Impact of Passive Pre-Chamber Nozzle Diameter on Jet Formation Patterns and Dilution Tolerance in a Constant-Volume Optical Engine

IF 1.1 Q3 TRANSPORTATION SCIENCE & TECHNOLOGY SAE International Journal of Engines Pub Date : 2023-09-11 DOI:10.4271/03-17-02-0013
Dong Eun Lee, Claudia Iyer, Steven Wooldridge, Li Qiao, Jianwen J. Yi
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引用次数: 1

Abstract

Pre-chamber jet ignition technologies have been garnering significant interest in the internal combustion engine field, given their potential to deliver shorter burn durations, increased combustion stability, and improved dilution tolerance. However, a clear understanding of the relationship between pre-chamber geometry, operating condition, jet formation, and engine performance in light-duty gasoline injection engines remains under-explored. Moreover, research specifically focusing on high dilution levels and passive pre-chambers with optical accessibility is notably scarce. This study serves to bridge these knowledge gaps by examining the influence of passive pre-chamber nozzle diameter and dilution level on jet formation and engine performance. Utilizing a modified constant-volume gasoline direct injection engine with an optically accessible piston, we tested three passive pre-chambers with nozzle diameters of 1.2, 1.4, and 1.6 mm, while nitrogen dilution varied from 0 to 20%. With the help of high-speed imaging, we captured pre-chamber jet formations and subsequent flame propagation within the main chamber. Our novel findings reveal that asymmetric temporal and spatial jet formation patterns arising from pre-chambers significantly impact engine performance. The larger-nozzle-diameter pre-chambers exhibited the least variation in jet formation due to their improved scavenging and main mixture filling processes, but had the slowest jet velocity and lowest jet penetration depth. At no dilution condition, the 1.2 mm-PC demonstrated superior performance attributed to higher pressure build-up in the pre-chamber, resulting in accelerated jet velocity and increased jet penetration depth. However, at high dilution condition, the 1.6 mm-PC performed better, highlighting the importance of scavenging and symmetry jet formation. This study emphasizes the importance of carefully selecting the pre-chamber nozzle diameter, based on the engine’s operating conditions, to achieve an optimal and balanced configuration that can improve both jet formation and jet characteristics, as well as scavenging.
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等体积光学发动机中被动预室喷嘴直径对射流形成模式和稀释容差的影响
预燃烧室喷射点火技术在内燃机领域引起了极大的兴趣,因为它具有更短的燃烧持续时间、更高的燃烧稳定性和更好的稀释容忍度。然而,对于轻型汽油喷射发动机的预燃室几何形状、工作条件、射流形成和发动机性能之间的关系,目前还没有明确的认识。此外,专门针对高稀释水平和具有光学可及性的被动预室的研究非常少。本研究旨在通过研究被动预室喷嘴直径和稀释水平对射流形成和发动机性能的影响来弥合这些知识差距。我们使用一种带有光学可及活塞的改进的等体积汽油直喷发动机,测试了三个喷嘴直径分别为1.2、1.4和1.6 mm的被动预室,氮气稀释度从0到20%不等。在高速成像技术的帮助下,我们捕捉到了燃烧室前射流的形成和随后的火焰在主燃烧室内的传播。我们的新发现表明,由预室引起的非对称时间和空间射流形成模式会显著影响发动机的性能。喷嘴直径较大的预室由于改善了扫气和主要混合填充工艺,其射流形成变化最小,但射流速度最慢,射流穿透深度最低。在无稀释条件下,1.2 mm-PC表现出优越的性能,这是由于预腔内压力增加,导致射流速度加快,射流穿透深度增加。然而,在高稀释条件下,1.6 mm-PC表现更好,突出了清除和对称射流形成的重要性。这项研究强调了根据发动机的工作条件仔细选择预室喷管直径的重要性,以实现最佳和平衡的配置,既可以改善射流形成和射流特性,又可以改善扫气。
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来源期刊
SAE International Journal of Engines
SAE International Journal of Engines TRANSPORTATION SCIENCE & TECHNOLOGY-
CiteScore
2.70
自引率
8.30%
发文量
38
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