2018
DOI: 10.3390/catal8110537
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Catalytic Ethylene Oligomerization over Ni/Al-HMS: A Key Step in Conversion of Bio-Ethanol to Higher Olefins

Abstract: Al-modified hexagonal mesoporous silica (HMS) materials were synthesized using dodecylamine as a template according to the methods reported in the literature. FT-IR spectra proved that Al3+ ions entered in the HMS framework in Al-HMS (prepared by sol-gel reaction) but Al3+ ions existed in the extra-framework in Al/HMS (prepared by post-modification). NH3-TPD indicated that either Al-HMS or Al/HMS had solid acid sites on the surface, and the acidic strength of Al/HMS was stronger than that of Al-HMS. For ethyle… Show more

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Cited by 13 publications
(7 citation statements)
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“…Sugar/starch-base bioethanol is now produced on a large scale and is one of the most successful commercial biofuels mainly used for automobiles by partially blending with gasoline. However, the needs of ethanol for automobiles is expected to be stagnant or decreased in the foreseeable future, due to the ethanol blend-wall limitation as well as the incoming of electric and hydrogen-fueled vehicles [7,8]. Thus, it is necessary to develop new technologies for utilizing the excess ethanol in advance.…”
Section: Introductionmentioning
confidence: 99%
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“…Sugar/starch-base bioethanol is now produced on a large scale and is one of the most successful commercial biofuels mainly used for automobiles by partially blending with gasoline. However, the needs of ethanol for automobiles is expected to be stagnant or decreased in the foreseeable future, due to the ethanol blend-wall limitation as well as the incoming of electric and hydrogen-fueled vehicles [7,8]. Thus, it is necessary to develop new technologies for utilizing the excess ethanol in advance.…”
Section: Introductionmentioning
confidence: 99%
“…Nicontaining catalysts are regarded as the promising heterogeneous catalyst for synthesizing higher olefins via the ethylene oligomerization as reported in many studies [12][13][14][15]. The ethylene oligomerization over Ni-based catalyst has been carried out in wide ranges of temperatures and pressures in both batch and flow reactors [8,[11][12][13]16]. The reaction conditions such as temperature, pressure and space velocity, as well as, the catalytic properties have a strong effect on the activity and selectivity [12].…”
Section: Introductionmentioning
confidence: 99%
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“…Presently, global ethylene production is around 150 million tons per year and is expected to increase [1]. Ethylene is widely used to produce ethylene glycol as antifreeze and many organic materials, such as ethylene dichloride, acetaldehyde, acetic acid, ethylene glycol, chloroethanol, and vinyl acetate [2][3][4]. Nowadays, over 90% of ethylene is produced using the naphtha steam cracking process at temperatures of 750 to 900 • C [2][3][4][5], which requires huge amounts of energy and generates massive amounts of carbon dioxide [6].…”
Section: Introductionmentioning
confidence: 99%
“…Ethylene is widely used to produce ethylene glycol as antifreeze and many organic materials, such as ethylene dichloride, acetaldehyde, acetic acid, ethylene glycol, chloroethanol, and vinyl acetate [2][3][4]. Nowadays, over 90% of ethylene is produced using the naphtha steam cracking process at temperatures of 750 to 900 • C [2][3][4][5], which requires huge amounts of energy and generates massive amounts of carbon dioxide [6]. To overcome these problems, large investments were made in the development of new catalytic pathways for sustainable ethylene production and these developments resulted in processes such as the catalytic dehydrogenation of light alkanes and the dehydration of bioethanol.…”
Section: Introductionmentioning
confidence: 99%