Enhancing Hybrid Microgrid Resilience: A Study on Stability with Magnetic Energy Routing

Enhancing Hybrid Microgrid Resilience: A Study on Stability with Magnetic Energy Routing Conference

Ibrahim, AM, Soliman, AS, Mohammed, OA. (2024). Enhancing Hybrid Microgrid Resilience: A Study on Stability with Magnetic Energy Routing . 10.1109/IAS55788.2024.11023656

cited authors

Ibrahim, AM; Soliman, AS; Mohammed, OA

authors

Mohammed, Osama

abstract

Hybrid AC/DC microgrids, integrating renewable energy sources like solar and wind, present challenges in maintaining stability due to their intermittent nature. This paper proposes a Multi-Active Bridge (MAB) converter-based microgrid architecture to address these challenges. The MAB converter strategically segments the microgrid into distinct lines, enhancing control, flexibility, and resilience. An extensive literature review showcases advancements in MAB converter design, control strategies, and stability analysis. Decoupling control using phase shift modulation is explored to regulate voltage and current across ports, ensuring efficient power distribution and system stability. Simulation results demonstrate robust performance under three scenarios, including load variations and reference changes. The proposed approach offers a promising solution for sustainable and reliable microgrid systems, addressing critical challenges in hybrid microgrid management.

publication date

January 1, 2024

Digital Object Identifier (DOI)

https://doi.org/10.1109/ias55788.2024.11023656

FIU Discovery

Enhancing Hybrid Microgrid Resilience: A Study on Stability with Magnetic Energy Routing Conference

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cited authors

authors

abstract

publication date

Identifiers

Digital Object Identifier (DOI)