柴油机NOx后处理中的催化作用研究进展

Q1 Materials Science Catalysis Structure & Reactivity Pub Date : 2015-10-02 DOI:10.1080/2055074X.2015.1105615

M. Piumetti, S. Bensaid, D. Fino, N. Russo

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引用次数: 73

摘要

稀燃条件下氮氧化物(NOx)的催化还原是催化研究的一个重要目标。本文综述了与柴油发动机车辆最相关的催化NOx减排系统，重点介绍了主要的催化方面和材料。综述了柴油NOx的5种后处理技术:(1)直接催化分解;(ii)催化还原;(iii)氮氧化物捕集器;(iv)等离子体辅助治疗;(五)结合烟尘燃烧减少NOx。每种方法都解决了可能影响催化活性的不同因素(例如促进或中毒元素，操作条件等)。在催化策略领域，使用多功能催化剂同时去除烟尘和氮氧化物是目前汽车行业最有趣的挑战之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Catalysis in Diesel engine NOx aftertreatment: a review

Abstract The catalytic reduction of nitrogen oxides (NOx) under lean-burn conditions represents an important target in catalysis research. The most relevant catalytic NOx abatement systems for Diesel engine vehicles are summarized in this short review, with focus on the main catalytic aspects and materials. Five aftertreatment technologies for Diesel NOx are reviewed: (i) direct catalytic decomposition; (ii) catalytic reduction; (iii) NOx traps; (iv) plasma-assisted abatement; and (v) NOx reduction combined with soot combustion. The different factors that can affect catalytic activity are addressed for each approach (e.g. promoting or poisoning elements, operating conditions, etc.). In the field of catalytic strategies, the simultaneous removal of soot and NOx using multifunctional catalysts, is at present one of the most interesting challenges for the automotive industry.

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