Bibliographic citations
Escobar, E., (2019). Diseño de un conversor DC-AC de tres puertos para la conexión de una fuente fotovoltaica y un banco de baterías a la red eléctrica trifásica [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/19921
Escobar, E., Diseño de un conversor DC-AC de tres puertos para la conexión de una fuente fotovoltaica y un banco de baterías a la red eléctrica trifásica [Tesis]. PE: Universidad Nacional de Ingeniería; 2019. http://hdl.handle.net/20.500.14076/19921
@misc{renati/710865,
title = "Diseño de un conversor DC-AC de tres puertos para la conexión de una fuente fotovoltaica y un banco de baterías a la red eléctrica trifásica",
author = "Escobar Agreda, Erwin Andre",
publisher = "Universidad Nacional de Ingeniería",
year = "2019"
}
In countries where technological progress is increasing day by day, Smart grid systems are gaining more relevance. These systems require the connection of renewable energy sources to introduce power to control the stability of the grid or simply reduce the payment of the electric energy bills. Unlike other countries, Peru has a great deficiency to make these systems become true. Particularizing a case, the implementation of a three phase inverters to the Peruvian electricity grid, which is the specific objective of this thesis, has 2 main restrictions: 1) The lack of regulation, which gives rise to the shortage of smart meters that allow the detection of renewable energy sources to reduce the electric energy bills. 2) The massive use of three-phase delta grid topology in Peru, a topology that in first world countries is practically non-existent due to the absence of neutral in this kind of grid. The organization of the chapters of this thesis whose objective is to design a threephase inverter that can be installed in the Peruvian electricity grid is as follows: • The first chapter is focused on the problem and the proposed solution alternative. • The second chapter mention the conceptual framework where the basis of the thesis is supported. • The third chapter consists of the design of the three-phase inverter, whose objective is to control the current administered to the three-phase network. • In the fourth chapter consist of the design of the DC-DC converter, which is integrated with a photovoltaic panel and a battery bank as sources of energy. • The fifth chapter integrates the three-phase inverter and the DC-DC converter so that it can be integrated into the Peruvian electricity grid.
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