A New Reactive Absorption Model Using Extents of Reaction and Activities. I. Application to Alkaline-salts-CO2 Systems - IMT Mines Albi-Carmaux Accéder directement au contenu
Article Dans Une Revue Chemical Engineering Science Année : 2023

A New Reactive Absorption Model Using Extents of Reaction and Activities. I. Application to Alkaline-salts-CO2 Systems

Résumé

CO2 absorption into basic aqueous solutions is widely used for CO2 separation from gas streams (e.g., for natural gas purification). CO2 loading and ionic strength increase significantly along industrial columns. In absorption modelling, deviation from ideality should then be considered. This study implements a general steady-state model for reactive gas-liquid absorption. Firstly, equilibrium relations, Nernst-Planck diffusion fluxes and reaction rates are written based on activities. Secondly, local fluxes are related by stochiometric constraints through extents of reaction. In a first case study, the model, together with an appropriate thermodynamic representation, was applied with the stagnant film theory (Whitman, 1923) to alkaline salts-water-CO2 systems. The following Arrhenius expression was found for the direct kinetic constant of reaction CO2 + HO- ↔ HCO3-: lnk (m3.mol-1.s-1) = 19.84 - 5248.8/T (K) – 12% overall AAD. This kinetic law can be used in any system involving this reaction (e.g., aqueous amine solutions). This part I paves the way to the further study of CO2 absorption into aqueous amine solutions.
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hal-03964825 , version 1 (31-01-2023)

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Serena Delgado, Alain Gaunand, Christophe Coquelet, Renaud Cadours, Céline Volpi. A New Reactive Absorption Model Using Extents of Reaction and Activities. I. Application to Alkaline-salts-CO2 Systems. Chemical Engineering Science, 2023, 270, pp.118522. ⟨10.1016/j.ces.2023.118522⟩. ⟨hal-03964825⟩
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