The transport potential
7.7
giga
tons CO₂
Transportation is responsible for approximately 7.7 gigatons of CO2 emissions annually.
25%
of global carbon dioxide emissions comes from the transport sector.
x2.1
CO₂ multiplier
producing 1 ton of fossil-based CO emits 2.1 tons of CO2
70%
we can decarbonize methanol production by 70%, without modifying the current process.
Circular CO for e-fuels and SAF.
The transportation sector is responsible for approximately 7.7 gigatons of CO₂ emissions annually, making it a major contributor to global greenhouse gas emissions.
E-fuels and SAF, derived from renewable electricity and captured CO2, can significantly decarbonize sectors like aviation and shipping, which are more challenging to electrify than road transportation.
To reach carbon circularity, a bottom-up synthesis approach is needed. Traditional cracking techniques need to shift towards Fisher-Tropsch synthesis (FTS) or conversion from syngas to higher hydrocarbons, such as olefins.
Expanding these technologies will require substantial investments in renewable energy, electrolysis for hydrogen production, and CO₂ capture and utilization infrastructure.
Through plasma technology, we can produce sustainable CO based on CO2. Sustainable CO based on CO2 reduces its carbon footprint drastically to -0.69 t CO2 eq./t CO, considering the avoided emissions of biogenic CO2 and renewable energy usage.
Decarbonize methanol production by 70%
To produce 1 ton of methanol, 0.88 tons of CO is consumed.
Our co2 plasma conversion technology CAN decarbonize methanol production by 70% without modifying the current methanol production process.
Energy efficient CO building blocks for E-FUELS AND SAF
Our breakthrough in cold plasma technology enables high CO2 conversion density at low cost.
Our technology performs 33% better in operating costs (OPEX) and capital Expenses (CAPEX) than other best-in-class electrified CO production techniques.
CO MADE TO MEASURE
Up to xx% pure CO from 50% diluted waste streams
Get a sample
configure your co pureness or chose for hybrid purity when possible. our plasma technology can produce co starting at xx% to high-purity levels.
