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Faraday lab: optimising and scaling up electrolysis

Large-scale production of green hydrogen from sustainable sources such as sun and wind still requires the removal of technological barriers. Electrolysis, a method of splitting water into hydrogen and oxygen, is needed to store and transport large amounts of wind energy to industry and for heavy transport. It's happening on a small scale now. In Europe's largest Hydrogen Research Facility, Faraday laboratorium, ECN part of TNO is working on technological breakthroughs to scale this up.

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Get in touch with Lennart van der Burg

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There are currently several barriers to large-scale sustainable hydrogen production. The electrolysers needed for this are still too expensive to compete with the cheap fossil natural gas that is now used to produce hydrogen. For example, the PEM (Protom Exchange Membrane) contains electrolyser parts made of rare, expensive materials such as iridium and platinum. Not only is the number of component suppliers limited but so is the cooperation between parties in the chain. Finally, a sharp rise in the share of sustainably generated electricity is still needed if we want to produce green hydrogen on a large scale.

Sustainability offers opportunities

TNO will be significantly expanding the Faraday lab in Petten in the coming period with facilities to work on innovative solutions together with industrial partners. Electrolysis is not only an indispensable link in making our energy supply more sustainable, it also offers enormous opportunities for Dutch industry. The market is expected to grow from one hundred million to five billion euros in northwest Europe over the next decade. Together with suppliers, we develop efficient systems with sustainably designed components and cheaper materials.

Partners at home and abroad

Getting the production of sustainable hydrogen up to an industrial level requires an increase in scale by a factor of one thousand. To achieve this, TNO is working with national and international partners in the project to design a 'Gigawatt Electrolysis Factory'. Heat and oxygen can be valuable by-products of electrolysis. The Faraday lab also exchanges knowledge with the Hydrohub in Groningen, where TNO, together with other knowledge institutes and companies, is investigating the large-scale sustainable production of hydrogen through water electrolysis. Here, too, rapid upscaling of the technology is the starting point.

Open innovation

Faraday is an open innovation lab that focuses on optimising existing electrolysis technologies such as PEM, alkaline, SOEC and AEM. The future electrolysers must work more efficiently, produce more, comprise cheaper materials and are therefore be attractive to use. ECN part of TNO works together with manufacturers of electrolysers and their suppliers. Manufacturers can develop and test new materials, components and applications with TNO under different conditions. All the necessary facilities are available in the lab. Dutch industry can lead the way here and through innovative products be distinctive players in the world market.

Knowledge

From grey and blue to green hydrogen

Production from water via electrolysis with sustainable electricity from sun and wind is a CO2-free alternative. But for the production of green hydrogen, there are still technological barriers to be... Read more
Our work

Optimising production of sustainable hydrogen with electrolysis

Hydrogen currently produced in our country is mainly used as a raw material for the production of fertilisers and the desulphurisation of fuels. Current hydrogen production is now based on natural gas... Read more
Our work

Large-scale hydrogen storage and transport

With the strong expansion of the number of offshore wind farms in the coming decade to a capacity of 11.5 gigawatts in 2030, large-scale storage and transport of the generated energy in the form of hydrogen... Read more
Our work

Hydrogen as raw material for industry and fuel transport

Industry uses huge amounts of hydrogen for the production of ammonia, various plastics and refining. But because the hydrogen is made from natural gas, a lot of CO2 is released. Green hydrogen produced... Read more

Contact

Lennart van der Burg MSc

  • Hydrogen Expert
  • Electrolyse
  • Heat networks
  • Energy Transition
Email

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