Experimental Investigation of a Heavy-Duty CI Engine Retrofitted to Natural Gas SI Operation

Volume 1: Large Bore Engines; Fuels; Advanced Combustion Pub Date : 2018-11-04 DOI:10.1115/ICEF2018-9611

Jinlong Liu, Hemanth Bommisetty, C. Dumitrescu

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引用次数: 7

Abstract

Heavy-duty compression-ignition (CI) engines converted to natural gas (NG) operation can reduce the dependence on petroleum-based fuels and curtail greenhouse gas emissions. Such an engine was converted to premixed NG spark-ignition (SI) operation through the addition of a gas injector in the intake manifold and of a spark plug in place of the diesel injector. Engine performance and combustion characteristics were investigated at several lean-burn operating conditions that changed fuel composition, spark timing, equivalence ratio, and engine speed. While the engine operation was stable, the reentrant bowl-in-piston (a characteristic of a CI engine) influenced the combustion event such as producing a significant late-combustion, particularly for advanced spark timing. This was due to an important fraction of the fuel burning late in the squish region, which affected the end of combustion, the combustion duration, and the cycle-to-cycle variation. However, the lower cycle-to-cycle variation, stable combustion event, and the lack of knocking suggest a successful conversion of conventional diesel engines to NG SI operation using the approach described here.

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天然气SI工况重型CI发动机改造试验研究

重型压缩点火(CI)发动机转换为天然气(NG)发动机可以减少对石油基燃料的依赖，并减少温室气体排放。通过在进气歧管中增加一个气体喷射器和一个火花塞代替柴油喷射器，这种发动机被转换为预混天然气火花点火(SI)操作。在改变燃料成分、火花正时、当量比和发动机转速的几种稀燃工况下，研究了发动机的性能和燃烧特性。虽然发动机运行稳定，但可重新进入的活塞碗(CI发动机的一个特征)会影响燃烧事件，例如产生明显的延迟燃烧，特别是在提前点火时。这是由于很大一部分燃料在压扁区燃烧较晚，这影响了燃烧的结束、燃烧持续时间和循环间的变化。然而，较低的循环变化、稳定的燃烧事件和无爆震表明，使用本文描述的方法可以成功地将传统柴油发动机转换为NG SI发动机。

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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Volume 1: Large Bore Engines; Fuels; Advanced Combustion

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