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Quantifying seasonal hydrogen storage demands under cost and market uptake uncertainties in energy system transformation pathways

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Listed:
  • Felix Frischmuth
  • Mattis Berghoff
  • Martin Braun
  • Philipp Haertel

Abstract

Climate neutrality paradigms put electricity systems at the core of a clean energy supply. At the same time, indirect electrification, with a potential uptake of hydrogen or derived fuel economy, plays a crucial role in decarbonising the energy supply and industrial processes. Besides energy markets coordinating the transition, climate and energy policy targets require fundamental changes and expansions in the energy transmission, import, distribution, and storage infrastructures. While existing studies identify relevant demands for hydrogen, critical decisions involve imports versus domestic fuel production and investments in new or repurposing existing pipeline and storage infrastructure. Linking the pan-European energy system planning model SCOPE SD with the multiperiod European gas market model IMAGINE, the case study analysis and its transformation pathway results indicate extensive network development of hydrogen infrastructure, including expansion beyond refurbished methane infrastructure. However, the ranges of future hydrogen storage costs and market uptake restrictions expose and quantify the uncertainty of its role in Europes transformation. The study finds that rapidly planning the construction of hydrogen storage and pipeline infrastructure is crucial to achieving the required capacity by 2050.

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  • Felix Frischmuth & Mattis Berghoff & Martin Braun & Philipp Haertel, 2024. "Quantifying seasonal hydrogen storage demands under cost and market uptake uncertainties in energy system transformation pathways," Papers 2404.12974, arXiv.org.
    • Handle: RePEc:arx:papers:2404.12974
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    References listed on IDEAS

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    1. Frischmuth, Felix & Härtel, Philipp, 2022. "Hydrogen sourcing strategies and cross-sectoral flexibility trade-offs in net-neutral energy scenarios for Europe," Energy, Elsevier, vol. 238(PB).
    2. Klatzer, T. & Bachhiesl, U. & Wogrin, S. & Tomasgard, A., 2024. "Ramping up the hydrogen sector: An energy system modeling framework," Applied Energy, Elsevier, vol. 355(C).
    3. Ikäheimo, Jussi & Lindroos, Tomi J. & Kiviluoma, Juha, 2023. "Impact of climate and geological storage potential on feasibility of hydrogen fuels," Applied Energy, Elsevier, vol. 342(C).
    4. Ruud Egging & Franziska Holz. With support by Victoria Czempinski & Alexandra Lüth & Sebastian Wegel & Jan Zepter, 2019. "Global Gas Model: Model and Data Documentation v3.0 (2019)," Data Documentation 100, DIW Berlin, German Institute for Economic Research.
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