Selective conversion of methanol to propylene over highly dealuminated mordenite: Al location and crystal morphology effects

The growing consumption of light olefins has stimulated intensive researches on methanol to olefin (MTO) process which possesses great advantages for coal conversion to value-added chemicals in an environmentally benign way. The catalysts commonly used for MTO process faces several challenges such a...

Full description

Saved in:
Bibliographic Details
Published in:Chinese journal of catalysis 2021-07, Vol.42 (7), p.1147-1159
Main Authors: Ren, Li, Wang, Bowen, Lu, Kun, Peng, Rusi, Guan, Yejun, Jiang, Jin-gang, Xu, Hao, Wu, Peng
Format: Article
Language:English
Subjects:
Al location
Crystal size
Dealumination
Methanol to propylene
Mordenite
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The growing consumption of light olefins has stimulated intensive researches on methanol to olefin (MTO) process which possesses great advantages for coal conversion to value-added chemicals in an environmentally benign way. The catalysts commonly used for MTO process faces several challenges such as poor selectivity control, low hydrothermal stability and short lifetime. In the present study, we prepared a series of mordenite zeolites with variable Al contents (Si/Al molar ratios of 51−436) by a sequential dealumination treatment of air-calcination and acid leaching. The textural properties, acidity and Al location before and after the dealumination treatment have been systematically studied and their effect on MTO especially the methanol to propylene (MTP) performance was thoroughly investigated. The mordenite zeolites with the Si/Al ratios over 150 selectively catalyzed methanol conversion in the MTP pathway, providing a high propylene selectivity of 63% and propylene/ethylene ratio of > 10. Compared to the low-silica MOR catalysts, highly dealuminated MOR showed much higher stability and longer lifetime, which can be further enhanced via harsh hydrothermal pretreatment. Furthermore, the lifetime was highly related to the crystal size along c-axis. The excellent performance of highly dealuminated MOR is likely ascribed to the mesopores formed upon dealumination and the scarce Al sites located in the T sites shared by the 8-member ring (MR) side pockets and 12-MR pore channels. The high-silica MOR catalysts (Si/Al >150) selectively catalyzed the methanol conversion in the methanol to propylene (MTP) way, providing a high propylene selectivity of 63% and a long lifetime of ~130 h. The excellent performance of highly dealuminated MOR is ascribed to the mesopores formed upon dealumination and the scarce Al sites located in the T sites shared by the 8-MR side pockets and 12-MR pore channels as well as the weakened acid strength.
ISSN:1872-2067
1872-2067
DOI:10.1016/S1872-2067(20)63726-3