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Green Hydrogen

Emerald Green Power, as a leading force in the Hydrogen Industry, is involved in pure Green Hydrogen production and fulfilment of all related projects, creating partnerships with like-minded industry specialists in the renewable energy sector.

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Our Technical and Economic Model (TEM) services focus is on crafting bespoke solutions that precisely match your specific requirements. We delve into the intricate details of H2 system design, meticulously tailoring each aspect to cater to your needs.

OUR TECHNO-ECONOMIC MODEL, VERIFIED BY THE NATIONAL PHYSICAL LABORATORY

ENHANCING ELECTROLYSER SYSTEM DESIGN THROUGH INTEGRATED SOLUTIONS

Optimise existing green hydrogen plants

Reduce complexity by simplifying system design

Reduce CapEx & OpEx

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OUR TECHNO-ECONOMIC MODEL, VERIFIED BY THE NATIONAL PHYSICAL LABORATORY

INNOVATIVE GREEN HYDROGEN PLANT DESIGNS TAILORED FOR TOMORROW

Design new green hydrogen plants

Secure a future-proof energy supply

Reduce emissions & boost your green credentials

By leveraging a comprehensive analysis, we're able to determine the cost of hydrogen production and evaluate various outcomes, such as the environmental impact in terms of carbon reduction. This holistic approach ensures that we deliver not just hydrogen, but also sustainable and economically viable solutions tailored to your unique circumstances.

Green Hydrogen Projects

2021 - 2022

100MW Green Hydrogen Hub Design

In partnership with City Science & University of Exeter

Emerald Green Power undertook a pioneering project to design a concept of 8 x 100MW Green Hydrogen Hubs in South West England, integrating these hubs with the grid and optimising their operation, maintenance, and service. 

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A key focus was on mapping the Green Hydrogen needs of regions to enhance the performance of these hubs, ensuring the hydrogen benefits the most people. We developed AI solutions to deploy within the hubs, enabling dynamic production adjustments based on grid availability, ensuring efficient and reliable operations. Additionally, we explored deploying networks of smaller electrolyser units, controlled by AI, to create a self-healing production environment, reducing reliance on expensive redundancy and maximising flexibility in production matching grid availability.

WORKING WITH THE BEST

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