Application of a Heat Integrated Post-Combustion Carbon Dioxide Capture System with Hitachi Advanced Solvent into Existing Coal-Fired Power Plant Email Page
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Performer: University of Kentucky Research Foundation
The 0.7 MWe slipstream testing facility
The 0.7 MWe slipstream testing facility
Website: University of Kentucky
Award Number: FE0007395
Project Duration: 10/01/2011 – 03/31/2019
Total Award Value: $21,425,289
DOE Share: $15,652,303
Performer Share: $5,772,986
Technology Area: Post-Combustion Capture
Key Technology: Solvents
Location: Lexington, KY

Project Description

The University of Kentucky Center for Applied Energy Research, in partnership with the Electric Power Research Institute, Mitsubishi Hitachi Power Systems America, and Smith Management Group, will develop an advanced pilot-scale post-combustion carbon dioxide (CO2) capture system for a coal-fired power plant employing an innovative heat integration method designed to utilize waste heat from a Hitachi H3-1 advanced solvent carbon capture system while improving steam turbine efficiency. A two-stage stripping concept will be combined with the heat integration method to increase solvent capacity and capture rate in the CO2 scrubber. The advanced solvent utilized by the process has several advantages over conventional amine solvents, including lower heat of regeneration, higher capacity, and less solvent degradation. A 0.7 megawatt electrical (MWe) equivalent modular slipstream facility will be designed, constructed, and installed at the Kentucky Utilities E.W. Brown Generating Station, located near Harrodsburg, Kentucky. A technical and economic analysis of the process concept for a 550 MWe power plant will be completed to determine its potential to achieve the Department of Energy’s target of no more than a 35 percent increase in the cost of electricity while capturing at least 90 percent of the CO2 released during the combustion of fossil fuels in existing coal-fired power plants.

Project Benefits

This project focuses on the design, construction, and testing of a post-combustion heat integrated solvent-based CO2 capture system with a two-stage stripping process for solvent regeneration and a heat-integrated cooling tower system that recovers waste energy from the carbon capture platform. The overall effect will be improved power plant cooling tower and steam turbine efficiency leading to decreased capital and operating costs. The novel concepts and advanced solvent used in this project show promise of improving the overall plant efficiency and can be utilized to retrofit existing coal-fired power plants. Specifically, this project will implement the heat-integrated system in a 0.7 MWe slipstream pilot-scale unit.

Contact Information

Federal Project Manager José Figueroa:
Technology Manager Lynn Brickett:
Principal Investigator Kunlei Liu:


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