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Future operation of hydropower in Europe under high renewable penetration and climate change

Ebbe Kyhl Gøtske, Marta Victoria

2021iScience54 citationsDOIOpen Access PDF

Abstract

As large renewable capacities penetrate the European energy system and the climate faces significant alterations, the future operation of hydropower reservoirs might deviate from today. In this work, we first analyze the changes in hydropower operation required to balance a wind- and solar-dominated European energy system. Second, we apply runoff data obtained from combining five different global circulation models and two regional climate models to estimate future reservoir inflow at three CO 2 emissions scenarios (RCP2.6, RCP4.5, and RCP8.5). This enables us to address the climate model uncertainty reported in previous literature. Despite large interannual and intermodel variability, significant changes are measured in the climate model signal between today and future climate. Annual inflow decreases by 31% (20%) in Southern countries and increases by 21% (14%) in Northern countries for high (mid)-emission scenarios. Projections also show impacts on seasonal profiles and more frequent and prolonged droughts in Mediterranean countries.

Topics & Concepts

HydropowerInflowClimate changeEnvironmental scienceRenewable energyClimate modelMediterranean climateSurface runoffGlobal warmingClimatologyTransient climate simulationGeneral Circulation ModelEnergy balanceClimate commitmentClimate change mitigationHydroelectricityEffects of global warmingStormNatural resource economicsPenetration (warfare)Atmospheric sciencesDownscalingEnvironmental protectionHydrology and Watershed Management StudiesWater-Energy-Food Nexus StudiesWater resources management and optimization
Future operation of hydropower in Europe under high renewable penetration and climate change | Litcius