Experimental Comparison of the Different Switching Techniques applied to Back-to-Back Converter connected to DFIGbased Wind Turbine for Harmonic Analysis

Roman, Christian Rene Jimenez; Mayoral, Emmanuel Hernández; Madrigal, M.

doi:10.1109/tla.2023.10015136

Cited by 2 publications

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“…This integration poses various operational, planning, communication, and control challenges for the reliable and stable operation of electrical networks. [3,4]. In this new scenario, Microgrids (MGs) are presented as a solution due to their flexibility and proven ability to provide a reliable and resilient power supply [5,6,7].…”

Section: Introductionmentioning

confidence: 99%

Harmonic Propagation in Hybrid Microgrids: A Simulation-based Analysis

Roman¹,

Arredondo

Serrano-Jiménez

et al. 2023

2023 IEEE International Conference on Environment and Electrical Engineering and 2023 IEEE Industrial and Commercial Power Syst

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Hybrid Microgrids (HMGs), which consists of distributed renewable generation, energy storage systems, and power electronics devices, are becoming increasingly popular due to their potential for improving the sustainability of electric energy systems. The inclusion of these devices in a microgrid can lead to harmonic distortion issues, which can negatively impact the Power Quality (PQ) of the system. This paper presents a simulation-based analysis of harmonic propagation in a HMG, using a model created in MATLAB/Simulink that includes the most representative devices found in this type of systems. The study investigates harmonic propagation under different scenarios and identifies significant harmonic distortion issues when a wind turbine (WT) is connected to different nodes of the system. The results of this study provide valuable insights into the challenges of harmonic propagation in HMGs and highlight the need for effective strategies to mitigate the impact of harmonic distortion on system performance. The proposed simulation framework provides a valuable tool for designing and optimizing HMGs to mitigate harmonic propagation and improve PQ. The findings highlight the importance of careful modeling and analysis of harmonic propagation in HMGs to ensure their successful operation and long-term sustainability.

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Section: Introductionmentioning

confidence: 99%

Harmonic Propagation in Hybrid Microgrids: A Simulation-based Analysis

Roman¹,

Arredondo

Serrano-Jiménez

et al. 2023

2023 IEEE International Conference on Environment and Electrical Engineering and 2023 IEEE Industrial and Commercial Power Syst

Self Cite

View full text Add to dashboard Cite

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Análisis de propagación de armónicas en una Microrred Híbrida con inyección de Energía Eólica

Jiménez Román,

Hernández Mayoral,

Rodríguez Rivera

et al. 2023

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Este estudio se centra en el análisis de la propagación armónica en microrredes híbridas a través de simulaciones. Las microrredes híbridas, que comprenden cargas desequilibradas, no lineales y elementos conectados mediante electrónica de potencia, presentan desafíos significativos en cuanto a la propagación de armónicos. Se desarrolla un modelo en MATLAB/Simulink para representar una microrred híbrida y se realizan simulaciones comparativas en diferentes escenarios. Los resultados revelan problemas de distorsión armónica al conectar un aerogenerador a diferentes nodos del sistema y muestran la configuración optima entre la microrred y el aerogenerador para reducir la propagación de armónicas. El modelo de simulación propuesto ofrece una herramienta valiosa para el diseño y optimización de microrredes híbridas, con el objetivo de mitigar la propagación armónica y mejorar la calidad de la energía. Este estudio destaca la importancia de abordar la propagación armónica en microrredes híbridas, identificando las fuentes y rutas de propagación, desarrollando estrategias de mitigación. Los hallazgos contribuyen al conocimiento y comprensión de la propagación armónica en microrredes híbridas, promoviendo el desarrollo de sistemas de energía más confiables y de alta calidad. En resumen, este estudio proporciona un análisis detallado de la propagación armónica en microrredes híbridas y resalta la importancia de abordar este fenómeno para lograr un diseño y funcionamiento óptimos de dichas microrredes.

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Experimental Comparison of the Different Switching Techniques applied to Back-to-Back Converter connected to DFIGbased Wind Turbine for Harmonic Analysis

Cited by 2 publications

References 0 publications

Harmonic Propagation in Hybrid Microgrids: A Simulation-based Analysis

Harmonic Propagation in Hybrid Microgrids: A Simulation-based Analysis

Análisis de propagación de armónicas en una Microrred Híbrida con inyección de Energía Eólica

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