance of a 540 W autonomous solar panel system (SPS) was evaluated to determine, through a comparison of scenarios with two different levels of efficiency, the possibility of further reducing the carbon footprint of a solid waste management company, through the life cycle analysis of the photovoltaic system. This evaluation was carried out for 28 days, where the values of irradiance, ambient temperature and relative humidity were measured, simultaneously with the values of current intensity and voltage generated by the system during each hour, eight times a day, at two angles. different inclination (11 ° and 21 °). From this, it was obtained that the best performance during the study period, according to the environmental factors of the area, occurred with an inclination angle of 11 °. In addition, in the calculation of the CO2-eq mitigation potential, two scenarios with different Performance Ratio (PR) were analyzed, one of them using the calculated real value (0.34) and the other with a PR of 0.80 (normally used in energy production estimates for photovoltaic systems located on the ground). In this way, the SPS metrics could be determined: Energy Payback Time (EPBT) and Energy Return on Investment (EROI). Finally, the Carbon emissions estimated to be saved during the life cycle of the SPS were 2.0 tCO2-eq for a PR of 0.34 and 8.2 tCO2-eq for a PR of 0.8.
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