非热等离子体对预混火焰精益操作扩展及熄灭极限的影响

IF 0.7 Q4 ENGINEERING, MECHANICAL Journal of the Korean Society of Combustion Pub Date : 2019-03-31 DOI:10.15231/JKSC.2019.24.1.046

G. Kim, Hyunseok You, C. Yoo, Jeong Park, S. Chung

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引用次数: 1

摘要

实验研究了非热等离子体(NTP)对稀预混涡流稳定火焰的影响。等离子体通过介质阻挡放电(DBD)技术作用于火焰。结果表明，非热等离子体施加的流光通过提高火焰稳定性而延长了精益消光极限。非热等离子体也能显著降低CO排放，而由于火焰温度升高，NOx排放略有增加。而当量比()在0.550≤≤0.575时，CO排放≤5ppm, NOx排放≤15ppm，存在一个最佳范围，从而扩展了精益运行极限。这些结果表明，在旋转预混火焰上应用非热等离子体应该是一种有效的工具，可以同时减少CO和NOx的排放。

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Extension of Lean Operation and Extinction Limit of Premixed Flame Applying Non-Thermal Plasma

The effects of non-thermal plasma (NTP) on lean-premixed swirl-stabilized flames have been experimentally investigated. The plasma is applied to the flames through the dielectric barrier discharge (DBD) technique. The results show that the streamer applied by the non-thermal plasma extend the lean extinction limit by enhancing flame stability. The non-thermal plasma is also able to significantly decrease CO emission while NOx emission increase slightly due to increased flame temperatures. However, there are an optimal range in equivalence ratio (), i.e. ≤5 ppm for CO emission and ≤15 ppm for NOx at 0.550≤≤0.575, leading to extension of lean operation limits. These results indicate that applying non-thermal plasma on swirled premixed flames ought to be a useful tool for reduction in CO and NOx emissions simultaneously by high streamer.

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