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    October 8, 2020

    Article in Science: Solid oxide electrolysis cell technology to unlock the full potential of renewable power

    • An article in the esteemed Science magazine suggests that solid oxide electrolysis cell (SOEC) technology can unlock the full potential of renewable power and provide climate-friendly fuels.
    • SOEC is a core technology in power-to-X solutions and offers major advantages over alternative electrolysis technologies.
    • The article argues that the technology will very soon be ready for wider adoption.

    A solid oxide electrolysis stack developed by Haldor Topsoe

    Electrolysis technologies play a central part in power-to-X solutions that produce climate-friendly fuels, such as hydrogen and ammonia. To meet the future needs for decarbonization globally, electrolysis technologies must be deployed at a massive scale.

    Access the full article in Science  on Solid oxide electrolysis cell technology

    Solid oxide electrolysis cell (SOEC) technology for unrivaled energy conversion

    “In the article in Science, we claim that the SOEC technology holds the best promise for a wider adoption thanks to unrivaled energy conversion efficiencies. The high operating temperature of SOECs gives rise to the two main advantages over competing alkaline and polymer-electrolyte membrane (PEM) electrolyzers: more favorable thermodynamics and faster kinetics. It is also essential that the SOEC technology is based on scalable production methods and abundant raw materials such as nickel, zirconia, and steel,” says Rainer Küngas, Principal Scientist at Topsoe and one of the lead authors of the article.

    SOEC technology can be thermally integrated with a range of chemical synthesis processes enabling the efficient production of future fuels such as methanol and ammonia. Green ammonia, for example, can be produced from air, water, and renewable electricity and become a highly attractive fuel for decarbonizing the maritime sector.

    The article in Science describes key developments in the SOEC technology within the past 15 years and argues that it is ready for an industrial scale-up, which is in fact already happening at a rapid pace. Researchers from Haldor Topsoe, Technical University of Denmark, Aalborg University, and Energinet have contributed to the article.

    The technology has moved from the R&D phase into demonstration and scale-up, and today it is on the verge of commercialization. Topsoe is at the forefront of the commercialization activities and has just shipped the world’s first unsubsidized SOEC plants that will soon start converting CO2 into useful chemicals in Ohio, USA.

    Topsoe is simultaneously continuing research and development activities to achieve further performance enhancements and cost reductions on cell, stack, and system level.

    When renewable electricity is used in electrolysis, the production of fuels and chemicals can be decoupled from fossil resources and CO2 emissions, paving the way for an energy system based entirely on renewable energy and resources.

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