CATALYTIC EVALUATION OF SMALL-PORE MOLECULAR SIEVES WITH DIFFERENT FRAMEWORK TOPOLOGIES FOR THE SYNTHESIS OF METHYLAMINES

Abstract

The catalytic properties of the proton form of seven different small-pore aluminosilicate zeolites (levyne, MCM-35, sigma-1, UZM-5, SSZ-13, SSZ-16, and rho), together with the silicoaluminophosphate analogs (SAPO-35, SAPO-34, and SAPO-56) of some of these zeolites, are compared in the synthesis of methylamines. Among the molecular sieves studied here, H-SSZ-16 was found to exhibit selectivities to monomethylamine and dimethylarnine comparable to those of H-rho, the most widely studied catalyst for this reaction, at about 90% methanol conversion (NH3/ MeOH = 1.0). However, no good stability is observed over even these two small-pore zeolites, while the absence of strong acids sites in silicoaluminophosphate materials appears to be an inherent drawback in terms of their application as amination catalysts. The overall results of this study lead us to conclude that the pore dimensionality, eight-ring cage volume, number and strength of acid sites, and thermal stability of small-pore materials, as well as their eight-ring pore dimension, are of considerable importance in achieving high amination activity and selectivity. (c) 2006 Elsevier B.V. All rights reserved.