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Optimal Capacity Configuration of Pumped-Storage Units Used to Retrofit Cascaded Hydropower Stations

Yang Li, Feilong Hong, Xiaohui Ge, Xuesong Zhang, Bo Zhao, Feng Wu

2023Energies15 citationsDOIOpen Access PDF

Abstract

As flexible resources, cascaded hydropower stations can regulate the fluctuations caused by wind and photovoltaic power. Constructing pumped-storage units between two upstream and downstream reservoirs is an effective method to further expand the capacity of flexible resources. This method transforms cascaded hydropower stations into a cascaded pumped-hydro-energy storage system. In this paper, a flexibility reformation planning model of cascaded hydropower stations retrofitted with pumped-storage units under a hybrid system composed of thermal, wind, and photovoltaic power is established with the aim of investigating the optimal capacity of pumped-storage units. First, a generative adversarial network and a density peak clustering algorithm are utilized to generate typical scenarios to deal with the seasonal fluctuation of renewable energy generation, natural water inflow, and loads. Then, a full-scenario optimization method is proposed to optimize the operation costs of multiple scenarios considering the variable-speed operation characteristics of pumped storage and to obtain a scheme with better comprehensive economy. Meanwhile, the proposed model is retransformed into a mixed-integer linear programming problem to simplify the solution. Case studies in Sichuan province are used to demonstrate the effectiveness of the proposed model.

Topics & Concepts

HydropowerFlexibility (engineering)Renewable energyPhotovoltaic systemEnergy storageInflowUpstream (networking)Integer programmingComputer scienceStorage efficiencyElectricity generationEnvironmental scienceEngineeringPower (physics)MeteorologyElectrical engineeringAlgorithmMathematicsStatisticsPhysicsComputer networkDatabaseQuantum mechanicsElectric Power System OptimizationWater-Energy-Food Nexus StudiesSmart Grid Energy Management