In recent decades, the concept of microgrids has become a key component in the modernization of electrical systems, particularly in developed countries. Microgrids enable the integration of distributed energy resources, such as renewable energy sources (solar panels, wind turbines), and energy storage systems, into existing distribution networks. This approach provides greater efficiency, flexibility, and resilience to energy disruptions, while also reducing harmful emissions. However, while microgrids offer numerous advantages, they also pose a range of challenges and issues related to the technical, regulatory, and economic aspects of their implementation. Technical challenges include optimizing the real-time operation of the microgrid, managing energy consumption and production, and ensuring network stability in the face of variability in renewable energy sources. The regulatory framework and energy market models must also evolve to support the integration of microgrids and ensure a fair market environment. This paper explores the key challenges associated with the development of microgrids, as well as the open questions that still await answers to enable their widespread deployment and optimal functioning.
Žilović et al. (Wed,) studied this question.