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Simulated Moving Bed Process for CO2 Capture from Humid Postcombustion Flue Gases Using MUF-16.

Akriti Sarswat1, Yoseph A Guta1, Mario Zorrilla-Valtierra1

  • 1School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, Georgia 30332-0100, United States.

ACS Applied Materials & Interfaces
|October 29, 2025
PubMed
Summary
This summary is machine-generated.

A novel simulated moving bed (SMB) process effectively captures carbon dioxide (CO2) from flue gas using MUF-16 material. This method efficiently separates CO2 from water without a desiccant, optimizing postcombustion capture.

Keywords:
CO2 capture from humid flue gasacid gas stability in MOFsmetal−organic frameworkspostcombustion capture of CO2simulated moving bed

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Area of Science:

  • Chemical Engineering
  • Materials Science
  • Environmental Science

Background:

  • Simulated moving bed (SMB) technology is increasingly applied for multicomponent gas mixture separations.
  • Carbon capture from postcombustion flue gas is crucial for mitigating climate change.

Purpose of the Study:

  • To develop a modified SMB process for efficient CO2 capture from humid flue gas.
  • To evaluate the suitability of MUF-16 material for this specific separation task.

Main Methods:

  • Utilized MUF-16, a material with high CO2 selectivity and moderate adsorption heats for CO2 and water.
  • Designed a continuous SMB process using nitrogen (N2) as a desorbent for water.
  • Conducted single-component isotherms, breakthrough experiments, and SO2 stability tests.

Main Results:

  • MUF-16 demonstrated excellent selectivity for CO2 over N2 and no competitive CO2 sorption over water.
  • The proposed SMB process effectively uses N2 to desorb water, eliminating the need for a separate desiccant.
  • Localized heating during desorption was feasible for water-saturated beds.

Conclusions:

  • MUF-16 is highly suitable for CO2 capture from humid flue gas using the proposed SMB design.
  • The innovative process offers an efficient and potentially more economical approach to carbon capture.
  • This work advances the application of advanced materials in continuous gas separation technologies.