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Deep Reinforcement Learning for Long Term Hydropower Production Scheduling

Signe Riemer-Sorensen, Gjert H. Rosenlund

202018 citationsDOIOpen Access PDF

Abstract

We explore the use of deep reinforcement learning to provide strategies for long term scheduling of hydropower production. We consider a use-case where the aim is to optimise the yearly revenue given week-by-week inflows to the reservoir and electricity prices. The challenge is to decide between immediate water release at the spot price of electricity and storing the water for later power production at an unknown price, given constraints on the system. We successfully train a soft actor-critic algorithm on a simplified scenario with historical data from the Nordic power market. The presented model is not ready to substitute traditional optimisation tools but demonstrates the complementary potential of reinforcement learning in the data-rich field of hydropower scheduling.

Topics & Concepts

HydropowerReinforcement learningElectricityScheduling (production processes)Term (time)RevenueComputer scienceProduction (economics)Electricity generationHydroelectricityOperations researchEngineeringJob shop schedulingIndustrial engineeringProduction planningArtificial intelligenceReinforcementField (mathematics)Electric power systemArtificial neural networkElectricity marketWater resources management and optimizationElectric Power System OptimizationSmart Grid Energy Management
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