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Adaptive Robust Optimization for European Electricity System Planning Considering Regional Dunkelflaute Events

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  • Maximilian Bernecker
  • Smaranda Sgarciu
  • Xiaoming Kan
  • Mehrnaz Anvari
  • Iegor Riepin
  • Felix Musgens

Abstract

This study provides insights on how to plan a weather robust energy system consisting of several interconnected regions. We develop a capacity expansion model for a fully decarbonized European electricity system using an adaptive robust optimization framework. The model endogenously identifies the worst regional Dunkelflaute events, prolonged periods of low wind and solar availability, and incorporates multiple extreme weather realizations within a single optimization run. Results show that system costs rise nonlinearly with the geographic extent of these events: a single worst-case regional disruption increases costs by 9%, but broader disruptions across multiple regions lead to much sharper increases, up to 51%. As Dunkelflaute conditions extend across most of Europe, additional cost impacts level off, with a maximum increase of 71%. The optimal technology mix evolves with the severity of weather stress: while renewables, batteries, and interregional transmission are sufficient to manage localized events, large-scale disruptions require long-term hydrogen storage and load shedding to maintain system resilience. Central European regions, especially Germany and France, emerge as systemic bottlenecks, while peripheral regions bear the cost of compensatory overbuilding. These findings underscore the need for a coordinated European policy strategy that goes beyond national planning to support cross-border infrastructure investment, scale up flexible technologies such as long-duration storage, and promote a geographically balanced deployment of renewables to mitigate systemic risks associated with Dunkelflaute events.

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  • Maximilian Bernecker & Smaranda Sgarciu & Xiaoming Kan & Mehrnaz Anvari & Iegor Riepin & Felix Musgens, 2025. "Adaptive Robust Optimization for European Electricity System Planning Considering Regional Dunkelflaute Events," Papers 2507.11361, arXiv.org, revised Sep 2025.
    • Handle: RePEc:arx:papers:2507.11361
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    References listed on IDEAS

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    1. Mayer, Martin János & Biró, Bence & Szücs, Botond & Aszódi, Attila, 2023. "Probabilistic modeling of future electricity systems with high renewable energy penetration using machine learning," Applied Energy, Elsevier, vol. 336(C).
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