Neste and Marathon Petroleum are potentially going to consider SAF production in California, depending on SAF demand in North America.
Neste and Marathon Petroleum are potentially going to consider SAF production in California, depending on SAF demand in North America.
A study on how to permanently and safely store CO2 below the ocean floor. The goal is to capture CO2 from the atmosphere and inject it into young (less than 15 million years old) porous basalt rock, such as that found in the Cascadia Basin off the west coast of Canada, where it would interact… Continue reading Cascadia Basin Carbon Sequestration
Enerkem and Dimeta are initiating feasibility studies for the development of a large-scale project that will convert waste into renewable dimethyl ether (rDME). As DME is chemically similar to Liquified Petroleum Gas (LPG), it can be blended with it up to 20% and ‘dropped-in’ to existing LPG supply chains. The project is expected to be… Continue reading Dimeta-Enerkem Waste-to-DME Project
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
As part of the Integrated CCS Pre-Feasibility phase of the CarbonSAFE Initiative, Battelle Memorial Institute, partnered with the DOE, performed pre-feasibility studies for an integrated commercial-scale carbon capture and storage site that would utilize deep geologic strata in the Central Appalachian Basin. The project identified six potential CO2 source locations and two potential storage sites in… Continue reading Central Appalachian Basin CarbonSAFE Integrated Prefeasibility Project
The US Steel Corporation and the DOE’s National Energy Technology Laboratory (NETL) are testing an advanced membrane technology to capture CO2 emissions generated by steelmaking operations at the US Steel’s Edgar Thomson Plant, located in Braddock, Pennsylvania. The project is part of the U.S. Department of Energy/NETL Point Source Carbon Capture Program. Compared to other… Continue reading Edgar Thomson Plant CO2 Capture Test
A carbon capture technology system at the Tennessee Valley Authority’s (TVA) natural gas facility in Drakesboro, Kentucky. TVA is working with TC Energy to jointly invest $1.25 million to study carbon capture technology to reduce emissions at TVA’s facilities in Ackerman, Mississippi, and in Drakesboro, Kentucky.
A carbon capture technology system at the Tennessee Valley Authority’s (TVA) natural gas facility in Ackerman, Mississippi. TVA is working with TC Energy to jointly invest $1.25 million to study carbon capture technology to reduce emissions at TVA’s facilities in Ackerman, Mississippi, and in Drakesboro, Kentucky.
A potential CCUS system at PacifiCorp’s Jim Bridger Units 3 and 4, in Wyoming. In 2017, as part of the Integrated CCS Pre-Feasibility phase of the CarbonSAFE Initiative, the University of Wyoming, in partnership with DOE, will perform a phase I pre-feasibility assessment for secure, commercial-scale CO2 capture and storage at the Rock Springs Uplift,… Continue reading Jim Bridger CCUS Retrofit
The University of Utah and its partners identified a practical commercial-scale carbon capture and storage (CCS). Objectives included identifying and quantifying technical requirements as well as attributes that maximize economic feasibility and public acceptance of an eventual storage project. The primary outcome of the project, also called the CarbonSAFE Rocky Mountains Phase I project, was… Continue reading Utah CarbonSAFE carbon storage