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Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]

Capturing carbon dioxide (CO2) from industrial resources to mitigate the global increase in carbon emissions is a challenging and expensive process, especially when utilizing Carbon Capture and Storage (CCS) technologies. The energy cost of CO2 capture in post-combustion CCS, employing the absorptio...

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Main Authors: Nordin, Norsuhadat, Wan Mustafa, Wan Aisyah, Mohd Hazli, Muhammad Syahin Hazimi, Zaini, Nabilah
Format: Article
Language:English
Published: Penerbit UiTM (UiTM Press) 2025
Subjects:
Mathematical physics
Adsorption
Online Access:https://ir.uitm.edu.my/id/eprint/111170/1/111170.pdf
https://ir.uitm.edu.my/id/eprint/111170/
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spelling my.uitm.ir.1111702025-03-05T23:57:26Z https://ir.uitm.edu.my/id/eprint/111170/ Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.] srj Nordin, Norsuhadat Wan Mustafa, Wan Aisyah Mohd Hazli, Muhammad Syahin Hazimi Zaini, Nabilah Mathematical physics Adsorption Capturing carbon dioxide (CO2) from industrial resources to mitigate the global increase in carbon emissions is a challenging and expensive process, especially when utilizing Carbon Capture and Storage (CCS) technologies. The energy cost of CO2 capture in post-combustion CCS, employing the absorption method with monoethanolamine (MEA) as the commonly used liquid amine. This study focusing on the adsorption method, which is more energy saving and less corrosive for CO2 captured, by using modified kenaf biosorbent. Its low density, highly porous and permeability is well matched to be used as adsorbent. This study specifically investigated the influence of impregnation temperature of kenaf modified with a constant concentration of MEA towards the CO2 adsorption capability at different gas flowrates and pressure bed. From the surface morphology of modified kenaf sorbent, MEA-kenaf impregnated at 55 °C exhibited large pore openings and more structured walls compared to the other temperatures. The kenaf samples were then utilized in IsoSORP gas analyzer for CO2 adsorption with a mixture of CO2-Nitrogen (N2) at two different flow rates and various pressure beds. Penerbit UiTM (UiTM Press) 2025-03 Article PeerReviewed text en https://ir.uitm.edu.my/id/eprint/111170/1/111170.pdf Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]. (2025) Scientific Research Journal <https://ir.uitm.edu.my/view/publication/Scientific_Research_Journal/>, 22 (1): 8. pp. 147-166. ISSN 1675-7009
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Mathematical physics
Adsorption
spellingShingle Mathematical physics
Adsorption
Nordin, Norsuhadat
Wan Mustafa, Wan Aisyah
Mohd Hazli, Muhammad Syahin Hazimi
Zaini, Nabilah
Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
description Capturing carbon dioxide (CO2) from industrial resources to mitigate the global increase in carbon emissions is a challenging and expensive process, especially when utilizing Carbon Capture and Storage (CCS) technologies. The energy cost of CO2 capture in post-combustion CCS, employing the absorption method with monoethanolamine (MEA) as the commonly used liquid amine. This study focusing on the adsorption method, which is more energy saving and less corrosive for CO2 captured, by using modified kenaf biosorbent. Its low density, highly porous and permeability is well matched to be used as adsorbent. This study specifically investigated the influence of impregnation temperature of kenaf modified with a constant concentration of MEA towards the CO2 adsorption capability at different gas flowrates and pressure bed. From the surface morphology of modified kenaf sorbent, MEA-kenaf impregnated at 55 °C exhibited large pore openings and more structured walls compared to the other temperatures. The kenaf samples were then utilized in IsoSORP gas analyzer for CO2 adsorption with a mixture of CO2-Nitrogen (N2) at two different flow rates and various pressure beds.
format Article
author Nordin, Norsuhadat
Wan Mustafa, Wan Aisyah
Mohd Hazli, Muhammad Syahin Hazimi
Zaini, Nabilah
author_facet Nordin, Norsuhadat
Wan Mustafa, Wan Aisyah
Mohd Hazli, Muhammad Syahin Hazimi
Zaini, Nabilah
author_sort Nordin, Norsuhadat
title Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
title_short Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
title_full Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
title_fullStr Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
title_full_unstemmed Effect of impregnation temperature on monoethanolamine-kenaf biosorbent for CO2 adsorption from gas mixture / Norsuhadat Nordin ... [et al.]
title_sort effect of impregnation temperature on monoethanolamine-kenaf biosorbent for co2 adsorption from gas mixture / norsuhadat nordin ... [et al.]
publisher Penerbit UiTM (UiTM Press)
publishDate 2025
url https://ir.uitm.edu.my/id/eprint/111170/1/111170.pdf
https://ir.uitm.edu.my/id/eprint/111170/
_version_ 1825814857473064960
score 13.244413

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