Optimizing Load Frequency Control in Standalone Marine Microgrids Using Meta-Heuristic Techniques

Abstract: Integrating renewable resources into the electrical systems of marine vessels achieves the dual goal of diversifying energy resources and reducing greenhouse gas emissions. The presence of intermittent renewable sources and sudden nonlinear load changes can cause frequency deviations in isolated hybrid marine microgrids. To address this issue, the paper proposes a conventional PID (proportional–integral–derivative)-controller-based LFC (load frequency controller) which is optimized by meta-heuristic optimizati… Show more

“…Despite being a mature technology, it remains one of the preferred cost-effective solutions for many optimization problems. Additionally, there is a substantial body of recent literature that demonstrates its relevance and effectiveness in the context of microgrid applications [32][33][34][35][36].…”

Hierarchical Control and Economic Optimization of Microgrids Considering the Randomness of Power Generation and Load Demand

“…Despite being a mature technology, it remains one of the preferred cost-effective solutions for many optimization problems. Additionally, there is a substantial body of recent literature that demonstrates its relevance and effectiveness in the context of microgrid applications [32][33][34][35][36].…”

Hierarchical Control and Economic Optimization of Microgrids Considering the Randomness of Power Generation and Load Demand

Hybrid optimized evolutionary control strategy for microgrid power system

Robust frequency control based on sliding mode control with LMI in an island microgrid