Recyclable Iron Reduction Denitration: A Strategy for Removal of Nitrogen Oxides

Qin, Wu; Duan, Ruonan; Zheng, Xing; Zhang, Zhenxing; Zhang, Runsheng; Xiao, Xianbin; Zheng, Zongming

doi:10.1021/acs.energyfuels.3c03741

Energy Fuels

2023

DOI: 10.1021/acs.energyfuels.3c03741

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Recyclable Iron Reduction Denitration: A Strategy for Removal of Nitrogen Oxides

Wu Qin,

Ruonan Duan,

Xing Zheng

et al.

Abstract: An innovative recyclable denitration strategy was proposed, where Fe-based oxygen carriers (OCs) with various oxidation states act as the agent reducing NO into N 2 . Herein, the detailed redox properties of OCs were exploited to reveal the possibility and characteristic of the recyclable iron reduction denitration processes. Fe 2 O 3 supported on Al 2 O 3 was first prepared, and the lattice oxygen migration ability of the prepared OCs was detected. Then, the OCs were reduced by CO to obtain the low-valence ir… Show more

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2024

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Insight into the Key Role of Yttrium Modification for the Enhanced Hydrothermal Stability over Y-Cu-SSZ-39 Zeolite Catalysts

Li,

Yang,

Xia

et al. 2024

Energy Fuels

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Cu-SSZ-39 represents one of the most promising diesel selective catalytic reduction (SCR) catalysts, but it has remained challenging to gain superior low-temperature catalytic activity and hydrothermal stability for meeting the stringent diesel emission regulations. In this study, a diesel NO x purification catalyst with excellent low temperature catalytic activity and outstanding hydrothermal stability was synthesized. It was found that the denitration activity of fresh samples increased with increasing Y content throughout the temperature interval, while it decreased when the Y content exceeded 0.25%. Y modification can increase the proportion of ZCuOH (singly coordinated with an isolated Al atom) in 8MRs and strong Lewis acid sites, resulting in a significant better low temperature NO x reduction activity. The moderate amount of Y ions on the ion-exchange sites can well stabilize the framework of SSZ-39, which results in an enhancement effect on hydrothermal stability. Mechanism studies reveal that the interplay between Y and Cu not only enhances the electron transfer ability from Cu to Y ions but also inhibits the aggregation of Cu sites. This work may pave a new way for the next generation of advanced diesel NH 3 -SCR catalysts.

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Insight into the Key Role of Yttrium Modification for the Enhanced Hydrothermal Stability over Y-Cu-SSZ-39 Zeolite Catalysts

Li,

Yang,

Xia

et al. 2024

Energy Fuels

View full text Add to dashboard Cite

show abstract

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Recyclable Iron Reduction Denitration: A Strategy for Removal of Nitrogen Oxides

Cited by 1 publication

References 52 publications

Insight into the Key Role of Yttrium Modification for the Enhanced Hydrothermal Stability over Y-Cu-SSZ-39 Zeolite Catalysts

Insight into the Key Role of Yttrium Modification for the Enhanced Hydrothermal Stability over Y-Cu-SSZ-39 Zeolite Catalysts

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