Ceres and Shell Collaborate to Design 10MW SOEC Module for Green Hydrogen Production
Key Ideas
  • Ceres awarded a contract for the design of a 10MW pressurised SOEC module for green hydrogen production in collaboration with Shell.
  • The project builds on previous data from a 1MW demonstration in India to develop scalable solutions for industrial applications like synthetic fuels, ammonia, and green steel.
  • The focus is on achieving high efficiency with SOEC technology, aiming for a module level efficiency of less than 36kWh/kg of hydrogen to align with EU SOE 2030 technology targets.
  • Ceres CEO highlighted the collaboration's value, ensuring their technology meets partners' needs in the green hydrogen and synthetic fuels markets through innovation and performance.
Ceres has secured a contract for the design of a 10MW pressurised solid oxide electrolyser (SOEC) module to produce green hydrogen in collaboration with Shell. This partnership, based in Horsham, England, is the second phase of their collaboration and aims to advance SOEC technology for large-scale industrial applications like synthetic fuels, ammonia, and green steel. The project follows a successful 1MW demonstration in Bangalore, India, and focuses on developing a scalable solution that can be integrated into industrial plants. A key goal is to enhance efficiency, with the target of achieving a module level efficiency of less than 36kWh/kg of hydrogen, in line with EU SOE 2030 technology targets. The project will explore pressurised systems to drive further efficiency and performance gains. The CEO of Ceres, Phil Caldwell, emphasized the importance of continuous innovation to meet the needs of partners in the green hydrogen and synthetic fuels markets. The collaboration between Ceres and Shell aims to lead the way in simplicity, efficiency, and performance within the industry, contributing to the development of sustainable future fuels.
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