Self-excited noise generation from laminar methane/air premixed flames in thin annular jets

Jin Seong-Ho; Joung Jae-Hoon; Chung Suk-Ho

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Self-excited noise generation from laminar methane/air premixed flames in thin annular jets

机译：单层甲烷/空气预混火焰中的自兴噪声产生薄环形喷射器

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Self-excited noise generation from laminar flames in thin annular jets of premixed methane/air has been investigated experimentally. Various flame shapes were observed in this flow configuration, including conical shaped flames, ring shaped flames, steady crown shaped flames, and oscillating crown shaped flames. Self-excited noise with a total sound pressure level of about 70 dB was generated from the oscillating crown shaped flames for equivalence ratios>0.95. Sound pressure and CH* chemiluminescence were measured by using a microphone and a photomultiplier tube. The frequency of generated noise was measured as a function of equivalence ratio and premixture velocity. A frequency doubling phenomenon has also been observed. The measured CH* chemiluminescence data were analysed and which the corresponding sound pressure has been calculated. By comparing the measured and calculated sound pressures, the noise source can be attributed to the flame front fluctuation near the edge of the oscillating crown shaped flames. The flame stability regime was influenced strongly by the mass flow rate of air through the inner tube.

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来源
《Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics》 |2021年第1期|共8页
作者
Jin Seong-Ho; Joung Jae-Hoon; Chung Suk-Ho;
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作者单位

Univ Lincoln Sch Engn Lincoln LN6 7TS England;

Seoul Natl Univ Sch Mech &

Aerosp Engn Seoul 151742 South Korea;

King Abdullah Univ Sci &

Technol Clean Combust Res Ctr Thuwal 239556900 Saudi Arabia;

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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
Annular jet; Laminar premixed flame; Sound pressure; Stability;

机译：环形射流;层状预混火焰;声压;稳定性;

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2. Laminar premixed methane/air flame extinction characteristics influenced by co-flow water mists [J] . LIU XuanYa, LU ShouXiangt, ZHU YingChun, 中国科学通报：英文版 . 2008,第003期
3. Investigation of flame structure in plasma-assisted turbulent premixed methane-air flame [J] . Hualei ZHANG, Liming HE, Jinlu YU, 等离子体科学和技术（英文版） . 2018,第002期
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5. HEAT TRANSFER FROM A LAMINAR JET METHANE FLAME IN A CO-ANNULAR JET OF OXYGEN-ENRICHED AIR [J] . P. Gillon, M. Chahine, V. Gilard, Combustion Science and Technology . 2014,第10a12期

机译：层状射流甲烷火焰在富氧共环形射流中的传热
6. Laser induced incandescence measurements of soot volume fraction and effective particle size in a laminar co-annular non-premixed methane/air flame at pressures between 0.5-4.0 MPa [J] . K.A. THOMSON, D.R. SNELLING, G.J. SMALLWOOD, Applied physics. B, Lasers and optics . 2006,第3期

机译：层状共环形非预混合甲烷/空气火焰中的烟灰体积分数和有效粒径的激光诱导白炽测量，压力为0.5-4.0 MPa
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8. Kinetics Analysis for Nitric Oxide Formation in Laminar, Counter-flow Methane-Air Partially Premixed and Non-premixed Flames at Atmospheric Pressure [C] . Sameer V. Naik, Normand M. Laurendeau Technical Meeting of the Combustion Institute . 2004

机译：在大气压力下层状氧化氮形成的动力学分析，反流甲烷 - 空气部分预混和大气压下的未预热火焰
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12. Kinetic Mechanisms for Premixed, Laminar, Steady State Methane/Air Flames. [R] . Coffee, T. P. 1983

机译：预混，层流，稳态甲烷/空气火焰的动力学机制。

Self-excited noise generation from laminar methane/air premixed flames in thin annular jets

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