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Moving beyond 90% Carbon Capture by Highly Selective Membrane Processes

Yang Han, W.S. Winston Ho

2022Membranes19 citationsDOIOpen Access PDF

Abstract

A membrane-based system with a retentate recycle process in tandem with an enriching cascade was studied for >90% carbon capture from coal flue gas. A highly CO2-selective facilitated transport membrane (FTM) was utilized particularly to enhance the CO2 separation efficiency from the CO2-lean gases for a high capture degree. A techno-economic analysis showed that the retentate recycle process was advantageous for ≤90% capture owing to the reduced parasitic energy consumption and membrane area. At >90% capture, the enriching cascade outperformed the retentate recycle process since a higher feed-to-permeate pressure ratio could be applied. An overall 99% capture degree could be achieved by combining the two processes, which yielded a low capture cost of USD47.2/tonne, whereas that would be USD 42.0/tonne for 90% capture. This FTM-based approach for deep carbon capture and storage can direct air capture for the mitigation of carbon emissions in the energy sector.

Topics & Concepts

Flue gasCarbon capture and storage (timeline)TonneWaste managementEnvironmental scienceCascadeCarbon fibersCoalMembraneProcess engineeringMembrane technologyChemistryEngineeringMaterials scienceChromatographyComposite numberComposite materialBiochemistryClimate changeEcologyBiologyMembrane Separation and Gas TransportCarbon Dioxide Capture TechnologiesMembrane-based Ion Separation Techniques