Combined Operando UV/Vis/IR Spectroscopy Reveals the Role of Methoxy and Aromatic Species during the Methanol-to-Olefins Reaction over H-SAPO-34

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Access status: Embargo until 2050-01-01 , 3396_ftp.pdf (2.86 MB)

Publication date

2014-12

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Qian, QingyunISNI 0000000419518811
Vogt, CharlotteISNI 0000000493300124
Mokhtar, Mohamed
Asiri, Abdullah M.
Al-Thabaiti, Shaeel A.
Basahel, Suliman N.
Ruiz-Martinez, JavierISNI 000000039343415X
Weckhuysen, B.M.ORCID 0000-0001-5245-1426ISNI 0000000110540180

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Abstract

The methanol-to-olefins (MTO) process over H-SAPO-34 is investigated by using an operando approach combining UV/Vis and IR spectroscopies with on-line mass spectrometry. Methanol, methoxy, and protonated dimethyl ether are the major species during the induction period, whereas polyalkylated benzenes and polyaromatic species are encountered in the active stage of the MTO process. The accessibility of SAPO-34 is linked with the amount of methoxy species, whereas the formation of polyaromatic species that block the pores is the main cause of deactivation. Furthermore, the reaction pathways responsible for the formation of olefins and polyaromatics co-exist and compete during the whole MTO process, and both routes are directly related to the amount of surface poly alkylated benzene carbocations and methoxy species. Hence, a first-order kinetic model is proposed and comparable activation energies for both processes are obtained.

Keywords

alcohols, alkenes, in situ analysis, kinetics, zeolites, SINGLE-PARTICLE SPECTROSCOPY, SAPO-34 MOLECULAR-SIEVES, ZEOLITE H-BETA, HYDROCARBONS REACTION, REACTION-MECHANISM, DIMETHYL ETHER, MTO REACTION, CO-REACTION, CONVERSION, CATALYSTS

Citation

Qian, Q, Vogt, C, Mokhtar, M, Asiri, A M, Al-Thabaiti, S A, Basahel, S N, Ruiz-Martinez, J & Weckhuysen, B M 2014, 'Combined Operando UV/Vis/IR Spectroscopy Reveals the Role of Methoxy and Aromatic Species during the Methanol-to-Olefins Reaction over H-SAPO-34', ChemCatChem, vol. 6, no. 12, pp. 3396-3408. https://doi.org/10.1002/cctc.201402714