A review on recent standalone and grid integrated hybrid renewable energy systems: System optimization and energy management strategies
Résumé
Fossil fuels greenhouse gases emissions for remote and island electrification and transport application have led to the study of hybrid renewable energy systems. These comprise renewable energy generation units (Solar Photovoltaics, Wind Turbines, etc.), storage units (Battery, Hydrogen Storage Tanks), and other components (compressors, inverters, pressure regulators, etc.). Component selection is key for reducing the negative effects on the system’s cost, reliability, environmental, and social impacts, and reaching its full potential. The aim of this study is to review recent advancements in the architecture sizing and energy management strategies of hybrid renewable energy systems, considering various locations and applications, and based on technical, reliability, environmental, and social factors. The employed optimization formulation frameworks based on various linear and non-linear objective functions, equality and non-equality constraints, and decision variables are also investigated. Optimization methods including tools and solvers used to solve complex hybrid renewable energy system optimization problems are also explored. The study's important results include identifying various components that could help optimize the performance of hybrid renewable energy systems. Additionally, the study highlights the potential of optimization-based energy management strategies to enhance the reliability and efficiency of these systems. Trends in the studies of the implementation of grid-integrated or off-grid hybrid renewable energy systems in remote, island, or urban locations are highlighted. It could also aid in the development of methodologies for designing sustainable energy infrastructure that is resilient and environmentally friendly. Furthermore, the study could inspire future research that addresses the identified research challenges and areas of interest.
Domaines
- Cryptographie et sécurité [cs.CR]
- Calcul parallèle, distribué et partagé [cs.DC]
- Automatique / Robotique
- Energie électrique
- Informatique ubiquitaire
- Système multi-agents [cs.MA]
- Modélisation et simulation
- Technologies Émergeantes [cs.ET]
- Génie logiciel [cs.SE]
- Mécanique des fluides [physics.class-ph]
- Thermique [physics.class-ph]
- Sciences de l'ingénieur [physics]
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