The project is located in the U.S. Gulf Coast adjacent to an existing specialty chemicals plant. 300,000 tons per year of Zero CI (plant gate) methanol will be produced for the marine shipping industry. Benefits: All CO2 emissions from the methanol plant are utilized to make methanol. Marine shipping customers are supplied with Zero CI… Continue reading HYCO1 | Green Carbon Methanol Project
ETFuels’ e-methanol project in West Texas. It would require between 300MW – 500MW of renewables and cost between $800m – $900m. It is expected to produce 80,000 to 120,000 tons per year of e-methanol on site. The e-methanol would then be trucked to end markets. The project follows the blueprint of ETFuels’ projects in Finland… Continue reading ETFuels | West Texas E-Methanol Facility
A Green Energy Campus which includes a liquid storage and blending terminal with a focus placed on e-fuels and SAF. Future plans include building a laboratory for more testing and research, as well as a manufacturing facility to produce, store, and distribute green hydrogen and green methanol. The Green Energy Campus will be developed on… Continue reading CyberFuels | Green Energy Campus
Oxylus Energy plans to develop and operate its own methanol production plants in the future. Oxylus Energy kicks off its first capital raise in January 2024, seeking to raise $4m in seed funding, with proceeds funding the advancement of a production-scale CO2-to-methanol electrolyzer cell and its first commercial agreements for offtake. Oxylus aims to commercialize… Continue reading Oxylus | Green Methanol Plant
CapCO2 Solutions develops green methanol-producing technology that fits in a shipping crate. The shipping crate can be placed at ethanol plants and use the carbon captured to produce green methanol. 8 to 10 shipping crates would be able to process all the carbon captured at an average ethanol plant, and make green methanol out of… Continue reading CapCO2 | Adkins Green Methanol Pilot Project
A green methanol production facility in Beaumont, Texas. The green methanol comes from a mix of renewable feedstocks, including renewable natural gas, green hydrogen and other over-the-fence feedstock partnerships. As of 2023, OCI produces 200,000 metric tons/year. In September 2023, it announced its intention to double production.
Ørsted’s development of a 675 MW Power-to-X facility on the US Gulf Coast. The facility is expected to produce approximately 300,000 tonnes of e-methanol per year. The methanol will fuel A.P. Moller-Maersk’s fleet of 12 methanol-powered vessels. The facility will be powered by approx. 1.2GW of renewable energy from onshore wind and solar PV farms.… Continue reading Ørsted Power-to-X Facility — Project Star
EE North America’s Power-to-X facility Port of Victoria, Texas producing e-methanol using biogenic CO2. The e-methanol would then be used to fuel vessels for maritime shipping operations. Montauk Renewable is expected to provide biogenic CO2 from its Texas facilities for the production of e-methanol, starting in 2026 for 15 years. In January 2024, Project Nightshade… Continue reading EE North America | Project Nightshade
Carbon Sink plans to deliver 100,000 tonnes/year of green methanol to A.P. Moller-Maersk from its debut plant, which will be co-located with the Red River Energy existing bioethanol plant in Rosholt, South Dakota. Carbon Sink produces green methanol by combining green hydrogen from the electrolysis of water using additional renewable electricity and biogenic CO2. The… Continue reading Carbon Sink Red River Energy plant
Renewable Hydrogen Canada Corporation (RH2C), through its subsidiary Canadian Methanol Corporation (CMC), is planning to produce green methanol (e-methanol) and low-carbon blue methanol at a plant near the town of Tumbler Ridge in northeastern British Columbia (BC). Both products will be transported by rail to a new bulk liquids storage facility on the coast near… Continue reading RH2C | Tumbler Ridge Methanol Project