Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen
The direct conversion of methane to aromatics, mainly benzene without using oxygen, was studied. In prior, a comparison was conducted for the catalytic properties of W/USY, W/Al2O3, W/Hbeta, W/HZSM-5. Among all the support used, the W/HZSM-5 catalyst showed the best activity and stability with highe...
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my.utm.52832017-06-12T06:52:59Z http://eprints.utm.my/id/eprint/5283/ Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen Kusmiyati, Kusmiyati Saidina Amin, Nor Aishah T Technology (General) The direct conversion of methane to aromatics, mainly benzene without using oxygen, was studied. In prior, a comparison was conducted for the catalytic properties of W/USY, W/Al2O3, W/Hbeta, W/HZSM-5. Among all the support used, the W/HZSM-5 catalyst showed the best activity and stability with highest methane conversion of 8.4%, corresponding to aromatics selectivity of 97.54% at 973 K and 1 atm. Meanwhile, almost~7% of methane was converted on the other W-supported catalysts, which were drastically deactivated. Further study was performed to investigate the role of acidity of the W/HZSM-5 catalyst. The acidic properties of the catalysts undergone changes due to the introduction of Li ion. The catalytic properties for those catalysts with Li contents, including 3W/Li-HZSM-5(10), 3W/Li-HZSM-5(12), 3W/Li-HZSM-5(46), and 3WLi-ZSM-5 catalysts were tested at 1073 K and 1 atm. The results demonstrated that the introduction of a certain amount of Li into the ZSM-5 catalyst influences the catalytic performance of dehydroaromatization of methane under the non-oxidative condition. Over W/HZSM-5, a maximum methane conversion achieved was 16%, but decreased considerably to 8% over 320 min. of time on stream. Furthermore, the corresponding aromatic selectivity dropped rapidly from 93% to 56%. While, over the 3W/Li-HZSM-5(10) catalyst which contains 74% of strong acid sites of the parent HZSM-5, a slight decrease in methane conversion from 18% to 12%, corresponding to aromatics from 91 % to 85%, was observed after 320 min. of time on stream. However, in the case of more Li content was added, the activity of the catalyst decreased as shown those on the 3W/Li-HZSM-5(12), 3W/Li-HZSM-5(46), and 3W/Li-ZSM-5 catalysts. Also it was found that the catalyst performance could be improved by reducing the amount of the strong acid sites, but considerable reduction in the amount of acidic sites, particularly the Bronsted acid sites, is unfavorable for the non-oxidative methane dehydroaromatization. The 3W/Li-HZSM-5(10) catalyst is found to be suitable catalyst as it has the optimum Bronsted acid sites and consequently, gives the maximum methane conversion and selectivity to aromatics. These results suggest that Li modified W/HZSM-5 catalysts is bifunctional catalyst in which both W active sites and Bronsted acid sites of HZSM-5 support are crucial factors for good catalytic performance. 2005 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/5283/1/Kusmiyati2005_BifunctionalCatalysisOfWHZSM-5ForDehydroaromatizationOfMethane.pdf Kusmiyati, Kusmiyati and Saidina Amin, Nor Aishah (2005) Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen. In: Annual Fundamental Science Seminar 2005, July 4-5, 2005, Ibnu Sina Institute for Fundamental Science Studies, UTM. |
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T Technology (General) Kusmiyati, Kusmiyati Saidina Amin, Nor Aishah Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| description |
The direct conversion of methane to aromatics, mainly benzene without using oxygen, was studied. In prior, a comparison was conducted for the catalytic properties of W/USY, W/Al2O3, W/Hbeta, W/HZSM-5. Among all the support used, the W/HZSM-5 catalyst showed the best activity and stability with highest methane conversion of 8.4%, corresponding to aromatics selectivity of 97.54% at 973 K and 1 atm. Meanwhile, almost~7% of methane was converted on the other W-supported catalysts, which were drastically deactivated. Further study was performed to investigate the role of acidity of the W/HZSM-5 catalyst. The acidic properties of the catalysts undergone changes due to the introduction of Li ion. The catalytic properties for those catalysts with Li contents, including 3W/Li-HZSM-5(10), 3W/Li-HZSM-5(12), 3W/Li-HZSM-5(46), and 3WLi-ZSM-5 catalysts were tested at 1073 K and 1 atm. The results demonstrated that the introduction of a certain amount of Li into the ZSM-5 catalyst influences the catalytic performance of dehydroaromatization of methane under the non-oxidative condition. Over W/HZSM-5, a maximum methane conversion achieved was 16%, but decreased considerably to 8% over 320 min. of time on stream. Furthermore, the corresponding aromatic selectivity dropped rapidly from 93% to 56%. While, over the 3W/Li-HZSM-5(10) catalyst which contains 74% of strong acid sites of the parent HZSM-5, a slight decrease in methane conversion from 18% to 12%, corresponding to aromatics from 91 % to 85%, was observed after 320 min. of time on stream. However, in the case of more Li content was added, the activity of the catalyst decreased as shown those on the 3W/Li-HZSM-5(12), 3W/Li-HZSM-5(46), and 3W/Li-ZSM-5 catalysts. Also it was found that the catalyst performance could be improved by reducing the amount of the strong acid sites, but considerable reduction in the amount of acidic sites, particularly the Bronsted acid sites, is unfavorable for the non-oxidative methane dehydroaromatization. The 3W/Li-HZSM-5(10) catalyst is found to be suitable catalyst as it has the optimum Bronsted acid sites and consequently, gives the maximum methane conversion and selectivity to aromatics. These results suggest that Li modified W/HZSM-5 catalysts is bifunctional catalyst in which both W active sites and Bronsted acid sites of HZSM-5 support are crucial factors for good catalytic performance. |
| format |
Conference or Workshop Item |
| author |
Kusmiyati, Kusmiyati Saidina Amin, Nor Aishah |
| author_facet |
Kusmiyati, Kusmiyati Saidina Amin, Nor Aishah |
| author_sort |
Kusmiyati, Kusmiyati |
| title |
Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| title_short |
Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| title_full |
Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| title_fullStr |
Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| title_full_unstemmed |
Bifunctional catalysis of W/HZSM-5 for dehydroaromatization of methane in the absence of oxygen |
| title_sort |
bifunctional catalysis of w/hzsm-5 for dehydroaromatization of methane in the absence of oxygen |
| publishDate |
2005 |
| url |
http://eprints.utm.my/id/eprint/5283/1/Kusmiyati2005_BifunctionalCatalysisOfWHZSM-5ForDehydroaromatizationOfMethane.pdf http://eprints.utm.my/id/eprint/5283/ |
| _version_ |
1643644280405753856 |
| score |
13.211869 |