KGS Releases Report on Kentucky's Potential for Compressed Air Energy Storage (CAES)

The latest KGS report of investigations, Assessing Compressed Air Energy Storage (CAES) Potential in Kentucky to Augment Energy Production from Renewable Resources, outlines results from a 2020 Energy Research Prioritization Partnership seed grant through the University of Kentucky. Read excerpts below and access the full publication through the KY Geode, the KGS online publications and data repository, or through UKnowledge, the University of Kentucky's digital scholarship collection.

The background image depicts the PowerSouth Energy Cooperative CAES plant in McIntosh, Alabama, United States.


Fossil fuel power plants in Kentucky have some of the highest emissions of greenhouse gases in the United States. One potential strategy for mitigating greenhouse gasses from electric power generation is the co-installation of Compressed Air Energy Storage (CAES) and a renewable source such as photovoltaic solar electricity generation (PV solar generation). CAES with complementary co-installed PV solar generation enhances stand-alone PV solar generation because CAES power is available at night. CAES, however, requires both a site where large volumes of compressed air can be stored in the subsurface, and a heat source to prepare the stored air prior to entering the electricity-generating turbines. Co-installed PV solar electricity can provide the required thermal energy, but compressed air storage can be problematic. The two existing CAES plants, in Germany and Alabama, store compressed air in subsurface solution-mined salt caverns, however the thick salt deposits necessary to develop a compressed air storage cavern are not a part of Kentucky's geology. Six compressed air storage models were reviewed as part of this project: acid solution-mined caverns, abandoned limestone mines, advanced energy storage in mined air storage chambers, depleted gas fields aquifer storage; and cased wellbore energy storage. Each of these models has the potential for application in Kentucky. Two issues need to be addressed in applying CAES and its variations in Kentucky: ownership of the subsurface pore space where compressed air would be stored in depleted geologic reservoirs and aquifers, and social equity of the CAES electric power generation process. Pore space ownership is addressed under both state and federal law, generally from the standpoint of natural gas storage in depleted gas fields. These storage reservoirs would require an Environmental Protection Agency (EPA) injection permit. CAES models that do not impact porosity or groundwater may require other state and federal operational permits. Because CAES is both site-flexible and easily scalable, it provides a starting point for the conversation surrounding energy equity in the U.S. CAES with co-installed PV solar electricity generation provides a path to equitable power generation for all Americans.

Statement of Benefit to Kentucky

This report describes several kinds of underground compressed air energy storage models which have the potential to become an economical low-carbon renewable energy resource, with a focus on those methods that work best in Kentucky.

Last Modified on 2023-09-01
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