Experts warn against hype for deriving green hydrogen from direct seawater electrolysis

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Comparison of the energy and overall costs of seawater purification and electrolysis. Credit: N. Hausmann/HZB in Joule

At first glance, the plan sounds compelling: invent and develop future electrolyzers capable of producing hydrogen directly from unpurified seawater. But a closer look reveals that such direct seawater electrolyzers would require years of high-end research. Furthermore, DSE electrolyzers are not even necessary—a simple desalination process is sufficient to prepare seawater for conventional electrolyzers.

In a commentary in Joule, international experts compare the costs and benefits of the different approaches and come to a clear recommendation.

Fresh water is a limited resource; more than 96% of the world’s water is found in the oceans. If seawater could be fed directly into a future electrolyzer to produce green hydrogen using renewable energy from the wind or sun, it could be a feasible solution. Hundreds of millions of dollars in research funding are spent on this idea, and in 2023 alone, there were more than 500 publications (this number is growing exponentially) on direct seawater electrolysis.

No need for new development

However, a techno-economic analysis shows that this argument collapses as soon as the costs and benefits are analyzed in more detail.

“There is no convincing reason to develop DSE technology because there are already efficient solutions for using seawater to produce hydrogen,” says Dr. Jan Niklas Hausmann, electrolysis researcher at HZB and lead author of the Joule commentary. International experts from various disciplines from renowned research institutions such as Yale University, universities in Canada, Germany and HZB contributed to the commentary.

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It is already possible to use seawater to produce hydrogen. Proven processes such as reverse osmosis can be used to purify seawater for “normal,” commercially available electrolyzers. From a thermodynamic point of view, the purification of seawater needs only 0.03% of the energy required for its electrolysis. This is also reflected in the current cost: purifying seawater to produce one kilogram of hydrogen costs less than two cents. However, one kilogram of hydrogen costs 13.85 euros at German filling stations.

Experts warn against hype for deriving green hydrogen from direct seawater electrolysis
Focusing on the development of direct seawater electrolysis misspends limited funding resources. Credit: N. Hausmann/HZB in Joule

Investing money wisely

The development of new types of electrolyzers that can operate steadily in seawater would only save this cheap purification step. In contrast, the development of DSE electrolyzers is extremely challenging and it is highly questionable that they would ever be able to match the efficiency and long-term stability of today’s electrolyzers.

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Experts see major challenges here: Seawater contains a wide variety of organic and inorganic substances that can cause corrosion and fouling, affecting all parts of the electrolyzer. DSE is currently being advertised as a real-world solution for hydrogen production—a promise that cannot be kept and could swallow up a lot of taxpayers’ money, the researchers warn.

“We can compare this with the direct use of crude oil to run cars,” explains Hausmann. “It is possible to develop such cars, but they would just not be as efficient and long-lasting as ones running on purified petrol. This is despite the fact that the cost of purifying crude oil (via refinery) is up to 16% of the final price of the fuel, which is significantly higher than the relative cost of purifying seawater for electrolysis (<1%).”

Getting electrolysis research on track to contribute to decarbonization

“Academic research does not necessarily have to lead to immediate solutions. However, if DSE is presented as a quick fix and is pushed or hyped to the detriment of other more promising approaches, it will tie up resources that will be lacking elsewhere for the development of key decarbonization technologies,” explains Dr. Prashanth Menezes, an expert on catalysts at HZB.

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“If we want to achieve net zero carbon emissions by 2050, funding must be directed to developments that can quickly contribute to this,” says Menezes.

More information:
Hyping Direct Seawater Electrolysis Hinders Electrolyzer Development, Joule (2024). DOI: 10.1016/j.joule.2024.07.005. www.cell.com/joule/fulltext/S2542-4351(24)00332-5

Journal information:
Joule


Provided by
Helmholtz Association of German Research Centres


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