(610d) Chemical Vapor Deposition on Chabazite (CHA) Zeolite Membranes for Improving CO2/N2 Separation Performance

Chemical Vapor Deposition on Chabazite (CHA) Zeolite Membranes for Improving
CO₂/N₂ Separation Performance

Yanghwan Jeong¹, Jungkyu Choi¹*

¹Department of Chemical & Biological Engineering, College of
Engineering, Korea University, Anam-dong, Seongbuk-gu, Seoul, 02841, Republic of Korea

*E-mail:
jungkyu_choi@korea.ac.kr

Chabazite (CHA)
zeolites with a pore size of 0.37 * 0.42 nm² are expected to
separate CO₂ (0.33 nm) from larger N₂ (0.364
nm) in post-combustion flue gases by recognizing their minute size
differences. Furthermore, the hydrophobic siliceous constituent in CHA
membranes can allow for maintaining the CO₂/N₂ separation
performance in the presence of H₂O in contrast with the CO₂ affinity-based
membranes. In an attempt to increase the molecular sieving ability, the pore
mouth size of all silica CHA (Si-CHA) particles was reduced via the chemical
vapor deposition (CVD) of a silica precursor (tetraethyl orthosilicate). Accordingly, an increase of the CVD
treatment duration decreased the penetration rate of CO₂ into
the CVD-treated Si-CHA particles. Furthermore, the CVD process was applied to
siliceous CHA membranes in order to improve their CO₂/N₂ separation
performance. Compared to the intact CHA membranes, the CO₂/N₂ maximum
separation factor (max SF) for CVD-treated CHA membranes was increased
by 2 fold under dry conditions. More
desirably, the CO₂/N₂ max SF was increased by 3
fold under wet conditions at 50 ¡ÆC, a representative temperature of
the flue gas stream. In fact, the presence of H₂O in the feed
disfavored the permeation of N₂ more than that of CO₂ through
CVD-modified CHA membranes and thus, contributed to the increased CO₂/N₂ separation
factor.