柴油发动机高效清洁燃烧过程中形成的微粒和前体化合物的意义

SAE transactions Pub Date : 2005-10-24 DOI:10.4271/2005-01-3844

C. Sluder, R. M. Wagner, J. Storey, S. Lewis

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引用次数: 39

摘要

先进的柴油燃烧模式有望减少发动机排出的颗粒和氮氧化物排放，从而减少对燃烧后排放控制装置的需求。在该活动中，轻型柴油发动机在传统和高级燃烧模式下运行。所研究的先进燃烧模式对应于清洁(即低PM和低nox)和清洁高效燃烧。低nox、低pm模式被认为是一种中间状态，低nox、低pm的高效模式被称为高效清洁燃烧(HECC)。在所有这些实验中，对颗粒物和气体排放进行了分析。详细的废气化学分析提供了重要的新信息，以提高我们对这些模式的理解，以及识别潜在重要的不受管制的排放。

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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Implications of Particulate and Precursor Compounds Formed During High-Efficiency Clean Combustion in a Diesel Engine

Advanced diesel combustion modes offer the promise of reduced engine-out particulate and nitrogen oxide emissions, thereby reducing the demand on post-combustion emission control devices. In this activity, a light-duty diesel engine was operated in conventional and advanced combustion modes. The advanced combustion modes investigated correspond to both clean (i.e., low PM and low NO x ) and clean efficient combustion. The low-NOx, low-PM mode is considered an intermediate condition and the low-NO x , low-PM efficient mode is referred to as high efficiency clean combustion (HECC). Particulate and gaseous emissions were analyzed during all of these experiments. The detailed exhaust chemistry analysis provided significant new information to improving our understanding of these modes as well as identifying potentially important unregulated emissions.

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