柴油机喷淋燃烧废气再循环大涡模拟

J. Tillou, Jean-Baptiste Michel, C. Angelberger, C. Bekdemir, D. Veynante
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引用次数: 16

摘要

在发动机燃烧网络(ECN)框架下,对喷雾H实验中的瞬态燃烧进行大涡模拟(LES)研究。燃烧使用ADF-PCM方法的LES公式进行建模,其原理是根据火焰方程将近似扩散火焰制表,以考虑复杂的化学效应。采用欧拉介观方法结合DITurBC注入模型对液相进行了解析。研究了正庚烷液体燃料喷射燃烧的结构,并与文献进行了比较。在小的EGR率下,通过所提出的LES方法可以很好地再现实验结果。尽管增加EGR率的定性效果得到了体现,但随着EGR率的增加,LES预测的定量质量却恶化了。对于EGR效应的这种不良再现的一个可能的解释可能与使用的半详细方案未对高EGR率进行验证这一事实有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large-Eddy Simulation of Diesel Spray Combustion with Exhaust Gas Recirculation
A Large-Eddy Simulation (LES) study of the transient combustion in the spray H experiment investigated in the frame of the Engine Combustion Network (ECN) is presented. Combustion is modeled using a LES formulation of the ADF-PCM approach, the principle of which is to tabulate approximated diffusion flames based on the flamelet equation to account for complex chemical effects. The liquid phase is resolved with an Eulerian mesoscopic approach coupled with the DITurBC model for the injection. The structure of the combustion resulting from the n-heptane liquid fuel jet is investigated and compared to the literature. A very good reproduction of experimental findings by the presented LES approach is reported for small EGR rates. Albeit the qualitative effect of increasing the EGR rate is captured, the quantitative quality of the LES predictions deteriorates with increasing EGR rate. One possible explanation for this poor reproduction of EGR effects might be related to the fact that the used semi-detailed scheme was not validated for high EGR rates.
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