2021
DOI: 10.1021/acssuschemeng.1c01367
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Chemical Kinetics of the Autoxidation of Poly(ethylenimine) in CO2 Sorbents

Abstract: The oxidative degradation rates of a CO 2 sorbent composed of a mesoporous alumina impregnated with poly-(ethylenimine) (PEI) are measured under systematically varied conditions and a reaction rate law is created. Good agreement is shown between the rate of oxidation obtained via in situ calorimetric heat measurement during oxidative degradation reactions and the loss of CO 2 capture performance presented as amine efficiency (mol CO 2 /mol amine). PEI mass loss and elemental composition are tracked over the co… Show more

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Cited by 30 publications
(64 citation statements)
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“…The most recent work on sorbent development has focussed on understanding and mitigating oxidative degradation and urea formation in silica-supported amines, which have been found to occur during elevated-temperature sorbent regeneration and in CO 2rich atmospheres, respectively. [227][228][229][230][231] This has involved the use of functionalisation which modifies the distribution of primary, secondary and tertiary amines, 229 and to remove oxidation-catalysing metal ions, 232 which together results in an order of magnitude decrease in deactivation rate compared to the archetypal PEI on mesoporous silica. The use of hierarchical silica structures with meso-and macro-porosity, which may be more suitable for scale-up, results in increased CO 2 capacity under DAC conditions with PEI, 233 whilst replacing PEI with poly(propylenimine) (PPI) on mesoporous silicas results in increased capacity and higher resistance to oxidative degradation (Fig.…”
Section: The Development Of Established Sorption-based Direct Air Cap...mentioning
confidence: 99%
“…The most recent work on sorbent development has focussed on understanding and mitigating oxidative degradation and urea formation in silica-supported amines, which have been found to occur during elevated-temperature sorbent regeneration and in CO 2rich atmospheres, respectively. [227][228][229][230][231] This has involved the use of functionalisation which modifies the distribution of primary, secondary and tertiary amines, 229 and to remove oxidation-catalysing metal ions, 232 which together results in an order of magnitude decrease in deactivation rate compared to the archetypal PEI on mesoporous silica. The use of hierarchical silica structures with meso-and macro-porosity, which may be more suitable for scale-up, results in increased CO 2 capacity under DAC conditions with PEI, 233 whilst replacing PEI with poly(propylenimine) (PPI) on mesoporous silicas results in increased capacity and higher resistance to oxidative degradation (Fig.…”
Section: The Development Of Established Sorption-based Direct Air Cap...mentioning
confidence: 99%
“…105,[130][131][132][133][134] The chemical kinetics of the oxidation of PEI have also been well illustrated to quantitatively estimate the material lifetime. 135 Considering that water vapor is a ubiquitous component of air, understanding its impact on CO 2 adsorption is critical. In the presence of amine-containing adsorbents, water is an excellent promoter of CO 2 adsorption; it increases the rate of CO 2 capture and is even necessary for long-term stability.…”
Section: Overview Of Adsorption-based Dac Technologiesmentioning
confidence: 99%
“…Accelerated oxidative treatment by exposing sorbent samples to an oxygen atmosphere is usually deployed to simulate the oxidative processes in actual applications for amine-loaded adsorbents. 119,130,[132][133][134][135]254,[382][383][384][385][386]391 The variation in CO 2 capacity or amine efficiency before and after accelerated oxidative treatment is used to determine the oxidative stability of the samples. This variation commonly results from the O 2 -induced deactivation.…”
Section: Alternative Amine Polymersmentioning
confidence: 99%
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