Fe-Al isomorphous and self-pillared ZSM-5 nanosheet catalyst for cracking of n-heptane with enhanced selectivity of light olefins

Series Fe-Al isomorphous and self-pillared ZSM-5 nanosheets zeolite (Al-Fe-SPZ) with different Fe/Al molar ratios were synthesized by one-pot strategy for catalytic cracking of n-heptane to produce light olefins. All the Al-Fe-SPZ catalysts gave high surface areas and pore volumes, ascribing to the intersection of nanosheet layers. The addition of Fe in zeolite framework resulted in the decrease of surface acid concentrations (especially the strong acid concentrations). The effect of Fe modification on olefins selectivity in catalytic cracking reaction had two sides. On one hand, reducing the amount of acid, helped to inhibit the hydride transfer, cyclization and aromatic cyclization of olefins in the product at adjacent Bronsted acid sites. However, the reduced acid concentrations led to the decrease of the cracking depth, and the cracking of intermediate products (C-4 and C-5) was inhibited, thus giving a decreased olefin selectivity. With Si/(Al+Fe) molar ratio of 100 and Al/Fe ratio of 84/16, Al-Fe-SPZ catalyst gave the highest yield of light olefins (44.8 wt% of ethylene and propylene) in cracking of n-heptane. In addition, Fe modified zeolite catalyst show excellent cracking stability with low coke deposition.

Automated summary

Fe-Al isomorphous and self-pillared ZSM-5 nanosheets zeolite (Al-Fe-SPZ) with different Fe/Al molar ratios were synthesized by one-pot strategy for catalytic cracking of n-heptane to produce light olefins. Adding Fe into zeolite framework reduced surface acid concentrations and affected the olefins selectivity in catalytic cracking reactions.