Analysis of effects of pre-chamber orifices on torch flame behaviours in lean-burn gas engines

Combustion Engines Pub Date : 2024-07-09 DOI:10.19206/ce-188112

Takahide Aoyagi, Takuya Wakasugi, Daisuke Tsuru, Hiroshi Tashima

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Abstract

Fuel conversion from heavy oil to natural gas is favoured as a quick remedy for GHG re-duction from industrial engines in ship propulsion and power generation fields thanks to fewer carbon contents in natural gas. In medium-speed gas engines, the ejection of torch flame from a pre-chamber is often used to promote flame propagation within a main com-bustion chamber. Although orifice specifications affect the ejection behaviour of the torch flame and the following combustion in the main chamber, the effects are difficult to fully understand. Some of the authors developed a constant-volume combustion vessel that simu-lated the combustion chamber around the top dead centre of a pre-chamber type gas engine and observed the effects of orifice specifications on the torch flame ejection and the com-bustion in the main chamber. Still, the correlation was not concluded due to the lack of physical examination. In the paper, the above measurement results were confirmed by using RANS-type CFD considering the larger scale of the target engines, and the physical back-ground of the effects of orifice specifications was successfully reproduced.

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分析前腔孔口对贫燃燃气发动机火炬火焰行为的影响

由于天然气中的碳含量较低，从重油到天然气的燃料转换被认为是船舶推进和发电领域工业发动机减少温室气体的快速补救措施。在中速燃气发动机中，通常使用从预燃室喷射火炬火焰的方法来促进火焰在主燃室中的传播。虽然喷口规格会影响喷管火焰的喷射行为和随后在主燃烧室内的燃烧，但这种影响很难完全理解。一些作者开发了一个恒容燃烧容器，模拟前室型燃气发动机顶死中心周围的燃烧室，并观察了喷口规格对火炬火焰喷射和主燃烧室内燃烧的影响。但由于缺乏实物检测，相关性尚未得出结论。在本文中，考虑到目标发动机的更大规模，使用 RANS 型 CFD 确认了上述测量结果，并成功再现了孔口规格影响的物理背景。

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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