Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems

Direct Air Carbon Capture (DACC) technology is used to remove CO₂ directly from the atmosphere, helping tackle climate change and excessive greenhouse gas emissions efficiently. In this study, a techno-economic analysis of DACC has been carried out, including its working mechanisms, energy needs, an...

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Egile nagusia: Ali, Haider (author)
Beste egile batzuk: Uddin, Duraid (author), Naqvi, Asad A. (author), Naeem, Umair (author), Akhtar, Nomaan (author), Shams, Saqib (author), Karim, Ali (author)
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Hizkuntza:gaztelania
Argitaratua: 2025
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Sarrera elektronikoa:http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566
https://hdl.handle.net/20.500.12806/2738
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author Ali, Haider
author2 Uddin, Duraid
Naqvi, Asad A.
Naeem, Umair
Akhtar, Nomaan
Shams, Saqib
Karim, Ali
author2_role author
author
author
author
author
author
author_browse Akhtar, Nomaan
Ali, Haider
Karim, Ali
Naeem, Umair
Naqvi, Asad A.
Shams, Saqib
Uddin, Duraid
author_facet Ali, Haider
Uddin, Duraid
Naqvi, Asad A.
Naeem, Umair
Akhtar, Nomaan
Shams, Saqib
Karim, Ali
author_role author
collection REDUM
dc.creator.none.fl_str_mv Ali, Haider
Uddin, Duraid
Naqvi, Asad A.
Naeem, Umair
Akhtar, Nomaan
Shams, Saqib
Karim, Ali
dc.date.none.fl_str_mv 2025-06-30
2025-07-24T15:30:55Z
2025-07-24T15:30:55Z
dc.format.none.fl_str_mv application/pdf
text/html
dc.identifier.none.fl_str_mv http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566
10.36561/ING.28.16
https://hdl.handle.net/20.500.12806/2738
dc.language.none.fl_str_mv spa
dc.publisher.none.fl_str_mv Universidad de Montevideo
dc.relation.none.fl_str_mv http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566/1933
http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566/1934
dc.rights.none.fl_str_mv http://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
Atribución 4.0 Internacional
dc.source.none.fl_str_mv Memoria Investigaciones en Ingeniería; No. 28 (2025); 269-286
Memoria Investigaciones en Ingeniería; Núm. 28 (2025); 269-286
Memoria Investigaciones en Ingenieria; n. 28 (2025); 269-286
2301-1106
2301-1092
10.36561/ING.28
reponame:REDUM
instname:Universidad de Montevideo
instacron:Universidad de Montevideo
dc.subject.none.fl_str_mv Captura directa de carbono en aire
adsorción por oscilación de temperatura y vacío
estructura metalorgánica
Direct Air Carbon Capture
Temperature Vacuum Swing Adsorption
Metal-Organic Framework
Captura direta de carbono no ar
adsorção por oscilação de temperatura e vácuo
estrutura metal-orgânica
dc.title.none.fl_str_mv Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
Captura directa de carbono en el aire mediante estructuras metalorgánicas (MOF): Rendimiento técnico-económico de los sistemas de adsorción por oscilación de temperatura y vacío (TVSA)
Captura direta de carbono no ar usando estruturas metal-orgânicas (MOFs): desempenho técnico-econômico de sistemas de adsorção por oscilação de temperatura e vácuo (TVSA)
dc.type.none.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
Peer reviewed articles
Artículos evaluados por pares
Artigos revistos por pares
publishedVersion
info:eu-repo/semantics/publishedVersion
description Direct Air Carbon Capture (DACC) technology is used to remove CO₂ directly from the atmosphere, helping tackle climate change and excessive greenhouse gas emissions efficiently. In this study, a techno-economic analysis of DACC has been carried out, including its working mechanisms, energy needs, and costs, as well as a summary of the current research status. This research compares two leading metal-organic frameworks (MOFs) — MIL-101(Cr)-PEI-800 and mmen-Mg₂(dobpdc) — focusing on their energy consumption, CO₂ adsorption, and cost. This study investigates the performance of these MOFs in a temperature vacuum swing adsorption (TVSA) process, which cyclically varies temperature and pressure to capture CO₂ and regenerate adsorbents. Among all materials, mmen-Mg₂(dobpdc) achieves the best performance with a much higher capacity and a favourable nonlinear isotherm shape, indicating significantly improved efficiency and lower energy input. DACC systems based on advanced MOFs hold great promise for minimizing non-point source emissions and should thus be considered essential components of a climate change mitigation strategy. This study contributes to direct future research and development toward more efficient and cost-effective MOFs in DACC applications.
eu_rights_str_mv openAccess
format article
id anni_35bb678a14fcc970dede65893580af71
identifier_str_mv 10.36561/ING.28.16
instacron_str Universidad de Montevideo
institution Universidad de Montevideo
instname_str Universidad de Montevideo
language spa
network_acronym_str anni
network_name_str oai-lr-anni
oai_identifier_str oai:redum.um.edu.uy:20.500.12806/2738
publishDate 2025
publishDateSort 2025
publisher.none.fl_str_mv Universidad de Montevideo
reponame_str REDUM
repository.mail.fl_str_mv
repository.name.fl_str_mv
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rights_invalid_str_mv http://creativecommons.org/licenses/by/4.0
Atribución 4.0 Internacional
spelling Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) SystemsCaptura directa de carbono en el aire mediante estructuras metalorgánicas (MOF): Rendimiento técnico-económico de los sistemas de adsorción por oscilación de temperatura y vacío (TVSA)Captura direta de carbono no ar usando estruturas metal-orgânicas (MOFs): desempenho técnico-econômico de sistemas de adsorção por oscilação de temperatura e vácuo (TVSA)Ali, HaiderUddin, DuraidNaqvi, Asad A.Naeem, UmairAkhtar, NomaanShams, SaqibKarim, AliCaptura directa de carbono en aireadsorción por oscilación de temperatura y vacíoestructura metalorgánicaDirect Air Carbon CaptureTemperature Vacuum Swing AdsorptionMetal-Organic FrameworkCaptura direta de carbono no aradsorção por oscilação de temperatura e vácuoestrutura metal-orgânicaDirect Air Carbon Capture (DACC) technology is used to remove CO₂ directly from the atmosphere, helping tackle climate change and excessive greenhouse gas emissions efficiently. In this study, a techno-economic analysis of DACC has been carried out, including its working mechanisms, energy needs, and costs, as well as a summary of the current research status. This research compares two leading metal-organic frameworks (MOFs) — MIL-101(Cr)-PEI-800 and mmen-Mg₂(dobpdc) — focusing on their energy consumption, CO₂ adsorption, and cost. This study investigates the performance of these MOFs in a temperature vacuum swing adsorption (TVSA) process, which cyclically varies temperature and pressure to capture CO₂ and regenerate adsorbents. Among all materials, mmen-Mg₂(dobpdc) achieves the best performance with a much higher capacity and a favourable nonlinear isotherm shape, indicating significantly improved efficiency and lower energy input. DACC systems based on advanced MOFs hold great promise for minimizing non-point source emissions and should thus be considered essential components of a climate change mitigation strategy. This study contributes to direct future research and development toward more efficient and cost-effective MOFs in DACC applications.La tecnología de Captura Directa de Carbono en el Aire (DACC) se utiliza para eliminar CO₂ directamente de la atmósfera, lo que contribuye a combatir eficientemente el cambio climático y las emisiones excesivas de gases de efecto invernadero. En este estudio, se realizó un análisis tecnoeconómico de la DACC, incluyendo sus mecanismos de funcionamiento, necesidades energéticas y costes, así como un resumen del estado actual de la investigación. Esta investigación compara dos estructuras metalorgánicas (MOF) líderes —MIL-101(Cr)-PEI-800 y mmen-Mg₂(dobpdc)—, centrándose en su consumo energético, adsorción de CO₂ y coste. Este estudio investiga el rendimiento de estas MOF en un proceso de adsorción por oscilación de temperatura y vacío (TVSA), que varía cíclicamente la temperatura y la presión para capturar CO₂ y regenerar los adsorbentes. Entre todos los materiales, mmen-Mg₂(dobpdc) alcanza el mejor rendimiento, con una capacidad mucho mayor y una forma de isoterma no lineal favorable, lo que indica una eficiencia significativamente mejorada y un menor consumo de energía. Los sistemas DACC basados en MOF avanzados son muy prometedores para minimizar las emisiones de fuentes no puntuales y, por lo tanto, deberían considerarse componentes esenciales de una estrategia de mitigación del cambio climático. Este estudio contribuye a orientar la investigación y el desarrollo futuros hacia MOF más eficientes y rentables en aplicaciones DACC.A tecnologia de Captura Direta de Carbono no Ar (DACC) é usada para remover CO₂ diretamente da atmosfera, ajudando a combater as mudanças climáticas e as emissões excessivas de gases de efeito estufa de forma eficiente. Neste estudo, foi realizada uma análise técnico-econômica do DACC, incluindo seus mecanismos de funcionamento, necessidades energéticas e custos, bem como um resumo do status atual da pesquisa. Esta pesquisa compara duas estruturas metal-orgânicas (MOFs) líderes — MIL-101(Cr)-PEI-800 e mmen-Mg₂(dobpdc) — com foco em seu consumo de energia, adsorção de CO₂ e custo. Este estudo investiga o desempenho dessas MOFs em um processo de adsorção por oscilação de temperatura e vácuo (TVSA), que varia ciclicamente a temperatura e a pressão para capturar CO₂ e regenerar adsorventes. Entre todos os materiais, o mmen-Mg₂(dobpdc) atinge o melhor desempenho com uma capacidade muito maior e uma forma isotérmica não linear favorável, indicando eficiência significativamente melhorada e menor consumo de energia. Os sistemas DACC baseados em MOFs avançados são bastante promissores para minimizar as emissões de fontes difusas e, portanto, devem ser considerados componentes essenciais de uma estratégia de mitigação das mudanças climáticas. Este estudo contribui para direcionar futuras pesquisas e desenvolvimentos em direção a MOFs mais eficientes e econômicos em aplicações DACC.Universidad de Montevideo2025-06-302025-07-24T15:30:55Z2025-07-24T15:30:55Zinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionPeer reviewed articlesArtículos evaluados por paresArtigos revistos por parespublishedVersioninfo:eu-repo/semantics/publishedVersionapplication/pdftext/htmlhttp://revistas.um.edu.uy/index.php/ingenieria/article/view/156610.36561/ING.28.16https://hdl.handle.net/20.500.12806/2738Memoria Investigaciones en Ingeniería; No. 28 (2025); 269-286Memoria Investigaciones en Ingeniería; Núm. 28 (2025); 269-286Memoria Investigaciones en Ingenieria; n. 28 (2025); 269-2862301-11062301-109210.36561/ING.28reponame:REDUMinstname:Universidad de Montevideoinstacron:Universidad de Montevideospahttp://revistas.um.edu.uy/index.php/ingenieria/article/view/1566/1933http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566/1934http://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessAtribución 4.0 Internacionaloai:redum.um.edu.uy:20.500.12806/27382026-06-16T07:04:12Z
spellingShingle Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
Ali, Haider
Captura directa de carbono en aire
adsorción por oscilación de temperatura y vacío
estructura metalorgánica
Direct Air Carbon Capture
Temperature Vacuum Swing Adsorption
Metal-Organic Framework
Captura direta de carbono no ar
adsorção por oscilação de temperatura e vácuo
estrutura metal-orgânica
status_str publishedVersion
title Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
title_full Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
title_fullStr Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
title_full_unstemmed Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
title_short Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
title_sort Direct Air Carbon Capture Using Metal-Organic Frameworks (MOFs): Techno-Economic Performance of Temperature Vacuum Swing Adsorption (TVSA) Systems
topic Captura directa de carbono en aire
adsorción por oscilación de temperatura y vacío
estructura metalorgánica
Direct Air Carbon Capture
Temperature Vacuum Swing Adsorption
Metal-Organic Framework
Captura direta de carbono no ar
adsorção por oscilação de temperatura e vácuo
estrutura metal-orgânica
url http://revistas.um.edu.uy/index.php/ingenieria/article/view/1566
https://hdl.handle.net/20.500.12806/2738