In this work, a yellow tuffhas been proposed for the first time as sorbent for CO2 capture. Dynamic breakthrough experiments have been performed in a fixed bed reactor at different temperatures (25-150 °C) and CO2 partial pressures (0.01-0.20 atm), focusing on the process thermodynamics and kinetics. The thermodynamic and ki- netic studies highlighted that the CO2 adsorption on the tuff in the low pressure region typical of combustion flue gases can be properly described by Freundlich's isotherm model and by the pseudo-first order kinetic model, respectively, thus indicating a physical, multilayer and heterogeneous surface binding mechanism. Based on the results obtained, it has been demonstrated that, in the framework of a real application for post- combustion CO2 capture, the natural tuff, i.e. a low-cost natural sorbent, could be more conveniently employed in vacuum swing or mixed mode in order to minimize the energy penalty of the process.

Fixed bed adsorption as affected by thermodynamics and kinetics: Yellow tuff for CO2 capture

Paola Ammendola
Primo
;
Federica Raganati
Secondo
;
Riccardo Chirone;Francesco Miccio
2020

Abstract

In this work, a yellow tuffhas been proposed for the first time as sorbent for CO2 capture. Dynamic breakthrough experiments have been performed in a fixed bed reactor at different temperatures (25-150 °C) and CO2 partial pressures (0.01-0.20 atm), focusing on the process thermodynamics and kinetics. The thermodynamic and ki- netic studies highlighted that the CO2 adsorption on the tuff in the low pressure region typical of combustion flue gases can be properly described by Freundlich's isotherm model and by the pseudo-first order kinetic model, respectively, thus indicating a physical, multilayer and heterogeneous surface binding mechanism. Based on the results obtained, it has been demonstrated that, in the framework of a real application for post- combustion CO2 capture, the natural tuff, i.e. a low-cost natural sorbent, could be more conveniently employed in vacuum swing or mixed mode in order to minimize the energy penalty of the process.
2020
Istituto di Ricerche sulla Combustione - IRC - Sede Napoli
Istituto di Scienza, Tecnologia e Sostenibilità per lo Sviluppo dei Materiali Ceramici - ISSMC (ex ISTEC)
Fixed bed adsorption
Thermodynamics/kinetics Tuff
Tuff
Zeolites
Langmuir/Freundlich isotherms
Pseudo-first/pseudo-second order kinetic models
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/408697
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