Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide

Bimetal adsorbent system of calcium oxide impregnated on iron (III) oxide were evaluated as a potential source of basic sites for CO capture. The adsorbents were prepared by impregnation method were calcined at 200 until 600 °C. Several characterizations were carried out using XRD, BET and CO -TP...

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Main Authors:	Lahuri, Azizul Hakim, Yarmo, Mohd Ambar, Marliza, Tengku Sharifah, Abu Tahari, Maratun Najiha, Samad, Wan Zurina, Dzakaria, Norliza, Yusop, Muhammad Rahimi
Format:	Conference or Workshop Item
Language:	English English
Published:	Scientific.Net 2017
Subjects:	T Technology (General)
Online Access:	http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/3/62844%20Adsorption%20capacitiesBasic%20sitesCarbon%20dioxide%20adsorption-%20MyRA.pdf http://irep.iium.edu.my/62844/2/62844%20Carbon%20dioxide%20adsorption%20and%20desorption%20SCOPUS.pdf

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recordtype	eprints
spelling	iium-628442018-03-20T10:17:27Z http://irep.iium.edu.my/62844/ Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide Lahuri, Azizul Hakim Yarmo, Mohd Ambar Marliza, Tengku Sharifah Abu Tahari, Maratun Najiha Samad, Wan Zurina Dzakaria, Norliza Yusop, Muhammad Rahimi T Technology (General) Bimetal adsorbent system of calcium oxide impregnated on iron (III) oxide were evaluated as a potential source of basic sites for CO capture. The adsorbents were prepared by impregnation method were calcined at 200 until 600 °C. Several characterizations were carried out using XRD, BET and CO -TPD analysis. The CaO loading increased the basicity of the adsorbent signicantly enhance the CO chemisorption. Furthermore, it drastically reduced the desorption temperature to 310-490 °C, which is important in chemisorption aspect. The CaO/Fe O 200 which calcined at 200 °C was found to be most ecient. The CO chemisorption (81.29 mg CO /g adsorbent) was contributed most compared to physisorption (4.64 mg CO /g adsorbent) Scientific.Net 2017 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/62844/3/62844%20Adsorption%20capacitiesBasic%20sitesCarbon%20dioxide%20adsorption-%20MyRA.pdf application/pdf en http://irep.iium.edu.my/62844/2/62844%20Carbon%20dioxide%20adsorption%20and%20desorption%20SCOPUS.pdf Lahuri, Azizul Hakim and Yarmo, Mohd Ambar and Marliza, Tengku Sharifah and Abu Tahari, Maratun Najiha and Samad, Wan Zurina and Dzakaria, Norliza and Yusop, Muhammad Rahimi (2017) Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide. In: International Conference on X-Rays & Related Techniques in Research & Industry 2016 (ICXRI 2016), 17th-18th August 2016, Putrajaya. (In Press) https://www.scientific.net/MSF.888.479 10.4028/www.scientific.net/MSF.888.479
repository_type	Digital Repository
institution_category	Local University
institution	International Islamic University Malaysia
building	IIUM Repository
collection	Online Access
language	English English
topic	T Technology (General)
spellingShingle	T Technology (General) Lahuri, Azizul Hakim Yarmo, Mohd Ambar Marliza, Tengku Sharifah Abu Tahari, Maratun Najiha Samad, Wan Zurina Dzakaria, Norliza Yusop, Muhammad Rahimi Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
description	Bimetal adsorbent system of calcium oxide impregnated on iron (III) oxide were evaluated as a potential source of basic sites for CO capture. The adsorbents were prepared by impregnation method were calcined at 200 until 600 °C. Several characterizations were carried out using XRD, BET and CO -TPD analysis. The CaO loading increased the basicity of the adsorbent signicantly enhance the CO chemisorption. Furthermore, it drastically reduced the desorption temperature to 310-490 °C, which is important in chemisorption aspect. The CaO/Fe O 200 which calcined at 200 °C was found to be most ecient. The CO chemisorption (81.29 mg CO /g adsorbent) was contributed most compared to physisorption (4.64 mg CO /g adsorbent)
format	Conference or Workshop Item
author	Lahuri, Azizul Hakim Yarmo, Mohd Ambar Marliza, Tengku Sharifah Abu Tahari, Maratun Najiha Samad, Wan Zurina Dzakaria, Norliza Yusop, Muhammad Rahimi
author_facet	Lahuri, Azizul Hakim Yarmo, Mohd Ambar Marliza, Tengku Sharifah Abu Tahari, Maratun Najiha Samad, Wan Zurina Dzakaria, Norliza Yusop, Muhammad Rahimi
author_sort	Lahuri, Azizul Hakim
title	Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
title_short	Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
title_full	Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
title_fullStr	Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
title_full_unstemmed	Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide
title_sort	carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (iii) oxide
publisher	Scientific.Net
publishDate	2017
url	http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/ http://irep.iium.edu.my/62844/3/62844%20Adsorption%20capacitiesBasic%20sitesCarbon%20dioxide%20adsorption-%20MyRA.pdf http://irep.iium.edu.my/62844/2/62844%20Carbon%20dioxide%20adsorption%20and%20desorption%20SCOPUS.pdf
first_indexed	2023-09-18T21:29:03Z
last_indexed	2023-09-18T21:29:03Z
_version_	1777412387095183360

Carbon dioxide adsorption and desorption study using bimetallic calcium oxide impregnated on iron (III) oxide

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