Experimental study on the solvent regeneration of a CO2-loaded MEA solution using single and hybrid solid acid catalysts

Zhiwu Liang; Raphael Idem; Paitoon Tontiwachwuthikul; Fanghui Yu; Helei Liu; Wichitpan Rongwong

doi:10.1002/aic.15073

Experimental study on the solvent regeneration of a CO₂-loaded MEA solution using single and hybrid solid acid catalysts

Zhiwu Liang^*, Raphael Idem, Paitoon Tontiwachwuthikul, Fanghui Yu, Helei Liu, Wichitpan Rongwong

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

134 Citations (Scopus)

Abstract

The performance of a hybrid solid acid catalyst consisting of a physical mixture of γ-Al₂O₃ and H-ZSM-5 in terms of the rate and heat duty for solvent regeneration (i.e., CO₂ stripping) of a CO₂-rich MEA solution was compared with the individual performance of γ-Al₂O₃, H-ZSM-5, and H-Y solid acid catalysts using MEA (2-7 mol/L), with initial CO₂ loading of 0.5 mol CO₂/mol MEA at 378 K. It was observed that any catalyst significantly decreased the energy required for CO₂ regeneration. The performance of the catalysts investigated ranked as follows: γ-Al₂O₃/H-ZSM-5=2/1>γ-Al₂O₃>H-ZSM-5>H-Y if the process is in the lean CO₂ loading region whereas it was H-ZSM-5>γ-Al₂O₃/H-ZSM-5=2/1>γ-Al₂O₃>H-Y if the process is in the rich CO₂ loading region. These results highlight the joint dependence on Brønsted/Lewis acidity and mesopore surface area of heat duty for solvent regeneration.

Original language	English
Pages (from-to)	753-765
Number of pages	13
Journal	AIChE Journal
Volume	62
Issue number	3
DOIs	https://doi.org/10.1002/aic.15073
Publication status	Published - 1 Mar 2016
Externally published	Yes

Keywords

Brønsted and Lewis acid sites
Heat duty
MEA
Mesopore surface area
Solvent regeneration

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10.1002/aic.15073

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title = "Experimental study on the solvent regeneration of a CO2-loaded MEA solution using single and hybrid solid acid catalysts",

abstract = "The performance of a hybrid solid acid catalyst consisting of a physical mixture of γ-Al2O3 and H-ZSM-5 in terms of the rate and heat duty for solvent regeneration (i.e., CO2 stripping) of a CO2-rich MEA solution was compared with the individual performance of γ-Al2O3, H-ZSM-5, and H-Y solid acid catalysts using MEA (2-7 mol/L), with initial CO2 loading of 0.5 mol CO2/mol MEA at 378 K. It was observed that any catalyst significantly decreased the energy required for CO2 regeneration. The performance of the catalysts investigated ranked as follows: γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-ZSM-5>H-Y if the process is in the lean CO2 loading region whereas it was H-ZSM-5>γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-Y if the process is in the rich CO2 loading region. These results highlight the joint dependence on Br{\o}nsted/Lewis acidity and mesopore surface area of heat duty for solvent regeneration.",

keywords = "Br{\o}nsted and Lewis acid sites, Heat duty, MEA, Mesopore surface area, Solvent regeneration",

author = "Zhiwu Liang and Raphael Idem and Paitoon Tontiwachwuthikul and Fanghui Yu and Helei Liu and Wichitpan Rongwong",

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AU - Liang, Zhiwu

AU - Idem, Raphael

AU - Tontiwachwuthikul, Paitoon

AU - Yu, Fanghui

AU - Liu, Helei

AU - Rongwong, Wichitpan

PY - 2016/3/1

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N2 - The performance of a hybrid solid acid catalyst consisting of a physical mixture of γ-Al2O3 and H-ZSM-5 in terms of the rate and heat duty for solvent regeneration (i.e., CO2 stripping) of a CO2-rich MEA solution was compared with the individual performance of γ-Al2O3, H-ZSM-5, and H-Y solid acid catalysts using MEA (2-7 mol/L), with initial CO2 loading of 0.5 mol CO2/mol MEA at 378 K. It was observed that any catalyst significantly decreased the energy required for CO2 regeneration. The performance of the catalysts investigated ranked as follows: γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-ZSM-5>H-Y if the process is in the lean CO2 loading region whereas it was H-ZSM-5>γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-Y if the process is in the rich CO2 loading region. These results highlight the joint dependence on Brønsted/Lewis acidity and mesopore surface area of heat duty for solvent regeneration.

AB - The performance of a hybrid solid acid catalyst consisting of a physical mixture of γ-Al2O3 and H-ZSM-5 in terms of the rate and heat duty for solvent regeneration (i.e., CO2 stripping) of a CO2-rich MEA solution was compared with the individual performance of γ-Al2O3, H-ZSM-5, and H-Y solid acid catalysts using MEA (2-7 mol/L), with initial CO2 loading of 0.5 mol CO2/mol MEA at 378 K. It was observed that any catalyst significantly decreased the energy required for CO2 regeneration. The performance of the catalysts investigated ranked as follows: γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-ZSM-5>H-Y if the process is in the lean CO2 loading region whereas it was H-ZSM-5>γ-Al2O3/H-ZSM-5=2/1>γ-Al2O3>H-Y if the process is in the rich CO2 loading region. These results highlight the joint dependence on Brønsted/Lewis acidity and mesopore surface area of heat duty for solvent regeneration.

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KW - Mesopore surface area

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Experimental study on the solvent regeneration of a CO₂-loaded MEA solution using single and hybrid solid acid catalysts

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Keywords

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