Holcim US partners with Ohio State and GTI Energy to bring carbon capture tech to scale

Holcim US, the Ohio State University, and GTI Energy are joining forces to design, build and test what they say is a cost-effective membrane carbon capture technology.
Concrete Plants, Equipment & Applications / January 25, 2024
By Liam McLoughlin
Holcim US says the initiative will pave the way for lower cost carbon capture in the cement and industrial sectors
Holcim US says the initiative will pave the way for lower cost carbon capture in the cement and industrial sectors

The initiative is funded in part by the U.S. Department of Energy’s Office of Fossil Energy and Carbon Management (FECM) with cost share contributions from Holcim.

Membrane technology from Ohio State will be employed in the project, targeting the capture of 95-99% of CO2 from cement kiln gas with a purity exceeding 95% and lower energy demand.

“We are excited to demonstrate Ohio State’s highly selective membrane technology for carbon dioxide capture from a cement plant,” said Yang Han, Ohio State College of Engineering research scientist. “Our membrane technology makes it possible to capture up to 99% of the carbon emissions from cement manufacturing, which can be stored underground, used to strengthen concrete, or transformed into valuable products. This technology, with its simple operation and minimal utility needs, provides an easy retrofit for cement plants, bringing sustainable building solutions one step closer to reality.”

FECM recently announced the selection of the project to receive up to US$7m in federal funding for the design and testing of an engineering-scale carbon capture system at a Holcim cement plant in Holly Hill, South Carolina.

Ohio State’s facilitated transport membrane technology has undergone extensive system-level, proof-of-concept and performance validation testing at the National Carbon Capture Center, providing the confidence in this technology for application at Holcim US as a next stage for development. Testing in an industrial environment will advance it for commercial deployment and validate the expected benefits of the application to the cement industry. GTI Energy will support the development of the pilot skid for site deployment.

“GTI Energy is not merely testing innovative carbon management solutions, we are demonstrating their real-world viability and economic potential,” said Don Stevenson, GTI Energy’s vice president of carbon management & conversion. “This project will showcase the power of collaboration and innovation in tackling the complex challenge of transitioning to cleaner energy systems.”

Carbon Capture Utilization and Storage (CCUS) is a pivotal focus in Holcim’s decarbonization strategy. The Ohio State membrane technology stands out as a promising solution to reduce energy consumption and costs in the carbon capture process. Holcim, by leading in the development of this technology, aims to significantly cut down the cost of carbon capture, positioning the company as an early adopter and innovator in the industry.

“Across Holcim, we are investigating all avenues to reduce carbon emissions in our operations, utilizing cutting edge technology and forming strategic partnerships as integral components of our path towards achieving net zero by 2050,” said Derick Dreyer, head of Industrial Development and Decarbonization for Holcim North America. “The development and implementation of cost-effective carbon capture technologies are key to meeting our decarbonization goals.”

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