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Examining the Reactions of Ethanolamine’s Thermal Degradation Compounds in Carbon Capture through <sup>1</sup>H NMR and <sup>13</sup>C NMR

Thomas Jorgensen, Kunlei Liu, Jesse Thompson

2024Industrial & Engineering Chemistry Research10 citationsDOIOpen Access PDF

Abstract

In amine scrubbing carbon capture, concerns about amine solvent degradation include whether it can affect the ability of the solvent to capture CO 2 . This study examines the interactions between the three most reported monoethanolamine (MEA) thermal degradation compounds─namely, oxazolidine-2-one (OZD), N -(2-hydroxyethyl)-ethylenediamine (HEEDA), and N -(2-hydroxyethyl)-imidazoline-2-one (HEIA)─with CO 2 in the presence and absence of MEA. We compared 1 H NMR, 13 C NMR, and heteronuclear single-quantum coherence (HSQC) NMR for neat OZD, HEEDA, and HEIA samples with CO 2 -loaded samples to observe changes in protonation and unique carbamate species formation. We found that OZD and HEIA did not directly react with CO 2 or undergo proton shifting based on our comparison of the neat OZD and HEIA samples with CO 2 -loaded spectra. However, we observed that the OZD can protonate when sparged with CO 2 in the presence of MEA, which suggests that the OZD acts as an intermediate. The NMR spectra for HEEDA indicated that HEEDA directly reacts with CO 2 at both amino groups and can protonate. In the presence of MEA, HEEDA and MEA can act like a solvent blend, resulting in multiple carbamates forming within the solvent. The neat HEIA spectrum, compared with CO 2 -loaded HEIA spectra, revealed similar results as OZD, where it does not react with CO 2 or protonate directly. However, HEIA does not protonate in the presence of MEA. These degradation compound reactions can increase the number of general equilibrium reactions during carbon capture and impact the model MEA solvent. This work helps provide a more complete picture of the reactions as the solvent degrades. Although this study examines CO 2 effects on thermal degradation products for MEA, other amines such as piperazine or 1-amino-3-propanol will degrade, and the degradation may speciate similarly with CO 2 . This study can impact and improve process models by assessing the degradation compounds’ reactions with CO 2 and potentially incorporating them into the model based on a neat solvent.

Topics & Concepts

ChemistrySolventProtonationHeteronuclear moleculeCarbon-13 NMRNMR spectra databaseHeteronuclear single quantum coherence spectroscopyNuclear magnetic resonance spectroscopyProton NMROrganic chemistrySpectral lineIonPhysicsAstronomyCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportPhase Equilibria and Thermodynamics