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Multi-objective optimization of hybrid energy systems using gravitational search algorithm

Sayyed Mostafa Mahmoudi, Akbar Maleki, Dariush Rezaei Ochbelagh

2025Scientific Reports39 citationsDOIOpen Access PDF

Abstract

The depletion of fossil fuel reserves, increasing environmental concerns, and energy demands of remote communities have increased the acceptance of using hybrid renewable energy systems (HRES). However, choosing an optimal HRES from economic, environmental, reliability, and sustainability aspects is still challenging. To solve this challenge, this study introduces a novel multi-objective optimization approach using the Gravitational Search Algorithm (GSA) and non-dominated sorting techniques. The proposed framework addresses four objectives: minimizing the loss of power supply probability, reducing total costs, increasing renewable energy fraction, and lowering CO 2 emissions. A carbon tax sensitivity analysis evaluates the system’s economic performance under varying scenarios. Also, the amount of damage caused by the release of carbon dioxide on human health and the ecosystem is examined. In this way, an optimal configuration consisting of wind turbines, photovoltaic panels, and diesel generators is introduced to satisfy the above objectives. Results demonstrate that the GSA outperforms established methods, such as multi-objective particle swarm optimization and non-dominated sorting genetic algorithm II in Pareto front diversity and convergence. In this work, the optimal system achieves an 18.4% increase in renewable energy share, reducing ecosystem and human health damage by 14.2%. Notably, with a 20% increase in the carbon tax, system costs increased by 3%. These findings underscore the potential of multi-objective optimization combined with carbon tax policies to enhance energy system sustainability and affordability.

Topics & Concepts

Computer scienceAlgorithmGravitational search algorithmGravitationEnergy (signal processing)Optimization algorithmMathematical optimizationMathematicsPhysicsStatisticsParticle swarm optimizationClassical mechanicsHybrid Renewable Energy SystemsEnergy and Environment ImpactsAdvanced Battery Technologies Research