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On capital utilization in the hydrogen economy: The quest to minimize idle capacity in renewables-rich energy systems

Author

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  • Cloete, Schalk
  • Ruhnau, Oliver
  • Hirth, Lion

Abstract

The hydrogen economy is currently experiencing a surge in attention, partly due to the possibility of absorbing wind and solar energy production peaks through electrolysis. A fundamental challenge with this approach is low utilization rates of various parts of the integrated electricity-hydrogen system. To assess the importance of capacity utilization, this paper introduces a novel stylized numerical energy system model incorporating the major elements of electricity and hydrogen generation, transmission and storage, including both "green" hydrogen from electrolysis and "blue" hydrogen from natural gas reforming with CO2 capture and storage (CCS). Balancing renewables with electrolysis results in low utilization of electrolyzers, hydrogen pipelines and storage infrastructure, or electricity transmission networks, depending on whether electrolyzers are co-located with wind farms or demand centers. Blue hydrogen scenarios face similar constraints. High renewable shares impose low utilization rates of CO2 capture, transport and storage infrastructure for conventional CCS, and of hydrogen transmission and storage infrastructure for a novel process (gas switching reforming) that enables flexible power and hydrogen production. In conclusion, both green and blue hydrogen can facilitate the integration of wind and solar energy, but the cost related to low capacity utilization erodes much of the expected economic benefit.

Suggested Citation

  • Cloete, Schalk & Ruhnau, Oliver & Hirth, Lion, 2020. "On capital utilization in the hydrogen economy: The quest to minimize idle capacity in renewables-rich energy systems," EconStor Preprints 222474, ZBW - Leibniz Information Centre for Economics.
    • Handle: RePEc:zbw:esprep:222474
    Note: Please cite as: Cloete, Schalk, Oliver Ruhnau & Lion Hirth (2020): “On capital utilization in the hydrogen economy: The quest to minimize idle capacity in renewables-rich energy systems”, International Journal of Hydrogen Energy, https://doi.org/10.1016/j.ijhydene.2020.09.197
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    File URL: https://www.econstor.eu/bitstream/10419/222474/1/Cloete%20et%20al.%202020.%20On%20capital%20utilization%20in%20the%20hydrogen%20economy.%20EconStor.pdf
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    Citations

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    Cited by:

    1. Andreas von Döllen & YoungSeok Hwang & Stephan Schlüter, 2021. "The Future Is Colorful—An Analysis of the CO 2 Bow Wave and Why Green Hydrogen Cannot Do It Alone," Energies, MDPI, vol. 14(18), pages 1-20, September.
    2. Cloete, Schalk & Ruhnau, Oliver & Cloete, Jan Hendrik & Hirth, Lion, 2021. "Blue hydrogen and industrial base products: The future of fossil fuel exporters in a net-zero world," EconStor Preprints 234469, ZBW - Leibniz Information Centre for Economics.
    3. Oscar Utomo & Muditha Abeysekera & Carlos E. Ugalde-Loo, 2021. "Optimal Operation of a Hydrogen Storage and Fuel Cell Coupled Integrated Energy System," Sustainability, MDPI, vol. 13(6), pages 1-17, March.
    4. Ruhnau, Oliver, 2022. "How flexible electricity demand stabilizes wind and solar market values: The case of hydrogen electrolyzers," Applied Energy, Elsevier, vol. 307(C).
    5. Michel Noussan & Pier Paolo Raimondi & Rossana Scita & Manfred Hafner, 2020. "The Role of Green and Blue Hydrogen in the Energy Transition—A Technological and Geopolitical Perspective," Sustainability, MDPI, vol. 13(1), pages 1-26, December.
    6. Ruhnau, Oliver, 2020. "Market-based renewables: How flexible hydrogen electrolyzers stabilize wind and solar market values," EconStor Preprints 227075, ZBW - Leibniz Information Centre for Economics.

    More about this item

    Keywords

    Hydrogen economy; Energy system model; Decarbonization; CO2 capture and storage; Variable renewable energy;
    All these keywords.

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