Battelle completes carbon storage project in Ohio Valley energy corridor
Battelle began developing the foundations for the carbon dioxide storage project at AEP's Mountaineer Power Plant in New Haven, W.Va. in 2003
Columbus, Ohio, July 21, 2011 — Battelle carbon sequestration experts collaborated with American Electric Power to complete a small-scale carbon capture and storage test at a coal-fired power plant.
The collaboration that grew over the last eight years has led to many geologic, engineering, field implementation, and regulatory firsts, with regional and global impact for CCS technology development.
Battelle began developing the foundations for the carbon dioxide storage project at AEP's Mountaineer Power Plant in New Haven, W.Va. in 2003 and used funding from the Department of Energy, AEP, the state of Ohio and other sources to learn about the geology of the area and determine whether CO2 could be stored there.
This work was fundamental to AEP's 2007 decision to deploy a 20-MW pilot-scale capture and storage system at Mountaineer, with Battelle as the lead contractor for geologic storage site development. Operational in 2009, the Mountaineer project put together capture, transport, injection, storage and monitoring in the same coal-fired power plant.
More than 30 geoscientists and engineers from Battelle's Energy Systems Group and several other divisions led the injection, geologic storage, and monitoring efforts at the Mountaineer plant.
Battelle's proven carbon storage approach was a key component in AEP's successful proposal for a 235-MW scale-up under the DOE's Clean Coal Power Initiative program. Battelle was subsequently selected by AEP as the lead geologic storage contractor after a competitive selection process for the project definition phase involving geologic characterization, conceptual system design, and cost assessment.
As a part of this effort, Battelle drilled a new well two miles from the plant to confirm the continuity of storage horizons. Battelle will complete this phase of work during the next two months. In addition to the progress made understanding the geology and storage potential, many of the methodologies and analytical tools that were adapted for this project are expected to be useful for other ongoing programs that are focused on developing this important technology.
The Ohio Valley region of the Appalachian Basin has a high concentration of coal-fired power plants. The use of local and regional vendors in executing the work infused more than $40 million into the economy of the Appalachian Basin, helped many small businesses, and served to expand scientific and technological expertise in this emerging field of technology in Ohio and surrounding states.