Carbon molecular sieve membranes for selective CO2 separation at elevated temperatures and pressures

A. Rahimalimamaghani; H.R. Godini; M. Mboussi; A. Pacheco Tanaka; M. Llosa Tanco; F. Gallucci

doi:10.1016/j.jcou.2022.102378

Carbon molecular sieve membranes for selective CO2 separation at elevated temperatures and pressures

A. Rahimalimamaghani, H.R. Godini, M. Mboussi, A. Pacheco Tanaka, M. Llosa Tanco, F. Gallucci

Tecnología de membranas e intensificación de procesos

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

6 Citas (Scopus)

Resumen

The use of Carbon Molecular Sieve Membranes (CMSM) for selective CO2 separation from post-combustion CO2-rich streams from steel plant was experimentally evaluated and reported in this paper. Efficient CMSMs were developed for such application and their promising potentials in operating at elevated temperatures and pressures were experimentally demonstrated. The best performance in terms of flux as well as perm-selectivity, above the Robeson upper bound, was obtained using a CMSM developed with ethylenediamine in the dip-coating stage of the fabrication. In fact, adding ethylenediamine was proven to be particularly important in narrowing down the pore size distribution to ultra-micropore and establishing effective CO2 adsorption site over the membrane surface and the pores wall. It was shown that using a tailored CMSM with a precursor synthesized by co-polymerization of ethylenediamine with Novolac can improve the CO2/N2 ideal perm-selectivity from 33 to 97 at operational conditions of 200 °C and 20 bar.

Idioma original	Inglés
Número de artículo	102378
Páginas (desde-hasta)	102378
Número de páginas	1
Publicación	Journal of CO2 Utilization
Volumen	68
DOI	https://doi.org/10.1016/j.jcou.2022.102378
Estado	Publicada - feb 2023

Palabras clave

Carbon membranes
CO2 separation
Post-combustion capture
Process intensification
Multi-components permeation tests

Project and Funding Information

Funding Info
The project has received funding through the NWO P16-10 project.

ODS de las Naciones Unidas

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title = "Carbon molecular sieve membranes for selective CO2 separation at elevated temperatures and pressures",

abstract = "The use of Carbon Molecular Sieve Membranes (CMSM) for selective CO2 separation from post-combustion CO2-rich streams from steel plant was experimentally evaluated and reported in this paper. Efficient CMSMs were developed for such application and their promising potentials in operating at elevated temperatures and pressures were experimentally demonstrated. The best performance in terms of flux as well as perm-selectivity, above the Robeson upper bound, was obtained using a CMSM developed with ethylenediamine in the dip-coating stage of the fabrication. In fact, adding ethylenediamine was proven to be particularly important in narrowing down the pore size distribution to ultra-micropore and establishing effective CO2 adsorption site over the membrane surface and the pores wall. It was shown that using a tailored CMSM with a precursor synthesized by co-polymerization of ethylenediamine with Novolac can improve the CO2/N2 ideal perm-selectivity from 33 to 97 at operational conditions of 200 °C and 20 bar.",

keywords = "Carbon membranes, CO2 separation, Post-combustion capture, Process intensification, Multi-components permeation tests, Carbon membranes, CO2 separation, Post-combustion capture, Process intensification, Multi-components permeation tests, COseparation",

author = "A. Rahimalimamaghani and H.R. Godini and M. Mboussi and {Pacheco Tanaka}, A. and {Llosa Tanco}, M. and F. Gallucci",

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doi = "10.1016/j.jcou.2022.102378",

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AU - Rahimalimamaghani, A.

AU - Godini, H.R.

AU - Mboussi, M.

AU - Pacheco Tanaka, A.

AU - Llosa Tanco, M.

AU - Gallucci, F.

PY - 2023/2

Y1 - 2023/2

N2 - The use of Carbon Molecular Sieve Membranes (CMSM) for selective CO2 separation from post-combustion CO2-rich streams from steel plant was experimentally evaluated and reported in this paper. Efficient CMSMs were developed for such application and their promising potentials in operating at elevated temperatures and pressures were experimentally demonstrated. The best performance in terms of flux as well as perm-selectivity, above the Robeson upper bound, was obtained using a CMSM developed with ethylenediamine in the dip-coating stage of the fabrication. In fact, adding ethylenediamine was proven to be particularly important in narrowing down the pore size distribution to ultra-micropore and establishing effective CO2 adsorption site over the membrane surface and the pores wall. It was shown that using a tailored CMSM with a precursor synthesized by co-polymerization of ethylenediamine with Novolac can improve the CO2/N2 ideal perm-selectivity from 33 to 97 at operational conditions of 200 °C and 20 bar.

AB - The use of Carbon Molecular Sieve Membranes (CMSM) for selective CO2 separation from post-combustion CO2-rich streams from steel plant was experimentally evaluated and reported in this paper. Efficient CMSMs were developed for such application and their promising potentials in operating at elevated temperatures and pressures were experimentally demonstrated. The best performance in terms of flux as well as perm-selectivity, above the Robeson upper bound, was obtained using a CMSM developed with ethylenediamine in the dip-coating stage of the fabrication. In fact, adding ethylenediamine was proven to be particularly important in narrowing down the pore size distribution to ultra-micropore and establishing effective CO2 adsorption site over the membrane surface and the pores wall. It was shown that using a tailored CMSM with a precursor synthesized by co-polymerization of ethylenediamine with Novolac can improve the CO2/N2 ideal perm-selectivity from 33 to 97 at operational conditions of 200 °C and 20 bar.

KW - Carbon membranes

KW - CO2 separation

KW - Post-combustion capture

KW - Process intensification

KW - Multi-components permeation tests

KW - Carbon membranes

KW - CO2 separation

KW - Post-combustion capture

KW - Process intensification

KW - Multi-components permeation tests

KW - COseparation

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Carbon molecular sieve membranes for selective CO2 separation at elevated temperatures and pressures

Resumen

Palabras clave

Project and Funding Information

ODS de las Naciones Unidas

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