Urea Decomposition and Implication for NO(x)Reduction with Cu-Zeolite and Vanadia-Selective Catalytic Reduction

Wu Yi-Jiang; Wang Fengshuang; Tang WeiyongKakwani RameshHou YalingFeng Gang

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Urea Decomposition and Implication for NO(x)Reduction with Cu-Zeolite and Vanadia-Selective Catalytic Reduction

机译：尿素分解和含义没有Cu-Zeolite和减少(x)Vanadia-Selective催化还原

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Understanding urea decomposition is critical to achieve highly efficient selective catalytic reduction (SCR). The urea decomposition process in an exhaust pipe and in Cu-zeolite and vanadia-SCR (V-SCR) was studied in engine test cells. The unconverted urea at the SCR inlet can be substantial at lower temperatures. HNCO and NH(3)are two dominant products at the SCR inlet. Urea and HNCO continue to decompose in SCR catalysts, with a rate much faster than in the homogeneous stream. The HNCO hydrolysis process is extremely efficient in Cu-zeolite SCR and the abundant NH(3)from urea overdosing can improve the NO(x)conversion efficiency. While for V-SCR, the HNCO hydrolysis reaction can become the rate-limiting step (especially after aging), abundant urea at low temperatures impairs NO(x)reduction.

机译：理解尿素分解是至关重要的实现高效的选择性催化减少(SCR)。在一个排气管和Cu-zeolitevanadia-SCR (V-SCR)研究了在发动机测试细胞。在低温下是实质性的。NH(3)是两个可控硅主导产品进口。尿素和可控硅HNCO继续分解催化剂,速度快得多均匀流。非常有效的Cu-zeolite可控硅和丰富的NH(3)从尿素用药可以改善无(x)转换效率。HNCO水解反应可以成为病原反应步骤(特别是老化后),丰富的尿素在低温下会损害没有减少(x)。

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来源
《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology》 |2020年第9期|1758-1764|共7页
作者
Wu Yi-Jiang; Wang Fengshuang; Tang WeiyongKakwani RameshHou YalingFeng Gang;
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作者单位

BASF Corp, Iselin, NJ 08830 USA;

State Key Lab Engine Reliabil, Weifang 261001, Peoples R China;

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原文格式 PDF
正文语种英语
中图分类 C16;
关键词
Urea; Tail pipes; Selective catalytic reduction (SCR)KineticsModelingImplication;

机译：尿素,尾水管;选择性催化还原(SCR) KineticsModelingImplication;

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Urea Decomposition and Implication for NO(x)Reduction with Cu-Zeolite and Vanadia-Selective Catalytic Reduction

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