The pilot project plans to deploy an innovative post-combustion carbon capture process at Delek’s Big Spring Refinery Fluidized Catalytic Cracking Unit and transport the CO2 via existing pipelines for permanent storage or utilization. The project is also expected to decrease emissions of health-harming pollutants, including SOx and particulate matter. The goal of the project is… Continue reading Delek | Big Spring Refinery Carbon Capture Pilot
A CCS pilot project in Mississippi led by nonprofit research institute RTI International. The project is in collaboration with International Paper (IP), SLB, and Amazon. RTI is the technology developer, SLB is the technology deployment partner, IP is the host site, and Amazon is the end user. The project implements RTI’s non-aqueous solvent (NAS) technology… Continue reading RTI International | Vicksburg Containerboard Mill Carbon Capture Demo
A University of Wyoming School of Energy Resources’s pilot project tackling the large quantities of water produced by oil and gas wells by adequately treating it so it can be used for generating hydrogen. The pilot project will be deployed at Williams Echo Springs gas plant, in Wamsutter, Wyoming. Steam methane reforming is a well-established… Continue reading University of Wyoming SER | William Echo Springs H2 Pilot Project
The development and testing of a membrane-based carbon capture technology at Holcim cement plant in Holly Hill, South Carolina. Technology from Ohio State will be employed in the project, targeting the capture of 95-99 percent of CO2 from cement kiln gas with a purity exceeding 95 percent and lower energy demand. GTI Energy will support… Continue reading Holcim | Holly Hill CCS Pilot
Alaska Gasline Development Corporation’s carbon capture plant, located in Prudhoe Bay on Alaska’s North Slope. The plant is designed to remove carbon dioxide and hydrogen sulfide before natural gas enters the pipeline. The project is part of the Alaska LNG project, which has an estimated total cost of $44bn, and it includes the carbon capture… Continue reading AGDC | Arctic Carbon Capture Plant
Standard Biocarbon’s biochar and carbon capture facility in Enfield. Production is scheduled to commence in Q1 2024. The facility will produce 16,000 cubic yards of biochar and capture 3,000 tons of carbon a year. Biochar, a charcoal-like material, is produced by heating organic matter to an extremely high temperature in a low-oxygen environment. The biochar… Continue reading Standard Biocarbon | Enfield Biochar Facility
Avina’s e-methanol production facility leverages advanced processes from reputable technology providers to synthesize methanol from captured carbon dioxide (CO2) and green hydrogen (H2) produced from renewable energy sources. This large-scale production facility will supply e-methanol to a constantly growing fleet of methanol-powered vessels. Annual e-methanol production: more than 300,000 tons Annual green hydrogen production: 70,000… Continue reading Avina Gulf Coast | E-Methanol
The potential carbon capture retrofit of unit 4 at the Tanners Creek power plant. The project was canceled in 2014 after a feasibility study due to financial concerns. The Tanners Creek Plant was retired in 2015.
In 2009, the Sweeny Gasification Project was selected by the Department of Energy to be awarded a $3 million Cooperative Agreement to share costs in the development of the project. Total cost $4.1 billion. The project’s aim was to capture CO2 from its ConocoPhillips petcoke-based 683-megawatt IGCC power plant adjacent to its existing refinery. An… Continue reading Sweeny Polygeneration with CO2 Capture
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.
