[Oral Presentation]Influence of oxygen concentration on the combustion characteristics and chemical mechanism of coal mine methane in closed chamber
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[Oral Presentation]Influence of oxygen concentration on the combustion characteristics and chemical mechanism of coal mine methane in closed chamber

Influence of oxygen concentration on the combustion characteristics and chemical mechanism of coal mine methane in closed chamber
ID:263 Submission ID:321 View Protection:ATTENDEE Updated Time:2024-05-19 19:56:44 Hits:546 Oral Presentation

Start Time:2024-05-30 20:50 (Asia/Shanghai)

Duration:10min

Session:[S2] Safety Engineering and Occupational Health » [S2-5A] Evening of May 30th-5A

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Abstract
To reveal the combustion mechanism of coal mine methane with different oxygen concentration, a series of combustion experiments on the CH4/O2/N2 blends were conducted at a cylindrical chamber. The influences of oxygen concentration on the flame structure, combustion pressure and flame instability of methane blends with different concentrations were analysed. The results show that lower oxygen concentrations cause inversions formed in the lower flame fronts of methane spherical flames by buoyancy effect. Since the effective Lewis number of CH4/O2/N2 blends is always greater than 1 at different oxygen and methane concentrations, the Thermal-Diffusion instability does not promote spherical flame inversion. Moreover, the thinner flame thickness can promote the flame front sensitivity to stretching rate, which indicates that the thinner flame thickness the more easily to form a flame winkle affected by flame instability. The increase of oxygen concentration significantly enhances the combustion pressure and pressure rise rate of methane blends, while the reduction in methane concentration weakens the sensitivity of combustion pressure to oxygen concentration. In addition, spherical flame inversion attenuates the generation of quench expansion waves, thereby suppressing the methane pressure rise and maximum combustion pressure.
Keywords
Coal mine methane; Spherical flame; Combustion pressure; Flame instability; Chemical kinetics
Speaker
Feixiang Zhong
China University of Mining and Technology

Submission Author
飞翔 钟 中国矿业大学
庆钊 李 中国矿业大学安全工程学院
鑫鑫 刘 中国矿业大学
熊 丁 中国矿业大学
宝通 李 中国矿业大学
政阳 于 中国矿业大学
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