Cryogenic Carbon Capture Development Email Page
Print This Page
Performer:  Sustainable Energy Solutions, LLC Location:  Orem, Utah
Project Duration:  10/01/2016 – 03/31/2019 Award Number:  FE0028697
Technology Area:  Post-Combustion Capture Total Award Value:  $4,708,754
Key Technology:  Novel Concepts DOE Share:  $3,742,884
Performer Share:  $965,870

Cryogenic Carbon Capture™ process implemented<br/>using an External Cooling Loop (ECL)™ system
Cryogenic Carbon Capture™ process implemented
using an External Cooling Loop (ECL)™ system

Project Description

Sustainable Energy Solutions (SES), with their partners Brigham Young University, Electric Power Research Institute, and Tri-State Generation & Transmission Association, Inc., will further advance the external cooling loop version of their Cryogenic Carbon Capture™ (CCC) technology. SES has developed the CCC technology under previous research funded by an Advanced Research Projects Agency-Energy (ARPA-E) project, titled "Cryogenic Carbon Capture" (DE-AR0000101), the State of Wyoming, and others. Process improvements will be implemented that address issues discovered during the previous research. The CCC technology uses phase change to separate carbon dioxide (CO2) and other pollutants from coal-derived flue gas. Cooling the CO2 to approximately -140°C results in the gas transforming into a solid without passing through the liquid phase (desublimation); the CO2 is then separated from the remaining gas, pressurized, and melted. The CCC process is minimally invasive and highly efficient, effectively utilizing heat integration to achieve a 50 percent reduction in parasitic power demand compared to an amine absorption process. The team will improve key areas of the process through iterative design and experiment, culminating with a recommendation for improvements to be integrated into the existing skid-scale CCC-External Cooling Loop (ECL)™ system. Sustainable Energy Solutions will then integrate the improvements into the skid system and perform testing of the modified skid using simulated and actual flue gas for at least 500 continuous hours. Test results and process modeling will be used to update the techno-economic analyses of the CCC technology.

Predecessor Project: DE-AR0000101

Project Benefits

Sustainable Energy Solutions’ innovative CCC process has the potential to reduce carbon emissions from coal-fired power plants by 95 to 99 percent and remove other pollutants, such as sulfur oxides, nitrogen oxides, and mercury, at half the cost and energy of alternative carbon capture technologies. Successful completion of this project will increase the reliability, efficiency, and scalability of the CCC process to make significant progress toward the U.S. Department of Energy’s (DOE) goal of $40/tonne of CO2 captured by 2025.

Presentations, Papers, and Publications

Contact Information

Federal Project Manager David Lang:
Technology Manager Lynn Brickett:
Principal Investigator Larry Baxter: