A facility converting renewable natural gas and associated gas from the Permian into over one billion gallons/year of sustainable aviation fuel, lower carbon aviation fuel, and other light products annually. The facility will use captured biogas feedstock, integrated carbon capture, and renewable power. A FID is targeted for mid-2024.
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
Arbor Gas’ Spindletop Renewable Gasoline Project converts woody biomass into renewable synthesis gas for the production of approximately 345,000 barrels annually of drop-in high-octane renewable gasoline. The gasoline will be produced from woody biomass generated from the East Texas woodshed incompliance with the EPA rules under the Renewable Fuel Standard. It is located in Beaumont,… Continue reading Arbor Gas | Spindletop Renewable Gasoline Project
A green methanol facility in central Louisiana with a production capacity of 400,000 metric tons of green methanol per year. The green methanol is expected to be used as marine fuel by A.P. Moller – Maersk’s fleet of methanol-powered container vessels. The facility will utilize wood fiber from local forests. The methanol will have a… Continue reading SunGas | Beaver Lake Renewable Energy Facility
The proposed project includes a commercial carbon capture facility at the existing Taft cogeneration power plant (natural gas fired, 3×1 combined cycle, heat, and power cogeneration) facility in Hahnville, Louisiana. The proposed project uses a solvent-based absorption post-combustion carbon capture system that separates and prepares for storage up to three million tonnes of CO2 per… Continue reading Cypress Carbon Capture Project
The proposed project includes integrated CO2 capture and storage associated with cement manufacturing at the Ash Grove Foreman Cement Plant in Foreman, Arkansas. The proposed project includes Air Liquide’s CryocapTM technology as the basis for post-combustion and/or process system CO2 capture, and pipeline and storage field development in the Jurassic Smackover Formation. In May 2023,… Continue reading Ash Grove Foreman Cement Plant CCS
In May 2023, the U.S. Department of Energy selected the University of Illinois’ Illinois Sustainable Technology Center at Prairie Research Institute for a project to conduct an integrated capture, transport, and geological storage study of CO2 emissions at Dallman Unit 4. DOE is allocating $4.7 million for this front-end engineering design study, which will explore… Continue reading CWLP Dallman Unit 4 200-MW CCS
A carbon capture project at the City Water, Light and Power (CWLP) plant in Springfield, Illinois. The project is supported by DOE’s NETL and it is led by the University of Illinois, in partnership with the Linde Group, BASF Corporation, Affiliated Engineers, Inc., Affiliated Construction Services, Inc., and Visage Energy. The large pilot testing will evaluate… Continue reading CWLP 10MWe Dallman Unit 4 Carbon Capture Pilot Project
A blue ammonia plant located at CF Industries’ Blue Point Complex in Ascension Parish, Louisiana. The project includes a long-term blue ammonia offtake into South Korea. CF Industries and POSCO are conducting a FEED study on autothermal reforming ammonia production technology. ATR technology, when combined with carbon capture and sequestration. The FEED study is expected… Continue reading CF Industries | POSCO | Blue Ammonia
A potential carbon capture and storage project at Coal Creek Station, in North Dakota. Coal Creek consists of two units, which began operating in 1979 and 1980. The project would connect to a carbon dioxide storage hub in central North Dakota, storing up to 200 million metric tons of CO2, and storing CO2 from the… Continue reading EERC | Coal Creek Carbon Capture