Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction

Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction

Cobalt (Co) catalyst is supported by carbon nanotubes (CNT) using a strong electrostatic adsorption (SEA) method. To promote activity and selectivity as well as find the optimum loading percentage and its effect on catalyst performance, manganese (Mn) has been added to the Co/CNT catalyst. Samples w...

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Main Authors: Omid Akbarzadeh, Noor Asmawati Mohd Zabidi, Zulkifli Merican Aljunid Merican, Suresh Sagadevan, Amir Kordijazi, Sourav Das, Arman Amani Babadi, Marlinda Ab Rahman, Nor Aliya Hamizi, Yasmin Abdul Wahab, Mohd Rafie Johan
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Symmetry
Subjects:
carbon nanotubes
thermal treatment
cobalt manganese
fischer–tropsch
catalyst
acid treatment
Online Access:https://www.mdpi.com/2073-8994/11/11/1328
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spelling doaj-320c650a65d7422e9b41af1563ff22fe2020-11-24T21:18:38ZengMDPI AGSymmetry2073-89942019-10-011111132810.3390/sym11111328sym11111328Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch ReactionOmid Akbarzadeh0Noor Asmawati Mohd Zabidi1Zulkifli Merican Aljunid Merican2Suresh Sagadevan3Amir Kordijazi4Sourav Das5Arman Amani Babadi6Marlinda Ab Rahman7Nor Aliya Hamizi8Yasmin Abdul Wahab9Mohd Rafie Johan10Nanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaDepartment of Fundamental and Applied Sciences, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, Perak 32610, MalaysiaDepartment of Fundamental and Applied Sciences, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, Perak 32610, MalaysiaNanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaDepartment of Industrial and Manufacturing Engineering, University of Wisconsin Milwaukee, Milwaukee, WI 53211, USADepartment of Mechanical Engineering, University of Wisconsin Milwaukee, Milwaukee, WI 53211, USAFunctional Omics and Bioprocess Development Laboratory, Institute of Biological Sciences, Faculty of Science, University of Malaya, Kuala Lumpur 50603, MalaysiaNanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaNanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaNanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaNanotechnology &amp; Catalysis Research Centre, University of Malaya, Kuala Lumpur 50603, MalaysiaCobalt (Co) catalyst is supported by carbon nanotubes (CNT) using a strong electrostatic adsorption (SEA) method. To promote activity and selectivity as well as find the optimum loading percentage and its effect on catalyst performance, manganese (Mn) has been added to the Co/CNT catalyst. Samples were characterized by a scanning electron microscope (SEM-EDX), transmission electron microscope (TEM), hydrogen temperature programmed reduction (H<sub>2</sub>-TPR), Zeta potential, Brunauer&#8722;Emmett&#8722;Teller (BET) analysis, X-ray diffraction (XRD), and X-ray spectroscopy (XPS). TEM images illustrated an intake of metal particles which were highly dispersed, having a narrow particle size distribution of 6&#8722;8 nm to the external and internal CNT support. H<sub>2</sub>-TPR showed a lower temperature reduction with Mn at 420 &#176;C for Fischer&#8722;Tropsch synthesis (FTS) reaction. The Co&#8722;Mn/CNT catalyst performance test for FTS was performed at a temperature of 240 &#176;C in a fixed-bed micro-reactor at a pressure of 2.0 MPa. The addition of manganese resulted in a lower methane selectivity and a higher C<sub>5+</sub> product with an optimum percentage of 5% of manganese. CO conversion was 86.6% and had a C<sub>5+</sub> selectivity of 81.5%, which was higher than the catalysts obtained using only Co on pretreated CNT.https://www.mdpi.com/2073-8994/11/11/1328carbon nanotubesthermal treatmentcobalt manganesefischer–tropschcatalystacid treatment
collection DOAJ
language English
format Article
sources DOAJ
author Omid Akbarzadeh
Noor Asmawati Mohd Zabidi
Zulkifli Merican Aljunid Merican
Suresh Sagadevan
Amir Kordijazi
Sourav Das
Arman Amani Babadi
Marlinda Ab Rahman
Nor Aliya Hamizi
Yasmin Abdul Wahab
Mohd Rafie Johan
spellingShingle Omid Akbarzadeh
Noor Asmawati Mohd Zabidi
Zulkifli Merican Aljunid Merican
Suresh Sagadevan
Amir Kordijazi
Sourav Das
Arman Amani Babadi
Marlinda Ab Rahman
Nor Aliya Hamizi
Yasmin Abdul Wahab
Mohd Rafie Johan
Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
Symmetry
carbon nanotubes
thermal treatment
cobalt manganese
fischer–tropsch
catalyst
acid treatment
author_facet Omid Akbarzadeh
Noor Asmawati Mohd Zabidi
Zulkifli Merican Aljunid Merican
Suresh Sagadevan
Amir Kordijazi
Sourav Das
Arman Amani Babadi
Marlinda Ab Rahman
Nor Aliya Hamizi
Yasmin Abdul Wahab
Mohd Rafie Johan
author_sort Omid Akbarzadeh
title Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
title_short Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
title_full Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
title_fullStr Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
title_full_unstemmed Effect of Manganese on Co–Mn/CNT Bimetallic Catalyst Performance in Fischer–Tropsch Reaction
title_sort effect of manganese on co–mn/cnt bimetallic catalyst performance in fischer–tropsch reaction
publisher MDPI AG
series Symmetry
issn 2073-8994
publishDate 2019-10-01
description Cobalt (Co) catalyst is supported by carbon nanotubes (CNT) using a strong electrostatic adsorption (SEA) method. To promote activity and selectivity as well as find the optimum loading percentage and its effect on catalyst performance, manganese (Mn) has been added to the Co/CNT catalyst. Samples were characterized by a scanning electron microscope (SEM-EDX), transmission electron microscope (TEM), hydrogen temperature programmed reduction (H<sub>2</sub>-TPR), Zeta potential, Brunauer&#8722;Emmett&#8722;Teller (BET) analysis, X-ray diffraction (XRD), and X-ray spectroscopy (XPS). TEM images illustrated an intake of metal particles which were highly dispersed, having a narrow particle size distribution of 6&#8722;8 nm to the external and internal CNT support. H<sub>2</sub>-TPR showed a lower temperature reduction with Mn at 420 &#176;C for Fischer&#8722;Tropsch synthesis (FTS) reaction. The Co&#8722;Mn/CNT catalyst performance test for FTS was performed at a temperature of 240 &#176;C in a fixed-bed micro-reactor at a pressure of 2.0 MPa. The addition of manganese resulted in a lower methane selectivity and a higher C<sub>5+</sub> product with an optimum percentage of 5% of manganese. CO conversion was 86.6% and had a C<sub>5+</sub> selectivity of 81.5%, which was higher than the catalysts obtained using only Co on pretreated CNT.
topic carbon nanotubes
thermal treatment
cobalt manganese
fischer–tropsch
catalyst
acid treatment
url https://www.mdpi.com/2073-8994/11/11/1328
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