Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3
In the current study, the influence of input power for conversion of CH4 and CO2 into syngas was investigated in both Dielectric Barrier Discharge (DBD) plasma and catalytic-plasma cylindrical reactors. It was observed that for both reactors, higher input power favored fragmentation reactions rather...
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2011
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my.utm.447692017-11-01T04:17:18Z http://eprints.utm.my/id/eprint/44769/ Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 Nikoo, Maryam Khoshtinat Sharifi, Mohammad Ali Saidina Amin, Noraishah TP Chemical technology In the current study, the influence of input power for conversion of CH4 and CO2 into syngas was investigated in both Dielectric Barrier Discharge (DBD) plasma and catalytic-plasma cylindrical reactors. It was observed that for both reactors, higher input power favored fragmentation reactions rather than recombination of light intermediates into heavier hydrocarbons, thus improving H2 yield. Meanwhile, the presence of Cu/Zn/AlsO3 catalyst enhanced the H2 yield from 16.5% to 19.1%, while the H2/CO ratio remained almost constant near unity, thus indicating the suitable ratio for Fischer-Tropsch (FTS) processes. Penerbit UTM Press 2011 Article PeerReviewed Nikoo, Maryam Khoshtinat and Sharifi, Mohammad Ali and Saidina Amin, Noraishah (2011) Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3. Jurnal Teknologi (Sciences and Engineering), 56 (1). pp. 75-86. ISSN 0127-9696 |
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TP Chemical technology Nikoo, Maryam Khoshtinat Sharifi, Mohammad Ali Saidina Amin, Noraishah Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
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In the current study, the influence of input power for conversion of CH4 and CO2 into syngas was investigated in both Dielectric Barrier Discharge (DBD) plasma and catalytic-plasma cylindrical reactors. It was observed that for both reactors, higher input power favored fragmentation reactions rather than recombination of light intermediates into heavier hydrocarbons, thus improving H2 yield. Meanwhile, the presence of Cu/Zn/AlsO3 catalyst enhanced the H2 yield from 16.5% to 19.1%, while the H2/CO ratio remained almost constant near unity, thus indicating the suitable ratio for Fischer-Tropsch (FTS) processes. |
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Article |
| author |
Nikoo, Maryam Khoshtinat Sharifi, Mohammad Ali Saidina Amin, Noraishah |
| author_facet |
Nikoo, Maryam Khoshtinat Sharifi, Mohammad Ali Saidina Amin, Noraishah |
| author_sort |
Nikoo, Maryam Khoshtinat |
| title |
Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| title_short |
Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| title_full |
Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| title_fullStr |
Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| title_full_unstemmed |
Carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| title_sort |
carbon dioxide reforming of methane by catalytic-plasma reactor over cu/zn/î³-al2o3 |
| publisher |
Penerbit UTM Press |
| publishDate |
2011 |
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http://eprints.utm.my/id/eprint/44769/ |
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1643651539654410240 |
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13.159267 |