Localización y tamaño óptimo de generación distribuida mediante la reducción de la cargabilidad en redes de distribución
The optimal distributed generation (DG) location and capacity into a radial distribution system (SD) have the object to minimizing the loading percentage of the distribution lines in 25%, so the operation margin of lines is extended, which improve the conditions of the SD to support the increased de...
| Autor Principal: | Valencia Villarreal, Lissette Alejandra |
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| Formato: | bachelorThesis |
| Idioma: | spa |
| Publicado: |
Universidad Politécnica Salesiana. Carrera Ingeniería Eléctrica. Sede Quito
2018
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| Materias: | |
| Acceso en línea: |
Valencia Villarreal, L. A. (2018). Localización y tamaño óptimo de generación distribuida mediante la reducción de la cargabilidad en redes de distribución. Universidad Politécnica Salesiana. Carrera Ingeniería Eléctrica. Sede Quito |
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| Sumario: |
The optimal distributed generation (DG) location and capacity into a radial distribution system (SD) have the object to minimizing the loading percentage of the distribution lines in 25%, so the operation margin of lines is extended, which improve the conditions of the SD to support the increased demand and overloads. The system has been implemented into the IEEE test model of 33 busbars, additionally, GD units are considered based on non-conventional renewable resources with solar energy, wind energy and biomass energy sources. The optimization process contemplates two stages; the first one establishes the initial conditions, where current level and voltage levels are determined. The second stage take into account the location of GD units considering the restrictions of voltage drop and distribution lines currents. The power flows analysis is executed according to the Newton Raphson methodology, and finally the combinatorial method is implemented for the optimization process due to its simplicity and adaptability. The results analysis is determined according to the location of two, four and six DG units. |
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