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Sustainable and economic hydrogen cogeneration from nuclear energy in competitive power markets

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  • Miller, A.I.
  • Duffey, Romney B.

Abstract

Hydrogen is becoming the reference fuel for future transportation. However, hydrogen production either directly or indirectly needs to satisfy three criteria: no associated emissions, including CO2; wide availability; and affordability. Water electrolysis is the only available technology today able to meet the first and second criteria. The third criterion includes costs of electrolysis and electricity. The primary requirements for affordable electrolysis are low capital cost and high utilization. Consequently, the electricity supply must enable high utilization as well as being itself low-cost and emissions-free. The only proven, large-scale source of electricity is evolved nuclear technologies, producing electricity at rates competitive with today's CO2-emitting, fossil-fueled technologies. As an example, we show sustainable deployment using cogeneration in a typical competitive power market.

Suggested Citation

  • Miller, A.I. & Duffey, Romney B., 2005. "Sustainable and economic hydrogen cogeneration from nuclear energy in competitive power markets," Energy, Elsevier, vol. 30(14), pages 2690-2702.
    • Handle: RePEc:eee:energy:v:30:y:2005:i:14:p:2690-2702
    DOI: 10.1016/j.energy.2004.07.008
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    Cited by:

    1. García, Lázaro & González, Daniel & García, Carlos & García, Laura & Brayner, Carlos, 2013. "Efficiency of the sulfur–iodine thermochemical water splitting process for hydrogen production based on ADS (accelerator driven system)," Energy, Elsevier, vol. 57(C), pages 469-477.
    2. Abánades, A. & Rubbia, C. & Salmieri, D., 2012. "Technological challenges for industrial development of hydrogen production based on methane cracking," Energy, Elsevier, vol. 46(1), pages 359-363.
    3. González Rodríguez, Daniel & Brayner de Oliveira Lira, Carlos Alberto & García Parra, Lázaro Roger & García Hernández, Carlos Rafael & de la Torre Valdés, Raciel, 2018. "Computational model of a sulfur-iodine thermochemical water splitting system coupled to a VHTR for nuclear hydrogen production," Energy, Elsevier, vol. 147(C), pages 1165-1176.
    4. Guo, Yuwei & Li, Yun & Li, Shuguang & Zhang, Lei & Li, Ying & Wang, Jun, 2015. "Enhancement of visible-light photocatalytic activity of Pt supported potassium niobate (Pt-KNbO3) by up-conversion luminescence agent (Er3+:Y3Al5O12) for hydrogen evolution from aqueous methanol solut," Energy, Elsevier, vol. 82(C), pages 72-79.

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