通过扩散喷射增强旋转火焰中的结构

IF 1.5 Q3 ENGINEERING, CHEMICAL
Jonathan Lewis, A. Valera-Medina, R. Marsh, S. Morris
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引用次数: 13

摘要

采用粒子图像测速法进行了小型实验,研究了甲烷、空气和二氧化碳的扩散注入对旋转火焰中相干结构的影响。火焰的高动量流区(HMFR)和中心再循环区(CRZ)之间的相互作用是燃烧诱导涡击穿(CIVB)的潜在原因,当高动量流区挤压CRZ时发生,导致上游传播。通过中心喷射器扩散引入甲烷或二氧化碳增加了相对于HMFR的CRZ的尺寸和速度,同时保持了火焰稳定性,降低了发生CIVB的可能性。弥漫性空气注入具有相反的效果,在完全消除CRZ之前减小了CRZ的尺寸和速度。这也将防止燃烧引起的涡流击穿CIVB发生,因为CRZ是该过程的基础;然而,如果没有再循环,它将产生本质上不稳定的火焰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Augmenting the Structures in a Swirling Flame via Diffusive Injection
Small scale experimentation using particle image velocimetry investigated the effect of the diffusive injection of methane, air, and carbon dioxide on the coherent structures in a swirling flame. The interaction between the high momentum flow region (HMFR) and central recirculation zone (CRZ) of the flame is a potential cause of combustion induced vortex breakdown (CIVB) and occurs when the HMFR squeezes the CRZ, resulting in upstream propagation. The diffusive introduction of methane or carbon dioxide through a central injector increased the size and velocity of the CRZ relative to the HMFR whilst maintaining flame stability, reducing the likelihood of CIVB occurring. The diffusive injection of air had an opposing effect, reducing the size and velocity of the CRZ prior to eradicating it completely. This would also prevent combustion induced vortex breakdown CIVB occurring as a CRZ is fundamental to the process; however, without recirculation it would create an inherently unstable flame.
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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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