Protection Effect of Ammonia on CeNbTi NH3-SCR Catalyst from SO2 Poisoning

Gao, Yang; Cao, Li; Wu, Xiaodong; Zhang, Xu; Ma, Ziran; Ran, Rui; Si, Zhichun; Weng, Duan; Wang, Baodong

doi:10.3390/catal12111430

Catalysts

2022

DOI: 10.3390/catal12111430

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Protection Effect of Ammonia on CeNbTi NH3-SCR Catalyst from SO2 Poisoning

Yang Gao

Li Cao

Xiaodong Wu

et al.

Abstract: CeNbTi catalyst was poisoned in different sulfur poisoning atmospheres at 300 °C for 6 h and then was evaluated for selective catalytic reduction (SCR) of NOx with NH3. The catalyst deactivation upon SO2 exposure was effectively inhibited in the presence of NH3. Temperature-programmed decomposition (TPD) analyses were applied to identify deposit species on the poisoned catalysts by comparison with several groups of reference samples. Diffuses reflectance infrared Fourier transform spectroscopy (DRIFTS) over Ce… Show more

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2024

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TiO2-Supported Catalysts in Low-Temperature Selective Reduction of NOx with NH3: A Review of Recent Progress

Bian,

Wang,

Bai

et al. 2024

Catalysts

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Selective catalytic reduction (SCR) stands out as a pivotal method for curbing NOx emissions from flue gas. The support, crucially, for SCR efficacy, loads and interacts with the active components within the catalyst. The catalysts could be amplified by the denitration performance of the catalyst by enhancements in support pore structure, acidity, and mechanical robustness. These improvements ensure efficient interaction between the support and active materials, thereby optimizing the structure and property of the catalysts. TiO2 is the most commonly used support of the NH3-SCR catalyst. The catalyst with TiO2 support has poor thermal stability and a narrow temperature range, which can be improved. This paper reviews the research progress on the effects of various aspects of TiO2 support on the NH3-SCR catalyst’s performance, focusing on the TiO2 crystal type, TiO2 crystal surface, different TiO2 structures, TiO2 support preparation methods, and the effects of TiO2-X composite support on the NH3-SCR catalyst’s performance. The reaction mechanism, denitrification performance, and anti-SO2/H2O poisoning performance and mechanism of TiO2 support with different characteristics were described. At the same time, the development trend of the NH3-SCR catalyst using TiO2 as the support is prospected. It is hoped that this work can provide optimization ideas for SCR catalyst research.

show abstract

TiO2-Supported Catalysts in Low-Temperature Selective Reduction of NOx with NH3: A Review of Recent Progress

Bian,

Wang,

Bai

et al. 2024

Catalysts

View full text Add to dashboard Cite

show abstract

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Protection Effect of Ammonia on CeNbTi NH3-SCR Catalyst from SO2 Poisoning

Cited by 1 publication

References 48 publications

TiO2-Supported Catalysts in Low-Temperature Selective Reduction of NOx with NH3: A Review of Recent Progress

TiO2-Supported Catalysts in Low-Temperature Selective Reduction of NOx with NH3: A Review of Recent Progress

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