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Escalating wind power shortages during heatwaves

Jiewen You, Fangxu Yin, Lu Gao

2025Communications Earth & Environment13 citationsDOIOpen Access PDF

Abstract

Heatwaves challenge electricity systems relying on wind energy for renewable power. However, the global availability of wind power during heatwaves remains unknown. Here, we provide a global assessment of wind power dynamics during heatwaves using weather reanalysis data from 1980 to 2023. Our results show the global land area experiencing wind power shortages during heatwaves has risen by 6.3% per decade, reaching 60% by 2023. Australia, Northern Asia, and Europe are particularly vulnerable, with wind power decreasing by 30–50%. Conversely, regions such as the Amazon, the Great Plains in North America, and Central Africa experience slight increases in wind power during heatwaves. 75.5% of land areas show a negative response between maximum temperatures and wind speeds. Our findings highlight the growing risk of concurrent heatwaves and wind power shortages, underscoring the need for targeted regional strategies to ensure the reliability of wind energy systems under a warming climate. The global land area experiencing wind power shortages during heatwaves has increased by 6.3% per decade, with regions like Australia, Northern Asia, and Europe particularly vulnerable, according to a global assessment of wind power dynamics during heatwaves from 1980 to 2023.

Topics & Concepts

Economic shortageEnvironmental scienceWind powerMeteorologyPower (physics)ClimatologyGeologyGeographyEngineeringElectrical engineeringPhysicsQuantum mechanicsPhilosophyGovernment (linguistics)LinguisticsWind Energy Research and DevelopmentMeteorological Phenomena and SimulationsEnergy Load and Power Forecasting