Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane
The catalytic performances of promoter-modified and un-modified bimetallic catalysts in CO2 reforming of methane were studied. Co and Ni metals were incorporated into mesoporous MCM-41 by direct hydrothermal synthesis, while promoter Pt was loaded by conventional wet impregnation. The structures and...
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sg-ntu-dr.10356-400002023-03-03T15:35:20Z Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane Lim, Yvonne Yi Wen. Yang Yanhui School of Chemical and Biomedical Engineering DRNTU::Engineering::Chemical engineering::Chemical processes The catalytic performances of promoter-modified and un-modified bimetallic catalysts in CO2 reforming of methane were studied. Co and Ni metals were incorporated into mesoporous MCM-41 by direct hydrothermal synthesis, while promoter Pt was loaded by conventional wet impregnation. The structures and compositions of the fresh catalysts were characterized using various methods including X-ray powder diffraction, nitrogen physisorption and temperature programmed reduction. Monometallic Ni-based catalyst exhibited higher catalytic activity as compared to the Co counterpart over the entire temperature range tested. Subsequent Pt introduction improved the activity of both Co- and Ni-MCM-41, with Pt/Ni-MCM-41 leading ahead of the Co catalyst. Long-term stability of the catalysts was also investigated. Monometallic Co- and Ni-MCM-41 deactivated rapidly within the first 12 hours of reaction. Pt-impregnated bimetallic catalysts exhibited a distinctively improved stability in comparison to the monometallic catalysts, with low carbon deposition as characterized by thermogravimetric analysis. Synergetic interaction of Pt-Co and Pt-Ni alloys was proposed to be the cause of the lower carbon deposition which in turn ensured a stable catalytic level at an elevated temperature over a substantial period of time. The Pt-modified bimetallic catalysts, especially Pt/Ni-MCM-41, demonstrated excellent catalytic activity with high carbon resistivity and could prove to be promising catalysts for the CO2 reforming of methane. Bachelor of Engineering (Chemical and Biomolecular Engineering) 2010-06-09T01:58:56Z 2010-06-09T01:58:56Z 2010 2010 Final Year Project (FYP) http://hdl.handle.net/10356/40000 en Nanyang Technological University 51 p. application/pdf |
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DRNTU::Engineering::Chemical engineering::Chemical processes Lim, Yvonne Yi Wen. Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| description |
The catalytic performances of promoter-modified and un-modified bimetallic catalysts in CO2 reforming of methane were studied. Co and Ni metals were incorporated into mesoporous MCM-41 by direct hydrothermal synthesis, while promoter Pt was loaded by conventional wet impregnation. The structures and compositions of the fresh catalysts were characterized using various methods including X-ray powder diffraction, nitrogen physisorption and temperature programmed reduction. Monometallic Ni-based catalyst exhibited higher catalytic activity as compared to the Co counterpart over the entire temperature range tested. Subsequent Pt introduction improved the activity of both Co- and Ni-MCM-41, with Pt/Ni-MCM-41 leading ahead of the Co catalyst. Long-term stability of the catalysts was also investigated. Monometallic Co- and Ni-MCM-41 deactivated rapidly within the first 12 hours of reaction. Pt-impregnated bimetallic catalysts exhibited a distinctively improved stability in comparison to the monometallic catalysts, with low carbon deposition as characterized by thermogravimetric analysis. Synergetic interaction of Pt-Co and Pt-Ni alloys was proposed to be the cause of the lower carbon deposition which in turn ensured a stable catalytic level at an elevated temperature over a substantial period of time. The Pt-modified bimetallic catalysts, especially Pt/Ni-MCM-41, demonstrated excellent catalytic activity with high carbon resistivity and could prove to be promising catalysts for the CO2 reforming of methane. |
| author2 |
Yang Yanhui |
| author_facet |
Yang Yanhui Lim, Yvonne Yi Wen. |
| format |
Final Year Project |
| author |
Lim, Yvonne Yi Wen. |
| author_sort |
Lim, Yvonne Yi Wen. |
| title |
Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| title_short |
Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| title_full |
Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| title_fullStr |
Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| title_full_unstemmed |
Study of Co-and Ni-MCM-41 supported catalysts and effects of Pt promoter addition on carbon dioxide reforming of methane |
| title_sort |
study of co-and ni-mcm-41 supported catalysts and effects of pt promoter addition on carbon dioxide reforming of methane |
| publishDate |
2010 |
| url |
http://hdl.handle.net/10356/40000 |
| _version_ |
1759854980662034432 |