光学可及发动机在稀释条件下火花行为的实验评价

IF 2.1 4区工程技术 Q2 ENGINEERING, MECHANICAL

International Journal of Engine Research Pub Date : 2023-10-18 DOI:10.1177/14680874231197492

Cooper Welch, Lars Illmann, Marius Schmidt, Andreas Dreizler, Benjamin Böhm

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引用次数: 0

摘要

利用光学和火花诊断技术，对在均匀部分负荷条件下工作的单缸火花点火发动机进行了实验研究，以评估在不同水平的废气再循环(EGR)下，随着稀释度的增加，火花、流量和火焰之间的关系。将二次火花电路的电压和电流测量与同步高速火花等离子体成像、流场的粒子图像测速和燃烧气体图像进行了比较。具体来说，在0 % EGR和12.9% EGR条件下，研究了特征重击循环和正常循环，以揭示火花塞附近速度的大小和方向与火花行为以及随后的火焰传播行为之间的关系。通过对所有非重燃循环和所有重燃循环的数据集进行条件统计和相关性分析，确定了在稀释混合气条件下，跨越火花间隙的水平速度是促进更稳定和更快燃烧的关键量。

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Experimental evaluation of spark behavior under diluted conditions in an optically accessible engine

An optically accessible single-cylinder spark-ignition engine operated under homogeneous, part-load conditions is experimentally investigated using optical and spark diagnostics to evaluate the relationship between the spark, flow, and flame with increasing dilution using several levels of exhaust gas recirculation (EGR). Voltage and current measurements of the secondary spark circuit are compared with simultaneous high-speed spark plasma imaging, particle image velocimetry measurements of the flow field, and burned gas images. Specifically, characteristic restrike cycles and normal cycles are examined under the 0 % EGR and 12.9 % EGR conditions to reveal a relationship between the magnitude and direction of the velocity near the spark plug and the spark’s behavior coupled with that of the subsequent flame propagation. Through the use of conditional statistics and correlation analysis of data sets of all non-restrike and all restrike cycles, the horizontal velocity across the spark gap was identified as a critical quantity in facilitating more stable and faster combustion under diluted mixture conditions.

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