Spatio-temporal analysis of renewable energy droughts in Europe: a gridded perspective
欧州における再生可能エネルギー干ばつの時空間分析:グリッドベースの視点 (AI 翻訳)
Aina Maimó Far, Conor Sweeney
🤖 gxceed AI 要約
日本語
風力と太陽光の同時出力不足(再エネ干ばつ)を70年以上のERA5データからグリッド単位で分析。国境を越えた空間的広がりと持続性を捉え、欧州スーパーグリッドの信頼性評価に示唆を与える。
English
This study characterizes compound low-wind and low-solar events across Europe using 70+ years of ERA5 reanalysis data on a grid, moving beyond country-level assessments. It reveals how these renewable energy droughts emerge, propagate, and organize across regions, offering insights for designing a resilient European supergrid.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本でも洋上風力や太陽光の大規模導入に伴い、同様の「再エネ干ばつ」リスクが顕在化しつつある。本手法は全国規模の系統計画や広域連系の評価に応用可能。
In the global GX context
This paper provides a physically grounded, gridded approach to assessing renewable energy droughts, crucial for the resilience of highly interconnected systems like the planned European supergrid. It moves beyond national boundaries, offering a template for cross-border energy planning under deep decarbonization.
👥 読者別の含意
🔬研究者:Offers a novel spatio-temporal framework for analyzing compound renewable energy deficits using gridded data, relevant for climate-energy modeling.
🏢実務担当者:Helps grid operators and energy planners identify risks of simultaneous low wind/solar and design interconnections to mitigate them.
🏛政策担当者:Provides evidence for pan-European coordination on renewable integration and backup infrastructure.
📄 Abstract(原文)
The rapid expansion of wind and solar power across Europe is reshaping the structure and operation of the electricity system, with growing emphasis on interconnection and the potential role of a European supergrid. In this context, periods of simultaneously low wind and solar availability, commonly referred to as renewable energy droughts, pose a critical challenge for system reliability and planning. Such events are often assessed at national or regional scales, but these approaches are constrained by geopolitical boundaries that may not reflect the true spatial structure and evolution of atmospherically driven renewable resource deficits.This work presents a spatio-temporal characterization of renewable energy droughts across Europe using gridded fields, with the aim of identifying how these events emerge, persist, and propagate. The analysis is based on 70+ years of ERA5 reanalysis data over the North Atlantic–European sector and focuses on compound low-wind and low-solar conditions. Renewable energy droughts are identified using threshold-based methods applied consistently across the grid.By adopting a gridded perspective, this study moves beyond country-based assessments to capture the physical footprint of renewable energy drought events as shaped by atmospheric variability. In particular, the analysis examines the displacement, extent, and persistence of these compound deficits, as well as their relation to large-scale atmospheric circulation. This provides a framework for assessing whether renewable energy droughts remain localized, propagate across regions, or organize into broader structures relevant to pan-European energy balancing.Ultimately, this work aims to provide a physically grounded view of high-impact renewable energy droughts in Europe and of the atmospheric processes underlying their evolution. These insights are relevant for the design and resilience assessment of highly interconnected electricity systems, particularly in evaluating the extent to which a European supergrid may mitigate, or remain vulnerable to, widespread and persistent renewable energy droughts.
🔗 Provenance — このレコードを発見したソース
- openalex https://doi.org/10.5194/ems2026-511first seen 2026-07-13 05:10:39
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