Green Hydrogen: Research and Development

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At NUTAI, we work on advancing green hydrogen technologies and their application in creating a more sustainable and clean energy future. Our commitment is reflected in the development of innovative solutions in the field of green energy.

We offer a comprehensive experience that drives research and development in more efficient energy technologies.

  • Engineering
  • Mechanical and Electrical Installation
  • Software Programming and Development
  • Installation and Commissioning
  • Technical Training

OUR CONTRIBUTION

We present our development ELYGREEN H2, a versatile test bench that offers a reliable and efficient platform aimed at research and development in the field of green hydrogen.

With ELYGREEN H2, researchers have the capability to perform precise and reproducible tests that drive the advancement of solid oxide cell technologies.

ELYGREEN H2: SOEC/SOFC Test Bench

ELYGREEN H2 is an advanced and comprehensive test bench designed for the research and development of more efficient technologies in the field of clean and sustainable energy. This bidirectional system provides a specialized environment for testing and characterizing solid oxide systems, being reversible and allowing the characterization of cells both in electrolyzer mode (SOEC) and fuel cell mode (SOFC).

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Key Features

  • Performance and degradation analysis to optimize the design of new SO cells.
  • Capability to operate with up to 6 gases, including O₂, H₂, and H₂O, enabling a wide range of tests and experiments.
  • Flexibility for various humidification conditions, adapting to different operational scenarios.
  • Operational capacity at temperatures up to 1000 ºC and pressures up to 50 bar.

Elygreen H2 allows you to

  • Characterize hydrogen processes based on SOEC/SOFC
  • Simulate hydrogen generation processes from electrolysis under various initial conditions
  • Simulate energy generation processes by feeding hydrogen under different conditions
  • Study the behavior of a hydrogen cell and its constituent components, allowing detailed analysis of its performance and operation

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