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A Lean Burn Gasoline Fueled Pre-Chamber Jet Ignition Combustion System Achieving High Efficiency and Low NOx at Part Load

机译:贫燃汽油燃料的预燃室喷射式燃烧系统,在部分负荷下实现了高效率和低NOx

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摘要

Turbulent Jet Ignition is an advanced spark initiated pre-chamber combustion system for otherwise standard spark ignition engines. Combustion in the main chamber is initiated by jets of partially combusted (reacting) pre-chamber products which provide a high energy ignition source. The resultant widely distributed ignition sites allow relatively small flame travel distances enabling short combustion durations and high burn rates. Demonstrated benefits include ultra lean operation (λ>2) at part load and high load knock limit extension. Previous jet ignition experimental results have highlighted high thermal efficiencies, high load capability and near zero engine out NOx emissions in a standard contemporary engine platform. Although previous results of this system have been very promising, the main hurdle has been the need for a dual fuel system, with liquid gasoline used in the main combustion chamber and small fractions of gaseous propane in the pre-chamber. Initial attempts in replacing the pre-chamber gaseous propane with liquid gasoline were problematic, although engine operation was successful at some operating conditions. The poor mixture preparation with liquid gasoline inside the small pre-chamber cavity due to the limited production injector hardware somewhat compromised the thermal efficiency, resulting in slight elevations in NOx emissions. Since specialized pre-chamber injector hardware was not available for evaluation, the purpose of this paper is to demonstrate that this combustion system can operate robustly using gasoline, with vaporized gasoline found to be a successful pre-chamber fuel substitute. With this concept at part load, the test engine recorded a 41.4% peak thermal efficiency, ultra lean operation past lambda 2.1, single digit engine out NOx emissions and a 20% peak fuel economy improvement over the baseline spark ignition system.
机译:湍流喷射点火是先进的火花引发的预燃室燃烧系统,适用于其他标准的火花点火发动机。主室中的燃烧是由部分燃烧(反应)的预燃室产品射流引发的,这些产品提供了高能量的点火源。所得的分布广泛的点火部位允许相对较小的火焰传播距离,从而可以缩短燃烧持续时间并提高燃烧速率。展示的优势包括部分负载时超稀薄运行(λ> 2)和高负载爆震极限扩展。以前的喷气点火实验结果突出表明,在标准的现代发动机平台上,其具有较高的热效率,较高的负载能力以及接近零的NOx排放。尽管该系统的先前结果非常令人鼓舞,但主要障碍是需要双燃料系统,在主燃烧室中使用液态汽油,在预燃室中使用少量的气态丙烷。尽管发动机在某些工况下成功运行,但最初尝试用液态汽油代替前室气态丙烷是有问题的。由于生产喷油器硬件的限制,在小型预燃腔内与液态汽油进行的不良混合制备在一定程度上影响了热效率,导致NOx排放量略有增加。由于尚无专门的前室喷油器硬件进行评估,因此本文的目的是证明该燃烧系统可以使用汽油强劲运行,而汽化汽油是成功的前室燃料替代品。在部分负荷下使用此概念,测试发动机记录了41.4%的峰值热效率,超过lambda 2.1的超稀薄运行,一位元的发动机NOx排放量以及与基准火花点火系统相比20%的峰值燃油经济性改进。

著录项

  • 来源
    《SI combustion, 2012.》|2012年|p.91-103|共13页
  • 会议地点 Detroit MI(US);Detroit MI(US)
  • 作者单位

    MAHLE Powertrain, 41000 Vincenti Court, Novi Michigan 48375-1921 USA;

    MAHLE Powertrain;

  • 会议组织
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 U464.114;U464.114;
  • 关键词

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