The consortium will investigate the potential of a novel synergetic and circular process that transforms residual carbon-rich gas from the steel sector into resources for high purity urea.
The
To reach EU climate targets, the steel and iron production sectors are looking to decrease their CO2 emissions by up to 90% by 2050. INITIATE will demonstrate how residual carbon-rich gases, such as blast furnace gas and basic oxygen furnace gas, from the steel sector can become a valuable feedstock for the chemical sector, leading to a cost-efficient decarbonisation of the steel industry. The demonstration will combine the continuous production of N2+H2 and CO2 streams, with the innovative ammonia production as a precursor for urea. Urea has important uses as a fertilizer and feed supplement, as AdBlue (Diesel Exhaust Fluid), as well as a building block for the manufacture of pharmaceuticals and plastics. The project will also conduct a macro economic and life cycle analysis to ensure the sustainability of the process and develop a commercial deployment roadmap for technology roll out.
With expertise in a wide range of process catalysts, absorbents, and licensed technologies related to the syngas and ammonia industries, JM is well positioned to support the INITIATE project. JM's role will be to evaluate the suitability of functional catalytic and purification materials to produce urea from residual gas streams as well as support the demonstration of sustainable development and eco-innovation on a pilot plant scale. Together with the project partners, JM will work on the commercial implementation plan and devise business models and strategies. Driven by key global sustainability trends, enabling the transformation of residual carbon-rich gas into resources for urea production, at a significantly reduced carbon footprint, fits well with
The consortium consists of functional material suppliers (
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