This work presents a two-level Energy Management System (EMS) for Renewable Energy Communities (RECs) combining rule-based local control with Particle Swarm Optimization (PSO) coordination. A central Energy Management Hub (CEMH) uses digital twins of each Home EMS to optimize community performance through price-signal adjustments rather than direct control. The method achieves near-optimal self-consumption and incentive gains, largely within 10% of an MILP benchmark, while reducing computational time by about threefold. The approach ensures scalability, resilience, and fairness through a transparent incentive redistribution mechanism, enabling real-time and socially accepted REC coordination.
Distributed EMS Coordination via Price-Signal Control for Renewable Energy Communities / Becchi L.; Bindi M.; Grasso F.; Intravaia M.; Lozito G.M.; Luchetta A.. - In: ENERGIES. - ISSN 1996-1073. - ELETTRONICO. - 18:(2025), pp. 6072.0-6072.0. [10.3390/en18226072]
Distributed EMS Coordination via Price-Signal Control for Renewable Energy Communities
Becchi L.;Bindi M.;Grasso F.;Intravaia M.;Lozito G. M.;Luchetta A.
2025
Abstract
This work presents a two-level Energy Management System (EMS) for Renewable Energy Communities (RECs) combining rule-based local control with Particle Swarm Optimization (PSO) coordination. A central Energy Management Hub (CEMH) uses digital twins of each Home EMS to optimize community performance through price-signal adjustments rather than direct control. The method achieves near-optimal self-consumption and incentive gains, largely within 10% of an MILP benchmark, while reducing computational time by about threefold. The approach ensures scalability, resilience, and fairness through a transparent incentive redistribution mechanism, enabling real-time and socially accepted REC coordination.
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