Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication
碩士 === 國立成功大學 === 化學工程學系 === 105 === In this study we focus on designing HZSM-5 (Si/Al ratio = 11.5) in methanol aromatization. The first part is to explore the synergistic effect of disilication and Ga doping in HZSM-5. Desilication not only increases mesoporisity and reduces mass transfer resistan...
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2017
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ndltd-TW-105NCKU50630292019-05-15T23:47:01Z http://ndltd.ncl.edu.tw/handle/wrwa4e Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication 除矽與含浸鎵之HZSM-5觸媒於甲醇芳香化之研究 Po-ChenLai 賴柏辰 碩士 國立成功大學 化學工程學系 105 In this study we focus on designing HZSM-5 (Si/Al ratio = 11.5) in methanol aromatization. The first part is to explore the synergistic effect of disilication and Ga doping in HZSM-5. Desilication not only increases mesoporisity and reduces mass transfer resistance, but also enhances Brønsted acidity. In addition, gallium precursor, (Ga(NO3)3 6H2O), is easier to diffuse into HZSM-5 cavities and contacts with Brønsted acid to form cyclodehydrogenation center compared to its pristine counterpart. Ga-doped, desilicated HZSM-5 (Ga-AT0.01) has maximum aromatics selectivity at 500℃. The second part of this work is to synthesize Ga-doped, desilicated HZSM-5 with systematically increased alkalinity. Enhancing alkalinity in desilicatoin can improve the amounts of (GaO)+-Brønsted acid site. However, severe alkalinity can destroyed HZSM-5 structure (AT-0.2). This leads Ga/AT-0.05 to be an optimal MTA catalyst. Yu-Chuan Lin 林裕川 2017 學位論文 ; thesis 81 zh-TW |
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zh-TW |
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碩士 === 國立成功大學 === 化學工程學系 === 105 === In this study we focus on designing HZSM-5 (Si/Al ratio = 11.5) in methanol aromatization. The first part is to explore the synergistic effect of disilication and Ga doping in HZSM-5. Desilication not only increases mesoporisity and reduces mass transfer resistance, but also enhances Brønsted acidity. In addition, gallium precursor, (Ga(NO3)3 6H2O), is easier to diffuse into HZSM-5 cavities and contacts with Brønsted acid to form cyclodehydrogenation center compared to its pristine counterpart. Ga-doped, desilicated HZSM-5 (Ga-AT0.01) has maximum aromatics selectivity at 500℃.
The second part of this work is to synthesize Ga-doped, desilicated HZSM-5 with systematically increased alkalinity. Enhancing alkalinity in desilicatoin can improve the amounts of (GaO)+-Brønsted acid site. However, severe alkalinity can destroyed HZSM-5 structure (AT-0.2). This leads Ga/AT-0.05 to be an optimal MTA catalyst.
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Yu-Chuan Lin |
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Yu-Chuan Lin Po-ChenLai 賴柏辰 |
| author |
Po-ChenLai 賴柏辰 |
| spellingShingle |
Po-ChenLai 賴柏辰 Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
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Po-ChenLai |
| title |
Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
| title_short |
Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
| title_full |
Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
| title_fullStr |
Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
| title_full_unstemmed |
Methanol Aromatization over Ga-supported HZSM-5 with Evolved Meso- and Microporosities by Desilication |
| title_sort |
methanol aromatization over ga-supported hzsm-5 with evolved meso- and microporosities by desilication |
| publishDate |
2017 |
| url |
http://ndltd.ncl.edu.tw/handle/wrwa4e |
| work_keys_str_mv |
AT pochenlai methanolaromatizationovergasupportedhzsm5withevolvedmesoandmicroporositiesbydesilication AT làibǎichén methanolaromatizationovergasupportedhzsm5withevolvedmesoandmicroporositiesbydesilication AT pochenlai chúxìyǔhánjìnjiāzhīhzsm5chùméiyújiǎchúnfāngxiānghuàzhīyánjiū AT làibǎichén chúxìyǔhánjìnjiāzhīhzsm5chùméiyújiǎchúnfāngxiānghuàzhīyánjiū |
| _version_ |
1719154428083175424 |