Stability of Buoyant Inverse Diffusion Methane Flames with Confinement Effects

Xuren Zhu; Xi Xia; Peng Zhang

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Stability of Buoyant Inverse Diffusion Methane Flames with Confinement Effects

机译：具有限制效应的浮力逆扩散甲烷火焰的稳定性

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ABSTRACT Experimental and numerical studies were performed to examine the stability of inverse diffusion flames (IDFs) with the focus on the boundary wall effects. A regime diagram for flame stability was obtained based on the visual characteristics of flames and verified by the simulated flow fields. The boundary wall effects were identified and investigated by simulating the IDFs with different outer burner diameters. It was found that the wall-bounded induced shear flows either reduce the flow instability by vorticity diffusion or enhance it by vorticity convection. Based on the experimental and numerical observations, the mechanism of the boundary wall effects on the stability of buoyant IDFs was explained and further extended to general diffusion flames.

机译：摘要进行了实验和数值研究，以检测逆扩散火焰（IDFS）的稳定性，重点在边界壁效应上。基于火焰的视觉特性获得了火焰稳定性的制度图，并由模拟流场验证。通过模拟具有不同外燃烧器直径的IDFS来识别和研究边界壁效应。发现壁有界诱导的剪切流量通过涡流扩散或通过涡流对流来降低流量不稳定性。基于实验和数值观察，解释了对浮力IDFS稳定性的边界壁效应的机理，并进一步扩展到一般扩散火焰。

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来源
《Combustion Science and Technology》 |2020年第9期|1650-1667|共18页
作者
Xuren Zhu; Xi Xia; Peng Zhang;
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作者单位

The Hong Kong Polytechnic University;

The Hong Kong Polytechnic University;

The Hong Kong Polytechnic University;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Inverse diffusion flame; buoyant flame; instability; wall effects; vortex dynamics;

机译：逆扩散火焰;浮力火焰;不稳定;墙壁效应;涡旋动力学;

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专利

1. Near-field flow stability of buoyant methane/air inverse diffusion flames [J] . Zhu Xuren, Xia Xi, Zhang Peng Combustion and Flame . 2018,第MAY期

机译：甲烷/空气漂浮逆扩散火焰的近场流动稳定性
2. Improvement of lean flame stability of inverse methane/air diffusion flame by using coaxial dielectric plasma discharge actuators [J] . De Giorgi Maria Grazia, Ficarella Antonio, Sciolti Aldebara, Energy . 2017,第may1期

机译：通过使用同轴电介质等离子体放电致动器提高甲烷/空气反向火焰的稀薄火焰稳定性
3. Experiments on the instability modes of buoyant diffusion flames and effects of ambient atmosphere on the instabilities [J] . Cetegen BM., Dong Y. Experiments in Fluids: Experimental Methods and Their Applications to Fluid Flow . 2000,第6期

机译：浮力扩散火焰的不稳定性模式及周围大气对不稳定性影响的实验
4. Flow and Flame Dynamics of Confined Buoyant Inverse Diffusion Flames [C] . Xuren Zhu, Xi Xia, Peng Zhang Asia-Pacific Conference on Combustion . 2018

机译：限制浮力逆扩散火焰的流动和火焰动态
5. A study of radiation and flow properties of buoyant turbulent diffusion flames. [D] . Biswas, Kaushik. 2007

机译：浮力湍流扩散火焰的辐射和流动特性的研究。
6. Effects of Acoustic Excitation on the Combustion Instabilityof Hydrogen–Methane Lean Premixed Swirling Flames [O] . Kai Deng, Yi Zhong, Mingxiao Wang, 2020

机译：声激励对燃烧不稳定性的影响氢甲烷稀混合旋流火焰
7. Effect of hydrogen percentage and air jet Reynolds number on fuel lean flame stability of LPG-fired inverse diffusion flame with hydrogen enrichment [O] . Miao J, Leung CW, Cheung CS 2014

机译：氢气百分率和喷气雷诺数对富氢液化石油气逆扩散火焰贫燃料火焰稳定性的影响
8. Computational and Experimental Study of Coflow Laminar Methane/Air Diffusion Flames: Effects of Fuel Dilution, Inlet Velocity, and Gravity. [R] . Cao, S., Ma, B., Bennett, B. A. V., 2014

机译：Coflow层流甲烷/空气扩散火焰的计算和实验研究：燃料稀释，进口速度和重力的影响。

Stability of Buoyant Inverse Diffusion Methane Flames with Confinement Effects

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