Methanol conversion to aromatics on metal-containing MFI-type catalysts

Abstract

The conversion of methanol to aromatic hydrocarbons was investigated over MFI-type (ZSM-5) catalysts containing various metals. It has been shown that zinc and iron improve both the activity and the selectivity or methanol aromatization. Even with less amount of Zn or Fe loading. Zn or Fe exchanged MFI exhibited higher selectivity for aromatics, mainly benzene, toluene, and xylene (BTX), than that of Zn-silicate of Fe-silicate. This may be attributed to the presence of Al in Zn or Fe exchanged MFI which increase the catalyst acidity. Further development was done by preparing Zn.Al- or Fe. Al-silicates with purpose of minimizing the catalyst preparation procedure. It has been found that H-Zn. Al-silicate having Si/Zn ratio of 40 and Sl/Al ratio of 40 and NH₄. Fe-Al-silicate having Si/Fe ratio of 40 and Sl/Al ratio of 40 exerted considerably selectivity for aromatic, ca. 31% and 20% of BTX respectively. This selectivity was comparable to that of Zn or Fe exchanged MFI with the same amount of Zn or Fe loading. However, the bimetallosilicate catalysts can be prepared in only one step crystallization and thus minimizing the catalyst preparation procedure. The introduction of platinum into H-Zn. Al-silicate by ion-exchange gave the beneficial effect to enhance the stability of catalyst. This was attributed to presence of in Pt in zeolite framework which facilitate the hydrogen transfer to the coke precursors on the catalyst surface.