Abstract
Li-X zeolites have been widely used as nitrogen-selective adsorbents in oxygen concentrators. However, the synthesis of Li-X zeolites requires an excessive amount of Li for ion exchange, and Li-X zeolites are vulnerable to humid conditions because of their high affinity for water vapor. To solve these problems, a ZSM-5 zeolite exchanged with both Cu and Li (CuLi-ZSM-5) was developed for N2 adsorption. CuLi-ZSM-5 achieved a high Li content (Li/Al =0.84) despite the use of a smaller amount of Li in its ion-exchange procedure and exhibited higher N2 uptake (0.81 mmol/g) at 298 K than the Li-X zeolite (0.69 mmol/g). This is possibly because the Li+ in CuLi-ZSM-5 is effectively distributed at sites accessible for N2 adsorption. In addition, CuLi-ZSM-5 had higher N2/O2 selectivity in the low-pressure range and a much lower affinity for water vapor than the Li-X zeolite, resulting in significantly lower H2O/N2 selectivity. CuLi-ZSM-5 has the potential to be a new economical N2-selective adsorbent with low interference from water vapor.
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