1. cordis.europa.eu

    Dec 13, 2024The main objective of TELEGRAM is to demonstrate, at the laboratory scale level, a complete green ammonia carbon-neutral energy cycle, based on electrochemical processes, enabling the use of ammonia as a green fuel. Achievement of this target requires the development of two key enabling technologies.
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  3. cordis.europa.eu

    The main objective of the TELEGRAM project is to demonstrate, at a laboratory scale, a complete green ammonia carbon energy cycle. The main goal will be reached through the following objectives: • Objective 1: Development of novel catalysts for ammonia synthesis with a faraday efficiency >50% and/or a production rate ≥ 10-7 mol cm-2 s-1.
  4. The main objective of TELEGRAM is to demonstrate, at the laboratory scale level, a complete green ammonia carbon-neutral energy cycle, based on electrochemical processes, enabling the use of ammonia as a green fuel. Achievement of this target requires the development of two key enabling technologies.
  5. cordis.europa.eu

    Dec 13, 2024TOWARD EFFICIENT ELECTROCHEMICAL GREEN AMMONIA CYCLE. Results. ... a special session will be planned for a critical analysis of TELEGRAM activities (highlighting the successes and naming points to be improved). In addition, the TELEGRAM members, together with academic and non-academic guests, will discuss the future perspectives in the field ...
  6. Jun 12, 2024Ammonia is one of the most important chemicals, but its production requires an energy intensive process, responsible for about 1-2% of total CO2 emissions worldwide. Ammonia is also potentially a formidable energy vector, with large hydrogen content, high energy volumetric density and, unlike H2, ease of liquefaction for storage.
  7. hq.imm.cnr.it

    IMM-CNR is coordinating a Horizon H2020 project that is expected to demonstrate at the laboratory scale a complete green ammonia carbon-neutral energy cycle. To achieve this target two critical technologies will be developed, based on electrochemistry: the electrochemical synthesis of ammonia powered by renewable energy sources, and NH3 powered fuel cells for electricity
  8. ncbi.nlm.nih.gov

    National Center for Biotechnology Information

    https://www.ncbi.nlm.nih.gov › pmc › articles › PMC10598454

    Toward an efficient electrochemical green ammonia cycle, the TELEGRAM project. Ammonia is one of the most important chemicals used as fertiliser and in many other applications. Its production is presently achieved through a process responsible for about 1-2% of total CO 2 emissions worldwide.
  9. open-research-europe.ec.europa.eu

    Toward an efficient electrochemical green ammonia cycle, the TELEGRAM project. Ammonia is one of the most important chemicals used as fertiliser and in many other applications. Its production is presently achieved through a process responsible for about 1-2% of total CO 2 emissions worldwide.
  10. beyondnano.eu

    Toward Efficient eLEctrochemical GReen AMmonia cycle. Beyond-Nano is involved in the TELEGRAM project, funded by EU's Horizon 2020 Research and Innovation program, whose objective is to demonstrate, at the laboratory scale level, a complete green ammonia carbon-neutral energy cycle, based on electrochemical processes, enabling the use of ...
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