Maire Tecnimont S.p.A. announced that it has been awarded a project on an EPCM basis by a leading global chemicals producer for the implementation of a Blue Ammonia plant in the United States.
The project is part of the US’s plan to develop its energy transition industrial vision.
Tecnimont S.p.A., a main contractor of Maire Tecnimont Group, will work with major players in the natural resource transformation sector to complete the project.
The contract value is approximately $230 million. The plant involves a 3,000-ton/day blue ammonia synloop, plus the necessary utilities and facilities.
Project Completion is expected as early as 2025.
“Blue” ammonia is produced from hydrogen derived from natural gas where the CO2 by-product is captured and sequestered to comply with the most stringent environmental requirements.
The contract’s scope of work includes full engineering activities and supply of all materials and equipment as well as construction supervision services, while Construction activities will be executed by another party under a different contract, which will be directly issued by the client.
Such contractual strategy is typically implemented in the US to better optimize the construction activities and mitigate both Maire Tecnimont Group’s and client’s risks, also leveraging Tecnimont USA’s expertise in managing construction activities and local content in the United States.
Pierroberto Folgiero, Maire Tecnimont Group CEO, commented: “This assignment is concrete evidence of our strong positioning in the energy transition journey thanks to our technology-driven value proposition in these evolutionary times. United States represent one of the highest potential markets to break the ice in industrial scale decarbonization initiatives.”
“Blue ammonia is playing a pivotal role in the world-wide development of decarbonized value chains and we are eager to start working on this exciting project, as it will also pave the way for future opportunities driven by the Country’s large wave of investments in gas monetization and energy transition,” he added.