Journal article

Impact of operating parameters on CO2 capture using carbon monolith by Electrical Swing Adsorption technology (ESA)

Q Zhao, F Wu, Y He, P Xiao, PA Webley

Chemical Engineering Journal | ELSEVIER SCIENCE SA | Published : 2017

Abstract

Electrical Swing Adsorption (ESA) technology is an interesting option for rapid temperature swing adsorption to capture CO2 due to its highly efficient and rapid regeneration with the Joule effect. Electric current, electrification time and N2 purge rate have strong effects on ESA processing performance. In this study, these operating parameters were investigated experimentally and theoretically, for their effect on CO2 product purity, recovery, harvest time and energy consumption. For a feed stream of 15% CO2 balanced with N2 using a MAST© carbon monolith, CO2 purity and energy consumption significantly increased as electric current and electrification time increased; CO2 recovery increased..

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University of Melbourne Researchers

Grants

Funding Acknowledgements

We acknowledge the financial support of The University of Melbourne as well as the funding provided by Brown Coal Innovation Australia. We acknowledge useful discussions with partners in the European Commission Framework 7 MATESA project.