Oscillatory stretch effects on the structure and extinction of counterflow diffusion flames

Symposium (International) on Combustion Pub Date : 1998-01-01 DOI:10.1016/S0082-0784(98)80463-3

T.M. Brown , R.W. Pitz , C.J. Sung

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引用次数: 46

Abstract

The effects of oscillatory stretch on atmospheric laminar counterflow diffusion flames are investigated both numerically and experimentally. Measurements indicate that, at high excitation frequencies, the peak extinction strain rates of oscillating CH₄+N₂ versus air flames can be extended well beyond steady-state extinction limits. Hydroxyl radical concentrations are measured in a CH₄+N₂ versus air flame excited at moderate frequencies and are compared to numerical simulations including complex chemistry and detailed transport. Measurements and simulations of OH concentration oscillations show similar phase delays. However, the measurements indicate a larger variation of OH concentration. AT moderate frequencies, the time-dependent OH variation is quasi-steady where the time-dependent flame can be described by a series of steady-state flames. However, the time-dependent flame does not quite recover to its steady-state structure at the low-strain-rate extreme.

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振荡拉伸对逆流扩散火焰结构和熄灭的影响

研究了振荡拉伸对大气层流逆流扩散火焰的影响。测量表明，在高激励频率下，振荡CH4+N2对空气火焰的峰值消光应变率可以远远超出稳态消光极限。在中等频率激发的CH4+N2和空气火焰中测量了羟基自由基浓度，并与包括复杂化学和详细传输在内的数值模拟进行了比较。氢氧根浓度振荡的测量和模拟显示了类似的相位延迟。然而，测量结果表明OH浓度变化较大。在中等频率下，随时间变化的OH是准稳定的，其中随时间变化的火焰可以用一系列稳态火焰来描述。然而，在低应变率极限下，随时间变化的火焰并不能完全恢复到稳态结构。

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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Symposium (International) on Combustion

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