Investigating a methanol spray flame interacting with an annular air jet using phase-Doppler interferometry and planar laser-induced fluorescence

Friedman  Jacob A.; Renksizbulut  Metin

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Investigating a methanol spray flame interacting with an annular air jet using phase-Doppler interferometry and planar laser-induced fluorescence

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摘要

An experimental investigation of the interaction of an annular air jet with a methanol spray flame was conducted using phase Doppler interferometry (PDI) to measure fuel droplet size and velocity as well as gas-phase velocity, and planar laser-induced fluorescence (PLIF) to determine instantaneous and time-averaged reaction zone location, as well as quantitative OH concentration. Temperature measurements were made using Pt/Pt-10 Rh thermocouples. PLIF imaging of the OH radical showed that the spray flame had a dual reaction zone structure with annular air off but a single reaction zone with annular air on. Peak OH concentrations were measured to be 5400 PPM, regardless of the annular air flow rate. The OH concentration peaks always occurred on the fuel-lean side of the reaction zone, while temperature peaks occurred on the fuel-rich side. Gas-phase velocity vector fields show that annular air tends to channel the flow towards the centreline, and large droplet velocity vector fields show that the large droplets follow this trend as well, suggesting that the annular air jet assists in confining large spray droplets. Overall visible flame length is reduced by over 50 with annular air, providing a flame well-suited to compact combustion chambers.

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来源
《Combustion and Flame》 |1999年第4期|661-684|共24页
作者
Friedman Jacob A.; Renksizbulut Metin;
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作者单位

Univ of Waterloo;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种英语
中图分类燃料与燃烧;
关键词
Flame research; Methanol fuels; Jets; Interferometry; Velocity measurement; Laser applications; Temperature measurement; Thermocouples; Drop formation; Methanol spray flame; Phase Doppler interferometry; Planar laser-induced fluorescence (PLIF);

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Investigating a methanol spray flame interacting with an annular air jet using phase-Doppler interferometry and planar laser-induced fluorescence

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