Synthesis and Gas Separation of Chabazite Zeolite Membranes

Abstract: Chabazite (CHA) zeolite membranes exhibit superior performances in light gas separations owing to the eight-membered ring channel structure with small pore size (0.38 nm), adjustable surface characteristics, and high material stability and preparation reproducibility, and have gradually become one of the hot spots of zeolite membrane research in recent years. This review article first introduces the basic characteristics, the two typical CHA zeolite membranes (SAPO-34 and SSZ-13 membranes), then compares the s… Show more

“…This fact shows us the inspiration that the separation of SO 2 and NO 2 has the potential of being transferred to SO 2 /N 2 O 4 separation where SO 2 has syntrophic contributions of smaller size and higher polarizability than N 2 O 4 . The typical aluminosilicate chabazite (SSZ-13) membrane may hold great potential for this type of separation due to the following reasons: (1) the SSZ-13 zeolite has eight-membered ring pores of 3.8 Å × 3.8 Å, ideal for molecular sieving of SO 2 over N 2 O 4 ; (2) SSZ-13 can be formed in high silica, rendering its good chemical stability (i.e., acid resistance), applicable for SO 2 separation from flue gas; and (3) the scale-up production of the SSZ-13 zeolite or membrane has been realized for application in automotive exhaust denitrification or dehydration of N -methyl pyrrolidone solution, showing promising industrialization prospect.…”

“…(2) SSZ-13 can be formed in high silica, 18 rendering its good chemical stability (i.e., acid resistance), applicable for SO 2 separation from flue gas; and (3) the scale-up production of the SSZ-13 zeolite or membrane has been realized for application in automotive exhaust denitrification 19 or dehydration of N-methyl pyrrolidone solution, 20 showing promising industrialization prospect.…”

Separation of SO₂ and NO₂ with the Zeolite Membrane: Molecular Simulation Insights into the Advantageous NO₂ Dimerization Effect

“…This fact shows us the inspiration that the separation of SO 2 and NO 2 has the potential of being transferred to SO 2 /N 2 O 4 separation where SO 2 has syntrophic contributions of smaller size and higher polarizability than N 2 O 4 . The typical aluminosilicate chabazite (SSZ-13) membrane may hold great potential for this type of separation due to the following reasons: (1) the SSZ-13 zeolite has eight-membered ring pores of 3.8 Å × 3.8 Å, ideal for molecular sieving of SO 2 over N 2 O 4 ; (2) SSZ-13 can be formed in high silica, rendering its good chemical stability (i.e., acid resistance), applicable for SO 2 separation from flue gas; and (3) the scale-up production of the SSZ-13 zeolite or membrane has been realized for application in automotive exhaust denitrification or dehydration of N -methyl pyrrolidone solution, showing promising industrialization prospect.…”

“…(2) SSZ-13 can be formed in high silica, 18 rendering its good chemical stability (i.e., acid resistance), applicable for SO 2 separation from flue gas; and (3) the scale-up production of the SSZ-13 zeolite or membrane has been realized for application in automotive exhaust denitrification 19 or dehydration of N-methyl pyrrolidone solution, 20 showing promising industrialization prospect.…”

Separation of SO₂ and NO₂ with the Zeolite Membrane: Molecular Simulation Insights into the Advantageous NO₂ Dimerization Effect

Synthesis Optimization of SSZ-13 Zeolite Membranes by Dual Templates for N2/NO2 Separation

Efficient separation of SO2/NO2 on in-situ synthesized NaA zeolite membrane