Preventing global warming and reducing CO₂ emissions
Alternative hydrogen-based & circular carbon solutions are crucial to decarbonize the industry. Leveraging MAIRE 50 years of experience in Hydrogen Tech, we enable the decarbonization of industries through the valorization and utilization of captured CO2 and the implementation of technologies to produce cost-effective, clean and green hydrogen.
Steam Methane Reformer (SMR) allows cost-effective production of syngas via steam reforming of hydrocarbons at high temperature.
This well-proven and highly-referenced SMR technology is used to produce hydrogen with very high purity, implementing all Best Available Techniques at lower costs compared to other technologies thanks to high hydrogen yield, feedstock flexibility, simple design, smooth operation and very high reliability.
→ NX Reform Hydrogen
Grey Hydrogen production for several industrial sectors including refineries, steel manufacturing, fertilizers production.
→ NX Reform Blue Hydrogen
SMR combined with carbon capture technology for Blue Hydrogen production to decarbonize several industrial sectors.
Innovative technology that exploits electrically-powered steam reforming of natural gas for hydrogen production, requiring only 55% of the natural gas needed in conventional SMR.
The CO2 to be captured is 45% lower than conventional SMR, at pressure and with a CO2 recovery efficiency higher than 98%, leading to lower costs of CO2 capture.
→ NX eReform eBlue
Blue Hydrogen production for industrial applications and for the utility sector with high potential for production of low-carbon hydrogen.
The Catalytic Partial Oxidation (CPO) is a revolutionary technology for production of syngas via direct natural gas oxidation.
This technology leads to 40-50% lower emissions for hydrogen production compared to classic SMR and lower costs due to its compact design and simple process.
The versatility of this solution makes it suitable to cover a wide range of applications including low carbon hydrogen. ammonia and synfuels.
→ NX CPO Hydrogen
Low carbon hydrogen production for refineries and heavy industries decarbonization including steel manufacturing.
NX Clean Gas
The Dual Column Cryogenic Distillation (DCCD) is an innovative concept for the purification of sour gas reservoir (CO2>15%Vol; H2S<15% Vol. with presence of C2+).
This technology allows a cost-efficient cleaning of sour gas without using chemicals in the process and the formation of solid CO2 phase, but leveraging only on the condensation of CO2 at low temperatures.
Purification of crude oil & gas
Highly-referenced system relying on modified Claus and Tail Gas Treatment technology for abatement of sulphur bearing contaminants in acid and tail gases and co-production of liquid sulphur as valuable product.
This technology is widely applied for reducing the environmental impact of crude oil refining and cleaning of natural gas and can be properly upgraded for decarbonization.
NX SulphuRec S.O.A.P.™
Purification of crude oil & gas
Novel technology built on the consolidated experience in sulphur treatment units (modified Claus Process and Tail Gas Treatment). The Selective Oxidative Autothermal Process (S.O.A.P.™) represents a substantial step forward in the field of sulphur recovery technologies due to the valorisation of a Hydrogen stream alongside the production of liquid sulphur.
This system brings substantial advantages in terms of greenhouse gasses emissions lowering by 75% the carbon footprint of the process compared to traditional ones as well as CAPEX reduction up to 30%.
Chemical conversion of carbon and hydrogen contained in waste (non-recyclable plastics, RDF and dry fraction) by partial oxidation and subsequent purification to low carbon syngas. This technology is applied for "Waste-to-X" solutions converting the syngas produced into circular chemicals and fuels bridging two sectors such as waste management & chemicals and fuels manufacturing, with substantial CO2 savings from avoided waste incineration while decarbonizing the downstream sectors.
→ NX Circular Hydrogen
Waste-to-H2 solution leverages on internal know-how for syngas upgrading to Hydrogen for the Hard-to-Abate Industries.
Our world is being impacted by powerful trends that are reshaping it and go into the core of our daily lives.
Global GDP reduction due to a temperature rise of 2 degrees by the year 2050
CO2 emission cuts needed each year on average to reach net zero by 2050
Global carbon capture level rise needed by 2040 to meet Paris Agreement targets
Hydrogen production increase needed by 2050
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