Título del libro: 2024 Ieee Pes Generation, Transmission And Distribution Latin America Conference And Industrial Exposition, Gtdla 2024
Título del capítulo: Active Power Injection by Solar + Wind + Batteries Microgrids in Electrical Distribution Networks using Software In the loop Methodology
NADIA MARIA SALGADO HERRERA; OSVALDO RODRIGUEZ HERNANDEZ; JUAN RAMON RODRIGUEZ RODRIGUEZ;
Autores externos:
Idioma:
Año de publicación:
2024
Palabras clave:
Battery storage; DC distribution systems; Microgrids; Power distribution networks; Solar energy; Solar power generation; Wind power; Windmill; Battery energy storage systems; Energy conversion systems; Microgrid; Power electronics converters; Realtime simulation (RTS); Software in the loops; Solar energy conversion system; Solar energy conversions; Wind energy conversion; Wind energy conversion system; MATLAB
Resumen:
In this paper, real time validation of active power injection by solar + wind + batteries microgrids in electrical distribution networks using software in the loop (SIL) is presented. The wind fluctuations and irradiance conditions are analyzed from the peninsular region through the Mexican Energy Atlas project. The variability of environmental conditions that impairs a continuous power production affects the voltage at the PCC. Then, this research proposes a control law for the microgrid output power interconnection into the distributed electrical networks, without voltage fluctuations and satisfying the users electrical demand. The proposed methodology functionality is validated through the simulations in MATLAB-Simulink® and tests based on the SIL methodology with the real-time simulator Opal-RT Technologies®. The results are shown an effective methodology, where the microgrid is designed to support an active power generation of up to 75 kW. © 2024 IEEE.
Entidades citadas de la UNAM:
ISBN:
9798331530549
Editorial:
Institute of Electrical and Electronics Engineers Inc.
