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Clean Energy ABB Collaborates with Hydrogen Optimized for Green Hydrogen Production Systems

| Editor: Ahlam Rais

ABB, Hydrogen Optimized have signed a MOU and under the terms of the agreement, both the companies will explore the development of large-scale green hydrogen production systems. The partnership aims to make green hydrogen an affordable source of energy for diverse industries.

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Together, the companies plan to prove that Hydrogen Optimized’s Rugged Cell water electrolysis technology can be used to develop an integrated product solution based on a 100 MW single module plant design concept.
Together, the companies plan to prove that Hydrogen Optimized’s Rugged Cell water electrolysis technology can be used to develop an integrated product solution based on a 100 MW single module plant design concept.
(Source: Deposit Photos)

Zurich/Switzerland – ABB and Hydrogen Optimized have agreed to jointly explore the development of large-scale green hydrogen production systems connected to the electrical grid to offer a clean, sustainable and affordable energy source. Hydrogen Optimized has ambitions to use its high current water electrolysis technology at scale to produce green hydrogen for emerging clean applications across industries, including chemical, utility and transportation. ABB’s hydrogen research team will explore electrical power supply optimisation through projects involving ABB high power rectifier (HPR) systems.

Together, the companies plan to prove that Hydrogen Optimized’s Rugged Cell water electrolysis technology can be used to develop an integrated product solution based on a 100 MW single module plant design concept.

ABB is a leading worldwide supplier of high power rectifiers for any industrial application. Within its HPR range, rectifier systems provide DC current in the range of 5,000A to 550,000A, as single or multiple units and as such can provide nearly unlimited current and voltage combinations and meet most plant specific requirements.

“ABB is a world leader in the control and electrification solutions designed for large-scale electrochemical processes,” said Andrew T.B. Stuart, President and CEO of Hydrogen Optimized. “Such technology is an excellent fit with our patent pending Rugged Cell. Together these technologies create a continuous reduction in the installed capital cost as the scale of the green hydrogen project increases.

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“Our joint work will lay the foundations for single-plant sizes up to the hundreds of MWs input power range. Demonstrating the scalability of these two key components of a water electrolysis installation is vital to economic green hydrogen and we are excited about the potential benefits for customers.”

The MOU signed by the companies formalises the agreement to explore the implementation of a demonstration system as well as the preparation of a 100 MW plant design and commercialisation strategies.

“This project plays to our strengths of building large, highly efficient, customised HPR systems, pushing the boundaries of what is possible from one rectifier unit,” said Charl Marais, Global Product Manager, Process Industries, ABB. “Based on our many years of experience in providing control and electrical system solutions for electrochemical industries, we understand that HPR systems have the characteristics required for successful large-scale project deployment. This collaboration advances the commercial availability and feasibility of large-scale green hydrogen systems. We have been exploring this type of project for more than two years and the synergies with Hydrogen Optimized have been very apparent. We have a clear vision, and the results could be significant.”

Applications using green hydrogen include zero emission transportation fuel supply, ammonia and other chemical production with non-fossil sources of hydrogen, and green metal production with hydrogen instead of a coking-type process.

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