%0 Journal Article %T A Novel Two-Stage Scheduling Approach for a Hybrid Floating Photovoltaic-Battery-Hydropower Plant Considering Uncertainties %A Xengyang Chierthaichingpangxao %A Kittaya Somsai %A Sengthavy Phommixay %A Mouhamadou Thiam %A Edjadessamam Akoro %A Eric Mpapa %J Journal of Power and Energy Engineering %P 1-20 %@ 2327-5901 %D 2023 %I Scientific Research Publishing %R 10.4236/jpee.2023.117001 %X The application of floating photovoltaics (PVs) in hydropower plants has gained increasing interest in forming hybrid energy systems (HESs). It enhances the operational benefits of the existing hydropower plants. However, uncertainties of PV and load powers can present great challenges to scheduling HESs. To address these uncertainties, this paper proposes a novel two-stage optimization approach that combines distributionally robust chance-constrained (DRCC) and robust-stochastic optimization (RSO) approaches to minimize the operational cost of an HES. In the first stage, the scheduling of each device is obtained via the DRCC approach considering the PV power and load forecast errors. The second stage provides a robust near real time energy dispatch according to different scenarios of PV power and load demand. The solution of the RSO problem is obtained via a novel double-layer particle swarm optimization algorithm. The performance of the proposed approach is compared to the traditional stochastic and robust-stochastic approaches. Simulation results de- monstrate the superiority of the proposed two-stage approach and its solution method in terms of operational cost and execution time. %K Distributionally Robust Chance-Constrained %K Robust-Stochastic Optimization %K Double-Layer Particle Swarm Optimization %K Floating PV %K Uncertainties %K Operational Cost %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=126199