Investigations into EGR dilution tolerance in a pre-chamber ignited GDI engine

点火系统 燃烧室 稀释 燃烧 废气再循环 火花点火发动机 核工程 机械 汽油 喷射(流体) 化学 材料科学 环境科学 热力学 汽车工程 物理 工程类 有机化学
作者
Johannes Rohwer,Taehoon Han,Ashish Shah,Toby Rockstroh
出处
期刊:International Journal of Engine Research [SAGE Publishing]
卷期号:24 (3): 1200-1222 被引量:12
标识
DOI:10.1177/14680874221084777
摘要

EGR is a useful means to improve fuel economy in spark-ignited gasoline engines, especially under part-load conditions by means of reducing throttling losses. There is also a significant reduction in NOx emissions due to the reduced peak cylinder temperatures. However, the ability of conventional spark ignition systems to reliably ignite dilute mixtures limits the dilution tolerance due to the onset of combustion instability. In this study, an active pre-chamber system was evaluated at part load condition with various EGR rates using a regular grade full boiling range gasoline. A premixed air-fuel mixture was supplied to the pre-chamber, which assists in scavenging the residual mass fractions to enable reliable ignition of EGR dilute mixtures in the main combustion chamber. A range of pre-chamber injection, air-fuel mixture formulation, and ignition timing strategies were evaluated during the EGR sweeps. In addition, 0-D and 1-D simulations were conducted in GT-Power to assess the thermodynamic state and composition in the pre-chamber, as well as estimate the jet momentum at the various dilution rates. The active pre-chamber extended the EGR dilution limit from 20% for conventional SI to above 30%, with a higher pre-chamber flow rate (more scavenging) resulting in increased combustion stability. A tradeoff between the jet momentum and spark timing was observed when analyzing the GT-Power simulations and the pre-chamber jet momentum was found to decrease with increasing EGR rate. At unstable high EGR operation, no relation could be found between the pre-chamber indicated data and main chamber combustion stability.

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