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Multi-timescale stochastic optimization for enhanced dispatching and operational efficiency of electric vehicle photovoltaic charging stations

Qinglin Meng, Sheharyar Hussain, Ying He, Jinghang Lu, Josep M. Guerrero

2025International Journal of Electrical Power & Energy Systems30 citationsDOIOpen Access PDF

Abstract

Addressing the integration of global day-ahead dispatching and the necessity for real-time dispatch precision, this study proposes a novel multi-timescale stochastic dispatch strategy for photovoltaic (PV) charging stations equipped with energy storage systems. Initially, the dispatch center optimizes the energy storage system’s charging status using reduced scenario forecast data to minimize operational costs, considering uncertainties in PV power generation and charging demand. As the day progresses, this strategy dynamically updates forecasts for PV power and charging loads based on real-time data, enabling ongoing optimization of the storage system to reduce operational costs. The method strategically schedules charging and discharging activities, effectively diminishing daily operational expenses. Simulation results show that the proposed method reduces forecast errors, lowers operational costs, enhances resilience, and reliably meets electric vehicle charging demand, presenting a robust solution for future energy dispatch challenges.

Topics & Concepts

Photovoltaic systemScheduling (production processes)Energy storageComputer scienceReliability (semiconductor)Automotive engineeringReliability engineeringElectric vehicleCharging stationResilience (materials science)Economic dispatchStochastic optimizationElectric power systemStochastic programmingOperational costsPower (physics)Real-time computingEnergy (signal processing)EngineeringGenetic algorithmMathematical optimizationOperational planningEnergy managementElectricity generationEnergy management systemElectric Vehicles and InfrastructureAdvanced Battery Technologies ResearchHybrid Renewable Energy Systems