Strategic Fast Induction Heating to Combat Hysteresis Barriers in a Flexible MOF for Rapid CO2 Desorption in Biogas Upgrading (Small 29/2023)

Strategic Fast Induction Heating to Combat Hysteresis Barriers in a Flexible MOF for Rapid CO2 Desorption in Biogas Upgrading (Small 29/2023)

Metal–Organic Frameworks Mg‐Gallate metal–organic framework (MOF) has large hysteresis in its CO2 desorption isotherm, hindering efficient regeneration in adsorption swing processes. Utilizing combined induction heating and vacuum desorption under mild, energy‐efficient conditions boost regeneration...

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Veröffentlicht in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2023-07, Vol.19 (29), p.n/a
Hauptverfasser: Maity, Rahul, Gholami, Mohsen, Peter, Sunil A., Schoukens, Matthias, Tiriana, Segato, Baron, Gino V., Denayer, Joeri F. M.
Format: Artikel
Sprache:eng
Schlagworte:
adsorption
Biogas
Carbon dioxide
Desorption
fast regeneration
Ferromagnetic materials
flexibility and hysteresis
Hysteresis
Induction heating
Magnesium
Magnetic induction
magnetic induction heating
Metal-organic frameworks
Nanotechnology
Regeneration
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Zusammenfassung:Metal–Organic Frameworks Mg‐Gallate metal–organic framework (MOF) has large hysteresis in its CO2 desorption isotherm, hindering efficient regeneration in adsorption swing processes. Utilizing combined induction heating and vacuum desorption under mild, energy‐efficient conditions boost regeneration performance. A hybrid ferromagnetic Mg‐Gallate extrudate material gets heated up rapidly via magnetic induction and swiftly releases adsorbed CO2 molecules. More details can be found in article number 2302893 by Joeri F. M. Denayer and co‐workers.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.202370222