Studies on the kinetics of carbon dioxide absorption with immobilised amines (IA)

Zhang, X.; Schubert, S.; Gruenewald, Marco; Agar, David W.

doi:10.1016/j.cej.2004.12.015

Cited by 10 publications

(5 citation statements)

References 4 publications

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“…The reaction mechanism of CO 2 with the amines immobilized on a solid carrier has been extensively analyzed. [50][51][52][53] Generally, it is very complicated due to the additional occurrence of physisorption on the surface and the open pores of the solid supports. However, a typical reaction pathway that is frequently presented for immobilized primary amines is as follows: 51…”

Section: Gas Permeationmentioning

confidence: 99%

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

2014

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Section: Gas Permeationmentioning

confidence: 99%

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

2014

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“…In general, the third phase (solid or liquid) dispersed in a gas-liquid system can be a reagent, substrate or a heterogeneous catalyst. Although the majority of works are focused in gas-liquid-solid systems [1][2][3], gas-liquid-liquid systems are gaining importance due to the increase of this type of application in bioprocess and homogeneous catalysis systems [4].…”

Section: Introductionmentioning

confidence: 99%

Oxygen mass transfer to emulsions in a bubble column contactor

Gómez‐Díaz

Gomes

Teixeira

et al. 2009

Chemical Engineering Journal

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Present work deals with oxygen mass transfer in an oil-in-water biphasic medium, employed in the production of ␥-decalactone by the biotransformation of methyl ricinoleate. A bubble column contactor was used to carry out the absorption experiments. The influence of operating conditions (gas flow-rate and organic phase composition) upon the gas-liquid interfacial area and mass transfer coefficient has been analysed and experimental results allow describing the mechanism of oxygen transfer from gas phase into the biphasic medium.

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“…Reaction of Absorbing CO 2 in MEA Solvent. Many works 3,4,6,12,19,20 have reported the mechanism of CO 2 chemical absorption using MEA solvent. All reactions including MEA dissociation and CO 2 absorption can be expressed as eqs 1 to 5.…”

Section: ■ Theoretical Backgroundmentioning

confidence: 99%

“…Many works ,,,,, have reported the mechanism of CO 2 chemical absorption using MEA solvent. All reactions including MEA dissociation and CO 2 absorption can be expressed as eqs to . RNH 2 + normalH 2 normalO ↔ RNH 3 + + OH − CO 2 ( g ) ↔ CO 2 ( aq ) OH − + CO 2 ( aq ) ↔ HCO 3 − 2 RNH 2 + CO 2 ( aq ) ↔ RNH 3 + + RNHCOO − RNHCOO − + CO 2 ( aq ) + 2 normalH 2 normalO ↔ RNH 3…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Estimation of Correlation between Electrical Conductivity and CO₂ Absorption in a Monoethanolamine Solvent System

Han

Wee

2013

J. Chem. Eng. Data

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The present paper reports the ionic conductivities of carbamic acid (C2H5ONH3 +) and carbamate (C2H5ONHCOO–) by analyzing the measured electrical conductivity (EC) variation according to the amount of CO2 absorbed in an aqueous monoethanolamine (MEA) solvent system. On the basis of these conductivities, the study also investigates the correlation between EC variation and the amount of CO2 absorbed in five MEA solvents with a concentration range of 0.1 M to 0.5 M. The study is underpinned by several assumptions, and a CO2 absorption experiment is carried out with the five MEA solvents. The ionic conductivity of C2H5ONH3 + and C2H5ONHCOO– is calculated as 73.60 S·cm2·mol–1·z–1 and 16.40 S·cm2·mol–1·z–1, respectively. An average error between the estimated EC (ECc) variation calculated via the correlation equation and the measured EC (ECm) variation obtained from the experiments is 6.92 % in five MEA solvents. However, the ECc in the 0.5 M MEA system is 10.22 % lower than ECm. This difference may be ascribed to the substantial deviation from the assumptions of the 0.5 M solvent due to its relatively high concentration which decreases the ionic activity coefficient of existing ions in the solvent.

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Studies on the kinetics of carbon dioxide absorption with immobilised amines (IA)

Cited by 10 publications

References 4 publications

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

Oxygen mass transfer to emulsions in a bubble column contactor

Estimation of Correlation between Electrical Conductivity and CO₂ Absorption in a Monoethanolamine Solvent System

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Studies on the kinetics of carbon dioxide absorption with immobilised amines (IA)

Cited by 10 publications

References 4 publications

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO2separation

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO2separation

Oxygen mass transfer to emulsions in a bubble column contactor

Estimation of Correlation between Electrical Conductivity and CO2 Absorption in a Monoethanolamine Solvent System

Contact Info

Product

Resources

About

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂separation

Estimation of Correlation between Electrical Conductivity and CO₂ Absorption in a Monoethanolamine Solvent System