The Effect of Spark Retard on Engine-out Hydrocarbon Emissions

SAE transactions Pub Date : 2005-10-24 DOI:10.4271/2005-01-3867

J. Eng

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引用次数: 37

Abstract

Using spark retard during a cold-start is a very effective means of achieving fast catalyst light-off. In addition to obtaining faster catalyst light-off, retarding the spark also results in lower engine-out HC emissions. The objective of this research was to understand the reasons for the decrease in HC emissions with spark retard. In order to make the results as unambiguous as possible, the experiments were performed on a dynamometer at constant speed and load conditions using pre-vaporized, premixed gasoline. A zero-dimensional ring-pack crevice flow model was used to determine the mass flows into and out of the piston crevice during the engine cycle. The analysis showed that with spark retard a large fraction of the unburned fuel from the ring-pack re-entered the cylinder before the end of flame propagation, and was consumed by the flame when it extinguished on the cylinder wall. The level of post-flame HC consumption was estimated as the difference between the measured engine-out HC emissions and the unburned fuel re-entering the cylinder after the end of flame propagation, which was taken to be the crankangle of 90% mass fraction burned. Even with the most severe levels of spark retard the majority of the HC consumption, up to 70%, takes place by the flame within the cylinder before exhaust valve opening.

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火花延迟对发动机熄火碳氢化合物排放的影响

在冷启动期间使用火花延迟是实现快速催化剂点火的一种非常有效的手段。除了获得更快的催化剂点燃，延迟火花也导致较低的发动机出HC排放。本研究的目的是了解与火花延迟HC排放减少的原因。为了使结果尽可能明确，实验在恒速和负载条件下使用预汽化，预混汽油在测力机上进行。采用零维环包间隙流动模型，确定了发动机循环过程中活塞间隙的质量流量。分析表明，由于火花延迟，在火焰传播结束之前，环包中有很大一部分未燃烧的燃料重新进入气缸，并在火焰在气缸壁上熄灭时被火焰消耗。燃烧后的HC消耗水平是测量出的发动机HC排放与火焰传播结束后未燃烧的燃料重新进入气缸的差值，取90%质量分数燃烧的曲角。即使在最严重的火花延迟水平下，大部分HC消耗，高达70%，在排气阀打开之前，由气缸内的火焰发生。

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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SAE transactions

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