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Snam and RINA collaborate on acceleration of hydrogen development

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Snam and RINA have signed a Memorandum of Understanding to collaborate in the hydrogen sector, in order to realize the significant potential of hydrogen as a fundamental energy carrier in the fight against climate change and industrial decarbonization.

The agreement was signed by Snam CEO Marco Alverà and RINA CEO Ugo Salerno.

The two companies have formed a joint working group to study and test the compatibility of industrial burners and other existing infrastructure already in operation with hydrogen. The group will also begin experiments, analysis and technology scouting in various areas involving hydrogen including production, storage and distribution.

Snam CEO Marco Alverà said: “This agreement will combine the skills of Snam and RINA to accelerate the introduction of hydrogen as a new clean energy carrier and give further impetus to create an Italian hydrogen value chain. The use of green hydrogen in existing infrastructure will play a key role in enabling the energy transition and achieving climate objectives, whilst also creating new opportunities for economic development, which are now more important than ever. Italy and its companies have the opportunity to pioneer this approach at an international level.”

RINA CEO Ugo Salerno added: “We are proud to collaborate with Snam to promote the sustainable progress of the energy sector. We believe that hydrogen is currently one of the best options for reducing carbon dioxide emissions. We are delighted to contribute our research and certification skills on hydrogen-compatible materials and our expertise in the field of analysis, studies and tests for storage to this partnership. This agreement demonstrates Snam and RINA’s joint commitment to the common goal of curbing global warming.”

Introducing hydrogen into energy networks represents the first step for spreading and developing green hydrogen from renewable sources, while reducing its costs. Green hydrogen generated by water electrolysis, a process that takes place without CO2 emissions, has the advantage of being able to use the existing capillary gas infrastructure.

According to a recent study by Snam, hydrogen could cover almost a quarter (23%) of national energy demand by 2050 under a deep decarbonization scenario.

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