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Early decarbonisation of the European energy system pays off

Marta Victoria, Kun Zhu, Tom Brown, Gorm B. Andresen, Martin Greiner

2020Nature Communications225 citationsDOIOpen Access PDF

Abstract

Abstract For a given carbon budget over several decades, different transformation rates for the energy system yield starkly different results. Here we consider a budget of 33 GtCO 2 for the cumulative carbon dioxide emissions from the European electricity, heating, and transport sectors between 2020 and 2050, which represents Europe’s contribution to the Paris Agreement. We have found that following an early and steady path in which emissions are strongly reduced in the first decade is more cost-effective than following a late and rapid path in which low initial reduction targets quickly deplete the carbon budget and require a sharp reduction later. We show that solar photovoltaic, onshore and offshore wind can become the cornerstone of a fully decarbonised energy system and that installation rates similar to historical maxima are required to achieve timely decarbonisation. Key to those results is a proper representation of existing balancing strategies through an open, hourly-resolved, networked model of the sector-coupled European energy system.

Topics & Concepts

Energy systemEnvironmental sciencePath (computing)Yield (engineering)Energy budgetEnergy (signal processing)Reduction (mathematics)Carbon fibersWind powerNatural resource economicsComputable general equilibriumRepresentation (politics)Carbon dioxideRenewable energyGreenhouse gasEuropean unionKey (lock)Energy transformationSolar energyEnvironmental economicsCarbon taxEnergy sectorEfficient energy useSubmarine pipelineEnergy consumptionComputer scienceOffshore wind powerEnergy supplyEconomicsEnergy policyMaxima and minimaBusinessIntegrated Energy Systems OptimizationEnvironmental Impact and SustainabilityGlobal Energy and Sustainability Research