Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products

Clàudia Rosa Hernández Narciso; Cristina G. Martínez; Brendan O’Connell; Sabrina Belén Rodriguez Reartes; Fèlix Llovell; J. P.Martin Trusler; Kyra L. Sedransk Campbell

doi:10.1021/acs.jced.4c00077

Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products

Clàudia Rosa Hernández Narciso
, Cristina G. Martínez
, Brendan O’Connell
, Sabrina Belén Rodriguez Reartes
, Fèlix Llovell^*
, J. P.Martin Trusler
, Kyra L. Sedransk Campbell

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

4 Citas (Scopus)

Resumen

The impact of the degradation of monoethanolamine (MEA) on the physicochemical properties of the solvent is experimentally characterized. Based on the identification of three main degradation products of MEA: oxazolidine-2-one (OZD), N-(2-hydroxyethyl)ethylenediamine (HEEDA), and 1-(2-hydroxyethyl)-2-imidazolidinone (HEIA), new measurements for the density, surface tension, and viscosity of partially carbonated solutions containing water, MEA and those products were conducted at different MEA/degradation product molar ratios. The experiments covered a temperature range from 298.15 to 353.15 K at atmospheric pressure. The more stable and impactful degradation product, HEIA, was analyzed separately to determine its vapor pressure, as well as the density and viscosity of aqueous solutions with HEIA mass fractions of 100, 75, 50, and 25% in the same temperature range. The reported data demonstrate the difference in the performance of aqueous MEA solutions containing degradation products as compared to a fresh solution. This aspect is crucial for understanding the impact and effectiveness of postcombustion CO₂ capture using aqueous amine systems in an industrial setting.

Idioma original	Inglés
Páginas (desde-hasta)	3435-3449
Número de páginas	15
Publicación	Journal of Chemical and Engineering Data
Volumen	69
N.º	10
DOI	https://doi.org/10.1021/acs.jced.4c00077
Estado	Publicada - 10 oct 2024
Publicado de forma externa	Sí

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title = "Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products",

abstract = "The impact of the degradation of monoethanolamine (MEA) on the physicochemical properties of the solvent is experimentally characterized. Based on the identification of three main degradation products of MEA: oxazolidine-2-one (OZD), N-(2-hydroxyethyl)ethylenediamine (HEEDA), and 1-(2-hydroxyethyl)-2-imidazolidinone (HEIA), new measurements for the density, surface tension, and viscosity of partially carbonated solutions containing water, MEA and those products were conducted at different MEA/degradation product molar ratios. The experiments covered a temperature range from 298.15 to 353.15 K at atmospheric pressure. The more stable and impactful degradation product, HEIA, was analyzed separately to determine its vapor pressure, as well as the density and viscosity of aqueous solutions with HEIA mass fractions of 100, 75, 50, and 25\% in the same temperature range. The reported data demonstrate the difference in the performance of aqueous MEA solutions containing degradation products as compared to a fresh solution. This aspect is crucial for understanding the impact and effectiveness of postcombustion CO2 capture using aqueous amine systems in an industrial setting.",

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Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products. / Hernández Narciso, Clàudia Rosa; Martínez, Cristina G.; O’Connell, Brendan et al.
En: Journal of Chemical and Engineering Data, Vol. 69, N.º 10, 10.10.2024, p. 3435-3449.

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

TY - JOUR

T1 - Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products

AU - Hernández Narciso, Clàudia Rosa

AU - Martínez, Cristina G.

AU - O’Connell, Brendan

AU - Rodriguez Reartes, Sabrina Belén

AU - Llovell, Fèlix

AU - Trusler, J. P.Martin

AU - Sedransk Campbell, Kyra L.

PY - 2024/10/10

Y1 - 2024/10/10

N2 - The impact of the degradation of monoethanolamine (MEA) on the physicochemical properties of the solvent is experimentally characterized. Based on the identification of three main degradation products of MEA: oxazolidine-2-one (OZD), N-(2-hydroxyethyl)ethylenediamine (HEEDA), and 1-(2-hydroxyethyl)-2-imidazolidinone (HEIA), new measurements for the density, surface tension, and viscosity of partially carbonated solutions containing water, MEA and those products were conducted at different MEA/degradation product molar ratios. The experiments covered a temperature range from 298.15 to 353.15 K at atmospheric pressure. The more stable and impactful degradation product, HEIA, was analyzed separately to determine its vapor pressure, as well as the density and viscosity of aqueous solutions with HEIA mass fractions of 100, 75, 50, and 25% in the same temperature range. The reported data demonstrate the difference in the performance of aqueous MEA solutions containing degradation products as compared to a fresh solution. This aspect is crucial for understanding the impact and effectiveness of postcombustion CO2 capture using aqueous amine systems in an industrial setting.

AB - The impact of the degradation of monoethanolamine (MEA) on the physicochemical properties of the solvent is experimentally characterized. Based on the identification of three main degradation products of MEA: oxazolidine-2-one (OZD), N-(2-hydroxyethyl)ethylenediamine (HEEDA), and 1-(2-hydroxyethyl)-2-imidazolidinone (HEIA), new measurements for the density, surface tension, and viscosity of partially carbonated solutions containing water, MEA and those products were conducted at different MEA/degradation product molar ratios. The experiments covered a temperature range from 298.15 to 353.15 K at atmospheric pressure. The more stable and impactful degradation product, HEIA, was analyzed separately to determine its vapor pressure, as well as the density and viscosity of aqueous solutions with HEIA mass fractions of 100, 75, 50, and 25% in the same temperature range. The reported data demonstrate the difference in the performance of aqueous MEA solutions containing degradation products as compared to a fresh solution. This aspect is crucial for understanding the impact and effectiveness of postcombustion CO2 capture using aqueous amine systems in an industrial setting.

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Thermophysical Behavior of Carbonated Aqueous Solutions Containing Monoethanolamine and Degradation Products

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