Fuzzy-Based Safe Deep Reinforcement Learning for Robust and Constrained Optimal Control of Industrial Solar Thermal Plants
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Elsevier BV
Reference43 articles.
1. Thermodynamic analysis of concentrated solar energy layouts integrated with combined power system;Bergantini Botamede;Applied Thermal Engineering,2023
2. Parabolic trough or linear fresnel solar collectors? An exergy comparison of a solar-assisted sugarcane cogeneration power plant;C L�pez;Renewable Energy,2021
3. Design optimization of a hybrid solar-biomass plant to sustainably supply energy to industry: Methodology and case study;F B Tilahun;Energy,2021
4. Pathways to the use of concentrated solar heat for high temperature industrial processes;Gus' Nathan;Solar Compass,2023
5. A survey on control schemes for distributed solar collector fields. Part I: Modeling and basic control approaches;E F Camacho;Solar Energy,2007
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