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This study aims to develop a strategy for scheduling energy in a community microgrid that considers electricity costs, loads, and climate uncertainties. These microgrids are a localized, self-sufficient energy network that can generate, store, and supply energy to a local community and can be managed by individual control systems or in alignment with the country's utility grid. The system proposed is interconnected with a utility grid, a solar photovoltaic (PV) plant, a wind generation system, a micro-turbine, an energy storage system (ESS), and a load. A flexible math-ematical problem is formulated and solved using an efficient meta-optimization method called the marine predator algorithm (MPA). The strategy considered uses intelligent management software to meet load demands efficiently while minimizing costs by enhancing the utilization of the resources.
Al-Wajih et al. (Mon,) studied this question.