Durable and highly selective tungsten-substituted MFI metallosilicate catalysts for the methanol-to-propylene process by designing a novel feed-supply technique - 02/03/18
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Abstract |
For the catalytic reaction of methanol to propylene (MTP), conventional H-ZSM-5 and W-substituted MFI metallosilicate catalysts were successfully synthesized using a hydrothermal method. The catalysts were properly characterized by several techniques. For comparison of the catalytic lifetime, feedstock of MTP was provided by both a conventional system and a novel feed-supply technique. The novel technique used the piezoelectric ultrasonic effect. It was revealed that feed composition via novel feed-supply technique remained totally constant, whereas with conventional system it relatively changed. Complete methanol conversion, higher propylene yield of 54.3%, greater light olefin yield of 85.2%, and longer-term catalytic lifetime of 101 h were productively obtained for H-W(250)AlMFI catalyst using a novel method for provision of feed. The better performance of this catalyst can be attributed to adequate content of tungsten, appropriate mesoporosity, sufficient strength of acidic sites, and stable feed composition of the novel feed-supply technique. Furthermore, the MTP process was miniaturized by the piezoelectric ultrasonic device.
Le texte complet de cet article est disponible en PDF.Graphical abstract |
Highlights |
• | For methanol to propylene (MTP) reaction, W-substituted mordenite framework inverted (MFI) metallosilicates were synthesized hydrothermally. |
• | The piezoelectric ultrasonic device was designed to supply the feed of the MTP process. |
• | It caused process miniaturization by removal of pump, preheater, and mixing chamber. |
• | The composition of feed remained almost constant by a novel feed-supply technique. |
• | Maximum propylene yield was obtained by using the novel feed-supply technique. |
Keywords : W-substituted MFI metallosilicate, Methanol to propylene, Catalytic lifetime, Piezoelectric ultrasonic effect, Process miniaturization
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