Thermodynamic Study of a Complex System for Carbon Capture: Butyltriacetonediamine + Water + Carbon Dioxide

Vasiliu, Dan; Yazdani, Amir; McCann, Nichola; Irfan, Muhammad; Schneider, Rolf; Rolker, Jörn; Maurer, Gerd; Harbou, Erik von; Hasse, Hans

doi:10.1021/acs.jced.6b00451

Cited by 9 publications

(24 citation statements)

References 31 publications

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“…The number behind EvA designates the derivate. Physicochemical properties of two of these EvAs were thoroughly studied in previous works of our group [26,27].…”

Section: Introductionmentioning

confidence: 99%

Triacetoneamine-derivates (EvAs) for CO2-absorption from process gases

Kessler

Ninni

Vasiliu

et al. 2020

International Journal of Greenhouse Gas Control

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New amines for reactive absorption of CO 2 from process gases were investigated in a comprehensive experimental screening. All studied amines are derivates of triacetoneamine and differ only in the substituent of the triacetoneamine ring structure. The amines are abbreviated by the acronym EvA with a consecutive number, designating the derivate. About 50 EvAs were considered in this work from which 26 were actually synthesized and investigated in aqueous solution. The mass fraction of the amines in the unloaded solution was eitherw 0 EvA = 0.05 g/g orw 0 EvA = 0.4 g/g. The following properties were studied: solubility of CO 2 , rate of absorption of CO 2 , liquid-liquid and solid-liquid equilibrium, foaming behavior, dynamic viscosity, and acid constants. The nine most promising EvAs were evaluated with the NoVa short-cut method [1]. The method yields estimates for the specific energy demand and recirculation rate for a given purification task. Two typical purification tasks were considered: the CO 2 -removal from natural gas and from synthesis gas, respectively. Some of the EvAs showed significantly improved performance compared to monoethanolamine (MEA) and a solvent-blend of methyl-diethanolamine and piperazine (MDEA/PZ).

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“…The number behind EvA designates the derivate. Physicochemical properties of two of these EvAs were thoroughly studied in previous works of our group [26,27].…”

Section: Introductionmentioning

confidence: 99%

Triacetoneamine-derivates (EvAs) for CO2-absorption from process gases

Kessler

Ninni

Vasiliu

et al. 2020

International Journal of Greenhouse Gas Control

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“…The model of Ermatchkov et al, 14 which is based on the extended Pitzer equations, was used for calculating data points for MDEA30. The experimental data of Vasiliu et al 10 was used for BuTAD30.…”

Section: Resultsmentioning

confidence: 99%

“…Top: MEA30 (313, 353, 393) K, experimental data from Wagner et al 13 Middle: MDEA30 (313, 333, 353, 393) K, data from a physico-chemical model. 14 Bottom: BuTAD30 (313, 323, 333, 393) K, experimental data from Vasiliu et al 10 in the three solvents were determined. The integral is evaluated for the interval of the CO 2 partial pressure from 0 to 2 bar using Eq.…”

Section: Application Of the Solsoft Equationmentioning

confidence: 99%

“…The SolSOFT equation and the NoVa short-cut method are thoroughly discussed for the first time in this work. Nevertheless, they have already been employed in previous studies for evaluation of solvents for carbon capture (e.g., Vasiliu et al, 10 Kessler et al 11 ).…”

Section: Introductionmentioning

confidence: 99%

“…The new amine is butyltriacetonediamine (BuTAD), and has recently been studied by our group. 10 The reference amines are monoethanolamine (MEA) and methyldiethanolamine (MDEA). The solvents were aqueous solutions with 0.3 g/g amine.…”

Section: Introductionmentioning

confidence: 99%

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Short-cut method for assessing solvents for gas cleaning by reactive absorption

Vasiliu

Kessler

Harbou

et al. 2020

Chemical Engineering Research and Design

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A new short-cut method (NoVa) for assessing solvents for gas cleaning by reactive absorption is presented. It considers the absorption / desorption cycle using the assumption of infinite number of stages in both columns. For a given feed and removal rate, the method yields an estimate for the specific regeneration energy q as a function of the solvent circulation rate L G. The sole solventdependent input consists of two correlations describing the gas solubility at absorber and desorber conditions and estimates of caloric properties. Furthermore, a simple equation (SolSOFT) for correlating the gas solubility as a function of the gas loading of the solvent is presented. A theoretical analysis of the process reveals general properties of the dependency of q on L G. The NoVa method is described and tested using amine-based solvents for post combustion carbon capture as examples.

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