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The potential role of concentrated solar power for off-grid green hydrogen and ammonia production

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  • Campion, Nicolas
  • Gutiérrez-Alvarez, Raúl
  • Bruce, José Tomás Figueroa
  • Münster, Marie

Abstract

This paper investigates the potential role of concentrated solar power (CSP) in off-grid green electrolytic hydrogen and ammonia production using an open-source techno-economic assessment optimisation model. The green ammonia plant comprises a flexible Haber-Bosch loop, an electrolyser park, a desalination plant, storage systems (thermal, electrical, and hydrogen), and a power supply optionally including wind power, solar photovoltaic (PV), and CSP (solar tower or parabolic trough collectors). Various system configurations and cost assumptions are tested to evaluate when CSP technologies are economically viable for green fuel production. Results demonstrate that CSP and thermal energy storage (TES) technologies can play a minor but useful role in providing nighttime power supply to the ammonia plant, in combination with onshore wind power and electrical storage. Solar PV with 1-axis tracking remains the primary power provider, and the optimal system always includes large-scale hydrogen storage. In the cheapest configuration, the LCOA reaches 646 €/tNH3. With an 80% reduction in CSP and TES costs, CSP technology becomes a major player in power production. In scenarios where hydrogen storage is not feasible and the ammonia plant lacks full flexibility, a 20% cost reduction (to 2750 €/kW) is enough for them to become major power providers.

Suggested Citation

  • Campion, Nicolas & Gutiérrez-Alvarez, Raúl & Bruce, José Tomás Figueroa & Münster, Marie, 2024. "The potential role of concentrated solar power for off-grid green hydrogen and ammonia production," Renewable Energy, Elsevier, vol. 236(C).
    • Handle: RePEc:eee:renene:v:236:y:2024:i:c:s0960148124014782
    DOI: 10.1016/j.renene.2024.121410
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    References listed on IDEAS

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    2. Ramachandran, Siddharth & Bhogilla, Satya Sekhar & Kuo, Jenn-Kun, 2026. "Hybrid solar transcritical CO2 and green hydrogen loop for sustainable off-grid energy: Performance analysis and techno-economic optimization," Renewable Energy, Elsevier, vol. 257(C).
    3. Tebibel, H., 2024. "Dual-objective optimization of solar driven alkaline electrolyzer system for on-site hydrogen production and storage: Current and future scenarios," Renewable Energy, Elsevier, vol. 237(PC).

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