Methanol-to-Olefinsin a Membrane Reactor with in situ Steam Removal – The Decisive Role of Coking

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Original languageEnglish
Pages (from-to)273-280
Number of pages8
JournalCHEMCATCHEM
Volume12
Issue number1
Early online date16 Oct 2019
Publication statusPublished - 9 Jan 2020

Abstract

The reaction of methanol to light olefins and water (MTO) was studied in a fixed bed tubular membrane reactor using commercial SAPO-34 catalyst. In the fixed bed reactor without membrane support, the MTO reaction collapsed after 3 h time on stream. However, if the reaction by-product steam is in situ extracted from the reactor through a hydrophilic tubular LTA membrane, the reactor produces long-term stable about 60 % ethene and 10 % propene. It is shown that the reason for the superior performance of the membrane-assisted reactor is not the prevention of catalyst damage caused by steam but the influence of the water removal on the formation of different carbonaceous residues inside the SAPO-34 cages. Catalytically beneficial methylated 1 or 2 ring aromatics have been found in a higher percentage in the MTO reaction with a water removal membrane compared to the MTO reaction without membrane support.

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Methanol-to-Olefinsin a Membrane Reactor with in situ Steam Removal – The Decisive Role of Coking. / Rieck genannt Best, Felix; Mundstock, Alexander; Dräger, Gerald et al.
In: CHEMCATCHEM, Vol. 12, No. 1, 09.01.2020, p. 273-280.

Research output: Contribution to journalArticleResearchpeer review

Rieck genannt Best F, Mundstock A, Dräger G, Rusch P, Bigall NC, Richter H et al. Methanol-to-Olefinsin a Membrane Reactor with in situ Steam Removal – The Decisive Role of Coking. CHEMCATCHEM. 2020 Jan 9;12(1):273-280. Epub 2019 Oct 16. doi: 10.1002/cctc.201901222, 10.15488/9169
Rieck genannt Best, Felix ; Mundstock, Alexander ; Dräger, Gerald et al. / Methanol-to-Olefinsin a Membrane Reactor with in situ Steam Removal – The Decisive Role of Coking. In: CHEMCATCHEM. 2020 ; Vol. 12, No. 1. pp. 273-280.
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abstract = "The reaction of methanol to light olefins and water (MTO) was studied in a fixed bed tubular membrane reactor using commercial SAPO-34 catalyst. In the fixed bed reactor without membrane support, the MTO reaction collapsed after 3 h time on stream. However, if the reaction by-product steam is in situ extracted from the reactor through a hydrophilic tubular LTA membrane, the reactor produces long-term stable about 60 % ethene and 10 % propene. It is shown that the reason for the superior performance of the membrane-assisted reactor is not the prevention of catalyst damage caused by steam but the influence of the water removal on the formation of different carbonaceous residues inside the SAPO-34 cages. Catalytically beneficial methylated 1 or 2 ring aromatics have been found in a higher percentage in the MTO reaction with a water removal membrane compared to the MTO reaction without membrane support.",
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AU - Bigall, Nadja C.

AU - Richter, Hannes

AU - Caro, Jürgen

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PY - 2020/1/9

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N2 - The reaction of methanol to light olefins and water (MTO) was studied in a fixed bed tubular membrane reactor using commercial SAPO-34 catalyst. In the fixed bed reactor without membrane support, the MTO reaction collapsed after 3 h time on stream. However, if the reaction by-product steam is in situ extracted from the reactor through a hydrophilic tubular LTA membrane, the reactor produces long-term stable about 60 % ethene and 10 % propene. It is shown that the reason for the superior performance of the membrane-assisted reactor is not the prevention of catalyst damage caused by steam but the influence of the water removal on the formation of different carbonaceous residues inside the SAPO-34 cages. Catalytically beneficial methylated 1 or 2 ring aromatics have been found in a higher percentage in the MTO reaction with a water removal membrane compared to the MTO reaction without membrane support.

AB - The reaction of methanol to light olefins and water (MTO) was studied in a fixed bed tubular membrane reactor using commercial SAPO-34 catalyst. In the fixed bed reactor without membrane support, the MTO reaction collapsed after 3 h time on stream. However, if the reaction by-product steam is in situ extracted from the reactor through a hydrophilic tubular LTA membrane, the reactor produces long-term stable about 60 % ethene and 10 % propene. It is shown that the reason for the superior performance of the membrane-assisted reactor is not the prevention of catalyst damage caused by steam but the influence of the water removal on the formation of different carbonaceous residues inside the SAPO-34 cages. Catalytically beneficial methylated 1 or 2 ring aromatics have been found in a higher percentage in the MTO reaction with a water removal membrane compared to the MTO reaction without membrane support.

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