Climate change impacts on renewable energy supply

Journal article (2021)

Authors

David E.H.J. Gernaat Netherlands Environmental Assessment Agency, Universiteit Utrecht
Harmen Sytze de Boer Universiteit Utrecht, Netherlands Environmental Assessment Agency
Vassilis Daioglou Netherlands Environmental Assessment Agency, Universiteit Utrecht
S.G. Yalew Policy Analysis - TPM , Universiteit Utrecht, Wageningen University & Research
Detlef van Vuuren Universiteit Utrecht, Netherlands Environmental Assessment Agency
Research Group
Policy Analysis (TPM) (TU Delft)
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Published Date

2021

Language

English

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Faculty

Technology, Policy and Management

Department

Multi Actor Systems

Research Group

Policy Analysis

Abstract

Renewable energy resources, which depend on climate, may be susceptible to future climate change. Here we use climate and integrated assessment models to estimate this effect on key renewables. Future potential and costs are quantified across two warming scenarios for eight technologies: utility-scale and rooftop photovoltaic, concentrated solar power, onshore and offshore wind energy, first-generation and lignocellulosic bioenergy, and hydropower. The generated cost–supply curves are then used to estimate energy system impacts. In a baseline warming scenario, the largest impact is increased availability of bioenergy, though this depends on the strength of CO2 fertilization. Impacts on hydropower and wind energy are uncertain, with declines in some regions and increases in others, and impacts on solar power are minor. In a future mitigation scenario, these impacts are smaller, but the energy system response is similar to that in the baseline scenario given a larger reliance of the mitigation scenario on renewables.