期刊
ENVIRONMENTAL SCIENCE & TECHNOLOGY
卷 41, 期 22, 页码 7901-7906出版社
AMER CHEMICAL SOC
DOI: 10.1021/es071779g
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Zeolite matrix FAU is applied as an effective support that can be readily exchanged with ferric ions simply by wet ion exchange. The high exchange degree in this zeolite (USY) probably benefits from its larger channel dimension, which makes the diffusion of hydrated ferric ions into the channels easier. The as-prepared and subsequently calcined Fe-ASY samples contain various kinds of iron species,which enable Fe-USY to efficiently decompose N2O to N-2 and O-2. The presence of O-2 (20%), H2O (2%), or both reduces the N2O conversion only to a small extent at the same temperature. To test the feasibility and the catalytic activity in a practical situation, we prepared a monolithic Fe-USY/cordierite sample and investigated the N2O conversion under similar conditions. Such a cordierite-supported Fe-USY catalyst (similar to 9 wt % USY and 0.5 wt % Fe) shows the catalytic performance in N2O decomposition similar to the pure Fe-USY catalyst. Remarkably, both the pure Fe-USY and Fe-USY/cordierite catalysts demonstrate a very good durability because there is no activity lost after 100 and 144 h tests. Thus, the Fe-USY zeolite shows its potential as a cost-effective catalyst for N2O elimination in future applications.
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