Maire Tecnimont as go-to partner, from delevopment to plant NextChem, Maire Tecnimont Group’s company, is an Italian engineering firm and EPC contractor, developing a low carbon and renewable hydrogen ecosystem by taking a co-development approach. Thanks to Maire Tecnimont Group’s technical expertise, as a leading engineering company in energy, petrochemical and fertilizers, and capabilities, we are the partner of choice for any end-to-end project in the industry’s decarbonization, representing the ideal link between the world of renewables and the world of the process industry. We are able to scout, industrialize, and market a portfolio of sustainable technologies to enable plant decarbonization through green chemistry.
Maire Tecnimont S.p.A. heads an international industrial group that is a leader in the transformation of natural resources (plant engineering in downstream oil & gas, with technological and execution competences). Maire Tecnimont Group operates in about 45 countries, through approximately 50 operative companies and about 9,300 people. Through its subsidiary NextChem, it operates in the field of green chemistry and the technologies to support the energy transition. NextChem’s roadmap is focused on three clusters: Greening the Brown, for the reduction of emissions; Circular Economy, for mechanical and chemical recycling; Green-Green, for biofuels and bioplastics. NextChem portfolio includes also different technologies to produce low carbon hydrogen: Electric BlueTM hydrogen, produced using traditional technologies but with CO2 capture and electrified process; Green Hydrogen, produced by electrolysis using renewable energy sources; Circular HydrogenTM, produced by chemical conversion of waste.
NextChem is positioned both as a project developer and co-investor in the project development, as industrializer and Integrator of innovative technologies, and finally realizes plants as an EPC contractor both to produce renewable energy (solar and wind farm) and high value-added chemicals, using renewable or low carbon hydrogen as feedstock.
#WelcomeToEartH2
Green and low carbon hydrogen as the response to the necessity of decarbonizing the industry
mairetecnimont.com
nextchem.com
nextchem.it/low-carbon-hydrogen
Hydrogen is a key element for the energy transition, at the center of the challenges of global warming. Given its strategic properties, green and low-carbon hydrogen will play a key role in the decarbonization process, in the transport sector, as a feedstock and as a building block to produce different products. NextChem has in portfolio three technologies to produce three different types of low carbon and renewable hydrogen.
TECHNOLOGIES, SHADES HYDROGEN
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Circular Hydrogen
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Electric BlueTM Hydrogen
Green Hydrogen
H2 from Renewables & NG/Biomethane
H2 from Water Electrolysis
The bridging solution toward a 100% green future: produced from natural gas, but by electrifying the process, reducing emissions by 45%, which can be further reduced thanks an effective process of capturing CO2.
Green Hydrogen is the most sustainable and the only zero-carbon option. There are no stack and no emissions involved, and it can be used as feedstock for CO2 and RES valorization as carbon-neutral e-fuels and chemicals.
This technology allows to achieve zero NOX, CO, SOX and particulate emissions, producing four times more hydrogen volumes with the same amount of energy than an electrolyser.
Thanks to EPC contractors’ capacity of integrating the technologies functional to the process, it is important their involvement from the early stages of a project development.
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Maire Tecnimont, through its subsidiaries Tecnimont Private Limited (TCMPL) and NextChem, is working on an EPC contract by Gas Authority of India Limited (GAIL) to implement a 4.3 tons per day green hydrogen production plant in Vijaipur, in Central India.
H2 from Non-Recyclable Plastic Waste Chemical Conversion Produced by syngas obtained by the chemical conversion of carbon and hydrogen contained in plastic and dry waste that are non-recyclable. It offers significant environmental benefits because it can contribute to solve the problem of non-recyclable waste and to the decarbonization of refineries, and it has a competitive cost. The synergy between waste management & disposal and the chemical industry results in a very promising technology.
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90%* less CO2 production *vs. conventional SMR Grey Hydrogen and waste incineration, carbon neutrality achievable with CO2 capture.
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45%*
less CO2 production *vs. conventional SMR Grey Hydrogen.
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CO2 emissions
No stack & no emission 0 carbon intensity H2, leveraging on low-cost renewable energy A feedstock for CO2 and RES valorization as carbon neutral e-fuels and chemicals
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