Performance of direct air capture process in honeycomb channel configuration: A CFD study

Majid Nejadseifi; Shervin Karimkashi Arani; Tero Tynjälä; Payman Jalali

doi:10.3384/ecp212.041

Performance of direct air capture process in honeycomb channel configuration: A CFD study

Majid Nejadseifi
, Shervin Karimkashi Arani
, Tero Tynjälä
, Payman Jalali

Lappeenranta University of Technology

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussa › Conference article in proceedings › Scientific › vertaisarvioitu

37 Lataukset (Pure)

Abstrakti

This study presents a kinetic reaction modeling method for direct air capture (DAC) process of CO2 adsorption using computational fluid dynamics (CFD). Here, CO2 is adsorbed by amine coated air-surface contact area. The Langmuir model is employed to represent the kinetics of CO2 adsorption. Despite neglecting the diffusive phase of the adsorption, which is dominant only in the later stages of adsorption, the surface reaction model gives a satisfactory representation of the adsorption for a major part of the process. Honeycomb reactors with coated adsorbent may yield a better control of reaction rate and pressure drop compared to commonly used packed bed adsorption columns. Their enhanced performance in distributing the flow homogeneously between and within channels creates unique features for the reactor. In this study, we have analyzed mechanical and electrical energy demand for adsorbing CO2 per unit mass of adsorbed CO2 as a function of air flow rate. Adsorption performance of honeycomb structure is anticipated to significantly improve in comparison to the packed beds.

Alkuperäiskieli	Englanti
Otsikko	Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024
Toimittajat	Esko Juuso, Jari Ruuska, Gaurav Mirlekar, Lars Eriksson
Kustantaja	Linköping University Electronic Press
Sivut	297-303
Sivumäärä	7
ISBN (elektroninen)	978-91-8075-984-7
DOI - pysyväislinkit	https://doi.org/10.3384/ecp212.041
Tila	Julkaistu - 14 tammik. 2025
OKM-julkaisutyyppi	A4 Artikkeli konferenssijulkaisussa
Tapahtuma	2nd SIMS EUROSIM Conference on Simulation and Modelling and 65th SIMS Conference on Simulation and Modelling - Oulu, Suomi Kesto: 11 syysk. 2024 → 12 syysk. 2024

Julkaisusarja

Nimi	Linköping Electronic Conference Proceedings
Numero	212
ISSN (painettu)	1650-3686
ISSN (elektroninen)	1650-3740

Conference

Conference	2nd SIMS EUROSIM Conference on Simulation and Modelling and 65th SIMS Conference on Simulation and Modelling
Maa/Alue	Suomi
Kaupunki	Oulu
Ajanjakso	11/09/2024 → 12/09/2024

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10.3384/ecp212.041Lisenssi: CC BY

Final_Articles_297Final published version, 1,44 MBLisenssi: CC BY

Siteeraa tätä

Nejadseifi, M., Karimkashi Arani, S., Tynjälä, T., & Jalali, P. (2025). Performance of direct air capture process in honeycomb channel configuration: A CFD study. teoksessa E. Juuso, J. Ruuska, G. Mirlekar, & L. Eriksson (Toimittajat), Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024 (Sivut 297-303). (Linköping Electronic Conference Proceedings; Nro 212). Linköping University Electronic Press. https://doi.org/10.3384/ecp212.041

Nejadseifi, Majid ; Karimkashi Arani, Shervin ; Tynjälä, Tero et al. / Performance of direct air capture process in honeycomb channel configuration: A CFD study. Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024. Toimittaja / Esko Juuso ; Jari Ruuska ; Gaurav Mirlekar ; Lars Eriksson. Linköping University Electronic Press, 2025. Sivut 297-303 (Linköping Electronic Conference Proceedings; 212).

@inproceedings{76cfd089a51e4c8d9b40a3ac5e882b2d,

title = "Performance of direct air capture process in honeycomb channel configuration: A CFD study",

abstract = "This study presents a kinetic reaction modeling method for direct air capture (DAC) process of CO2 adsorption using computational fluid dynamics (CFD). Here, CO2 is adsorbed by amine coated air-surface contact area. The Langmuir model is employed to represent the kinetics of CO2 adsorption. Despite neglecting the diffusive phase of the adsorption, which is dominant only in the later stages of adsorption, the surface reaction model gives a satisfactory representation of the adsorption for a major part of the process. Honeycomb reactors with coated adsorbent may yield a better control of reaction rate and pressure drop compared to commonly used packed bed adsorption columns. Their enhanced performance in distributing the flow homogeneously between and within channels creates unique features for the reactor. In this study, we have analyzed mechanical and electrical energy demand for adsorbing CO2 per unit mass of adsorbed CO2 as a function of air flow rate. Adsorption performance of honeycomb structure is anticipated to significantly improve in comparison to the packed beds.",

keywords = "CFD, hexagonal channel, adsorption, Direct Air Capture, surface reaction",

author = "Majid Nejadseifi and \{Karimkashi Arani\}, Shervin and Tero Tynj{\"a}l{\"a} and Payman Jalali",

year = "2025",

month = jan,

day = "14",

doi = "10.3384/ecp212.041",

language = "English",

series = "Link{\"o}ping Electronic Conference Proceedings",

publisher = "Link{\"o}ping University Electronic Press",

number = "212",

pages = "297--303",

editor = "Esko Juuso and Jari Ruuska and Gaurav Mirlekar and Lars Eriksson",

booktitle = "Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024",

address = "Sweden",

note = "2nd SIMS EUROSIM Conference on Simulation and Modelling and 65th SIMS Conference on Simulation and Modelling ; Conference date: 11-09-2024 Through 12-09-2024",

}

Nejadseifi, M, Karimkashi Arani, S, Tynjälä, T & Jalali, P 2025, Performance of direct air capture process in honeycomb channel configuration: A CFD study. julkaisussa E Juuso, J Ruuska, G Mirlekar & L Eriksson (toim), Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024. Linköping Electronic Conference Proceedings, Nro 212, Linköping University Electronic Press, Sivut 297-303, 2nd SIMS EUROSIM Conference on Simulation and Modelling and 65th SIMS Conference on Simulation and Modelling, Oulu, Suomi, 11/09/2024. https://doi.org/10.3384/ecp212.041

Performance of direct air capture process in honeycomb channel configuration: A CFD study. / Nejadseifi, Majid; Karimkashi Arani, Shervin; Tynjälä, Tero et al.
Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024. toim. / Esko Juuso; Jari Ruuska; Gaurav Mirlekar; Lars Eriksson. Linköping University Electronic Press, 2025. s. 297-303 (Linköping Electronic Conference Proceedings; Nro 212).

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussa › Conference article in proceedings › Scientific › vertaisarvioitu

TY - GEN

T1 - Performance of direct air capture process in honeycomb channel configuration: A CFD study

AU - Nejadseifi, Majid

AU - Karimkashi Arani, Shervin

AU - Tynjälä, Tero

AU - Jalali, Payman

PY - 2025/1/14

Y1 - 2025/1/14

N2 - This study presents a kinetic reaction modeling method for direct air capture (DAC) process of CO2 adsorption using computational fluid dynamics (CFD). Here, CO2 is adsorbed by amine coated air-surface contact area. The Langmuir model is employed to represent the kinetics of CO2 adsorption. Despite neglecting the diffusive phase of the adsorption, which is dominant only in the later stages of adsorption, the surface reaction model gives a satisfactory representation of the adsorption for a major part of the process. Honeycomb reactors with coated adsorbent may yield a better control of reaction rate and pressure drop compared to commonly used packed bed adsorption columns. Their enhanced performance in distributing the flow homogeneously between and within channels creates unique features for the reactor. In this study, we have analyzed mechanical and electrical energy demand for adsorbing CO2 per unit mass of adsorbed CO2 as a function of air flow rate. Adsorption performance of honeycomb structure is anticipated to significantly improve in comparison to the packed beds.

AB - This study presents a kinetic reaction modeling method for direct air capture (DAC) process of CO2 adsorption using computational fluid dynamics (CFD). Here, CO2 is adsorbed by amine coated air-surface contact area. The Langmuir model is employed to represent the kinetics of CO2 adsorption. Despite neglecting the diffusive phase of the adsorption, which is dominant only in the later stages of adsorption, the surface reaction model gives a satisfactory representation of the adsorption for a major part of the process. Honeycomb reactors with coated adsorbent may yield a better control of reaction rate and pressure drop compared to commonly used packed bed adsorption columns. Their enhanced performance in distributing the flow homogeneously between and within channels creates unique features for the reactor. In this study, we have analyzed mechanical and electrical energy demand for adsorbing CO2 per unit mass of adsorbed CO2 as a function of air flow rate. Adsorption performance of honeycomb structure is anticipated to significantly improve in comparison to the packed beds.

KW - CFD

KW - hexagonal channel

KW - adsorption

KW - Direct Air Capture

KW - surface reaction

U2 - 10.3384/ecp212.041

DO - 10.3384/ecp212.041

M3 - Conference article in proceedings

T3 - Linköping Electronic Conference Proceedings

SP - 297

EP - 303

BT - Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024

A2 - Juuso, Esko

A2 - Ruuska, Jari

A2 - Mirlekar, Gaurav

A2 - Eriksson, Lars

PB - Linköping University Electronic Press

T2 - 2nd SIMS EUROSIM Conference on Simulation and Modelling and 65th SIMS Conference on Simulation and Modelling

Y2 - 11 September 2024 through 12 September 2024

ER -

Nejadseifi M, Karimkashi Arani S, Tynjälä T, Jalali P. Performance of direct air capture process in honeycomb channel configuration: A CFD study. julkaisussa Juuso E, Ruuska J, Mirlekar G, Eriksson L, toimittajat, Proceedings of SIMS EUROSIM 2024 Oulu, Finland, 11-12 September, 2024. Linköping University Electronic Press. 2025. s. 297-303. (Linköping Electronic Conference Proceedings; 212). doi: 10.3384/ecp212.041

Performance of direct air capture process in honeycomb channel configuration: A CFD study

Abstrakti

Julkaisusarja

Conference

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