Bareev-Rudy, MichaelMichaelBareev-RudyPfennig, MalteMaltePfennigSchiffer, BarbaraBarbaraSchifferSchedler, SteffenSteffenSchedlerSteinebach, GerdGerdSteinebachClees, TanjaTanjaClees2025-10-072025-10-072025https://publica.fraunhofer.de/handle/publica/49701610.1109/ICDCM63994.2025.111446842-s2.0-105016995557The intermittent nature of renewable energy generators, such as wind and photovoltaic energy, necessitates the utilization of energy storage to leverage the full potential of these energy sources in achieving a successful energy transition. Simulations are an indispensable tool for analyzing the behavior of a system under different conditions and optimizing the sizing of its components. In this work, a hybrid battery and hydrogen microgrid with energy management is built in the authors own Multiphysical EnerGy sYstem simulator - MEgy. The working principle of MEgy is demonstrated on the implementation and simulation of said microgrid.enfalsehybrid energy storage systemmicrogridmodelingmultiphysical energy system simulatorsconference paper