Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon

Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon

Various metal oxides of CeO2, ZnO, and Co3O4 impregnated on activated carbon (AC) were synthesized to determine the CO2 capture efficiency and analyse with adsorption kinetics model. Batch kinetic studies showed that CeO2/AC is the most efficient adsorbent with an equilibrium time of 10 minutes that...

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Bibliographic Details
Main Authors: Azizul Hakim Lahuri, Michael Nguang Khai Ling, Afidah Abdul Rahim, Norazzizi Nordin
Format: Article
Language:English
Published: Slovenian Chemical Society 2020-06-01
Series:Acta Chimica Slovenica
Subjects:
co2 capture
adsorption kinetics
cerium (iv) oxide
activated carbon
recyclability
Online Access:https://journals.matheo.si/index.php/ACSi/article/view/5572
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spelling doaj-05fb31dde5ea45989198ead761d20a902020-11-25T03:29:05ZengSlovenian Chemical SocietyActa Chimica Slovenica1318-02071580-31552020-06-0167257058010.17344/acsi.2019.5572845Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbonAzizul Hakim Lahuri0Michael Nguang Khai LingAfidah Abdul RahimNorazzizi NordinDepartment of Basic Science and Engineering, Faculty of Agriculture and Food Sciences, Universiti Putra Malaysia Bintulu CampusVarious metal oxides of CeO2, ZnO, and Co3O4 impregnated on activated carbon (AC) were synthesized to determine the CO2 capture efficiency and analyse with adsorption kinetics model. Batch kinetic studies showed that CeO2/AC is the most efficient adsorbent with an equilibrium time of 10 minutes that was needed to obtain adsorption capacity of 52.68 mg/g. CO2 adsorption at 30 °C exhibits the optimum temperature with only 6.53% loss in adsorption capacity after 5 cycles of CO2 adsorption-desorption. The CeO2 on AC was detected through X-ray diffraction and the scanning electron microscope image shows well-distributed CeO2 particles on AC surfaces. CO2 adsorption at 30 °C is best fitted with the pseudo-second-order kinetics with R2 = 0.9994 and the relative error between calculated and experimental adsorption capacity only 1.32%. The adsorption considering chemisorption is responsible for improving adsorption capacity. The addition of CeO2 on AC enhanced the adsorption capacity by providing active sites to attract CO2.https://journals.matheo.si/index.php/ACSi/article/view/5572co2 captureadsorption kineticscerium (iv) oxideactivated carbonrecyclability
collection DOAJ
language English
format Article
sources DOAJ
author Azizul Hakim Lahuri
Michael Nguang Khai Ling
Afidah Abdul Rahim
Norazzizi Nordin
spellingShingle Azizul Hakim Lahuri
Michael Nguang Khai Ling
Afidah Abdul Rahim
Norazzizi Nordin
Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
Acta Chimica Slovenica
co2 capture
adsorption kinetics
cerium (iv) oxide
activated carbon
recyclability
author_facet Azizul Hakim Lahuri
Michael Nguang Khai Ling
Afidah Abdul Rahim
Norazzizi Nordin
author_sort Azizul Hakim Lahuri
title Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
title_short Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
title_full Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
title_fullStr Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
title_full_unstemmed Adsorption Kinetics for CO2 Capture using Cerium Oxide Impregnated on Activated carbon
title_sort adsorption kinetics for co2 capture using cerium oxide impregnated on activated carbon
publisher Slovenian Chemical Society
series Acta Chimica Slovenica
issn 1318-0207
1580-3155
publishDate 2020-06-01
description Various metal oxides of CeO2, ZnO, and Co3O4 impregnated on activated carbon (AC) were synthesized to determine the CO2 capture efficiency and analyse with adsorption kinetics model. Batch kinetic studies showed that CeO2/AC is the most efficient adsorbent with an equilibrium time of 10 minutes that was needed to obtain adsorption capacity of 52.68 mg/g. CO2 adsorption at 30 °C exhibits the optimum temperature with only 6.53% loss in adsorption capacity after 5 cycles of CO2 adsorption-desorption. The CeO2 on AC was detected through X-ray diffraction and the scanning electron microscope image shows well-distributed CeO2 particles on AC surfaces. CO2 adsorption at 30 °C is best fitted with the pseudo-second-order kinetics with R2 = 0.9994 and the relative error between calculated and experimental adsorption capacity only 1.32%. The adsorption considering chemisorption is responsible for improving adsorption capacity. The addition of CeO2 on AC enhanced the adsorption capacity by providing active sites to attract CO2.
topic co2 capture
adsorption kinetics
cerium (iv) oxide
activated carbon
recyclability
url https://journals.matheo.si/index.php/ACSi/article/view/5572
work_keys_str_mv AT azizulhakimlahuri adsorptionkineticsforco2captureusingceriumoxideimpregnatedonactivatedcarbon
AT michaelnguangkhailing adsorptionkineticsforco2captureusingceriumoxideimpregnatedonactivatedcarbon
AT afidahabdulrahim adsorptionkineticsforco2captureusingceriumoxideimpregnatedonactivatedcarbon
AT norazzizinordin adsorptionkineticsforco2captureusingceriumoxideimpregnatedonactivatedcarbon
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