In Situ IR Study on Effect of Alkyl Chain Length between Amines on Its Stability against Acidic Gases

In Situ IR Study on Effect of Alkyl Chain Length between Amines on Its Stability against Acidic Gases

For the CO2 capture process via the cyclic adsorption/desorption method, one emerging catalyst is the use of amine-functionalized silica. This study focused on comparing the CO2 capture performance of diamines with ethyl and propyl spacers and the degradation species formed after long-term exposure...

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Veröffentlicht in:Catalysts 2019-11, Vol.9 (11), p.910
Hauptverfasser: Pacia, Rose Mardie, Manianglung, Clinton, Ko, Young Soo
Format: Artikel
Sprache:eng
Schlagworte:
acidic gas
Adsorbents
Adsorption
Amines
Carbon dioxide
Carbon sequestration
Catalysts
catalytic amines
Chemical reactions
co2 capture
Degradation
Diamines
diaminosilane
Flue gas
Gases
High temperature
in situ ir
Infrared spectroscopy
Membrane separation
Nitrogen dioxide
propyl spacer
Silicon dioxide
Stability
Thermogravimetric analysis
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Zusammenfassung:For the CO2 capture process via the cyclic adsorption/desorption method, one emerging catalyst is the use of amine-functionalized silica. This study focused on comparing the CO2 capture performance of diamines with ethyl and propyl spacers and the degradation species formed after long-term exposure to various acidic gases such as SO2 and NO2 at elevated temperatures. Adsorbents were prepared via the incipient wetness technique and then subjected to thermogravimetric measurements and in situ FT-IR analyses. 2NS-P/Kona95, which contains a propyl spacer, showed fewer degradation species formed based on its IR spectra and better stability with its long-term exposure to various acidic gases. Thus, the incorporation of amines with a large number of nitrogen groups of propyl or longer spacer length could be a promising CO2 capture material.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal9110910