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Flame brush thickness of lean turbulent premixed Bunsen flame and the memory effect on its development SCIE
期刊论文 | 2019 , 242 , 607-616 | FUEL
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Flame brush thickness is a significant parameter that demonstrates the evolution of turbulent premixed flame. In this paper, the flame height and flame brush thickness of lean turbulent premixed Bunsen CH4/air and C3H8/air flames were investigated under low turbulence intensities. The turbulence flow field is generated and controlled by changing the outlet velocity and perforated plates, and it is measured using a hot wire anemometry system. The turbulent flame fronts are detected by OH-PLIF technique. Results show that under fuel-lean conditions, the characteristic turbulent Bunsen flame height and centerline flame brush thickness decrease with increasing equivalence ratio, while they increase with the augment of outlet velocity. Turbulence intensity has marginal effect on these two parameters. The variations of flame brush thickness indicate that there are three regions during the whole development of turbulent Bunsen flames under low turbulence intensity. The first is the turbulence dominating region, where the variations of horizontal flame brush thickness follow the turbulence diffusion theory. The second is the non-local effect manifesting region, where the equivalence ratio, which controls the flame instability wavelength, influences the horizontal flame brush thickness. The third is the flame tip region where the flamelets intersect and make the radial wrinkles offset while the axial wrinkles superimpose. This unique tip region of turbulent Bunsen flame can be demonstrated by the linear relationship between its flame height and centerline flame brush thickness. Turbulent premixed Bunsen flames suffer different non-local effects during the flame development to downstream. To minimize the non-local effect on the statistics of turbulent flame front structure, a new method based on the development time period is proposed. Compared with statistical analysis based on the whole development time, this method can better demonstrate the flame turbulence interaction.

Keyword :

PDF distribution Flame brush thickness Flame development Non-local effect

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GB/T 7714 Nie, Yaohui , Wang, Jinhua , Zhang, Weijie et al. Flame brush thickness of lean turbulent premixed Bunsen flame and the memory effect on its development [J]. | FUEL , 2019 , 242 : 607-616 .
MLA Nie, Yaohui et al. "Flame brush thickness of lean turbulent premixed Bunsen flame and the memory effect on its development" . | FUEL 242 (2019) : 607-616 .
APA Nie, Yaohui , Wang, Jinhua , Zhang, Weijie , Chang, Min , Zhang, Meng , Huang, Zuohua . Flame brush thickness of lean turbulent premixed Bunsen flame and the memory effect on its development . | FUEL , 2019 , 242 , 607-616 .
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Effect of hydrogen enrichment and electric field on lean CH4/air flame propagation at elevated pressure EI Scopus
期刊论文 | 2018 | International Journal of Hydrogen Energy
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Abstract :

Electric assisted combustion for hydrogen enriched hydrocarbons may even extend the lean burn limit and provide the further improvement on combustion stability. This study investigates the effect of hydrogen enrichment and DC electric field on lean CH4/air flame propagation. Electric field inside the chamber was generated by mesh and needle electrodes. Effect of hydrogen enrichment on the ion mole fraction in the flame was discussed based on reaction mechanism included neutral and ion reactions. The flame propagation images, flame displacement speed were used to evaluate the combined influences of hydrogen enrichment and electric field on propagating flame. Results showed that the hydrogen addition would increase positive ions mole fraction and the peak value is mainly determined by H3O+. This would be due to that CH increases with hydrogen fraction, which is the main species in the initial reaction for the ion reactions. Electric field effect about flame propagation was suppressed with hydrogen addition due to the competition between the increment in ion mole fraction and the decrement in flame time. Electric assisted combustion is more evident at leaner conditions and elevated pressure. The ratio of ionic wind velocity to flow velocity may be the determined factor to predict the electric field effect about propagating flame. The tendency based on this ratio is in accordance with the experimental results for various hydrogen fraction and equivalence ratio at elevated pressure. © 2018 Hydrogen Energy Publications LLC

Keyword :

Elevated pressure Flame propagation Hydrogen enrichment Ionic wind Mole fraction

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GB/T 7714 Wang, Jinhua , Li, Yiming , Xia, Hao et al. Effect of hydrogen enrichment and electric field on lean CH4/air flame propagation at elevated pressure [J]. | International Journal of Hydrogen Energy , 2018 .
MLA Wang, Jinhua et al. "Effect of hydrogen enrichment and electric field on lean CH4/air flame propagation at elevated pressure" . | International Journal of Hydrogen Energy (2018) .
APA Wang, Jinhua , Li, Yiming , Xia, Hao , Ju, Rongyuan , Zhang, Meng , Mu, Haibao et al. Effect of hydrogen enrichment and electric field on lean CH4/air flame propagation at elevated pressure . | International Journal of Hydrogen Energy , 2018 .
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Turbulent flame topology and the wrinkled structure characteristics of high pressure syngas flames up to 1.0 MPa EI Scopus
期刊论文 | 2018 | International Journal of Hydrogen Energy
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The turbulent flame topology characteristics of the model syngas with two different hydrogen ratios were statistically investigated, namely CO/H2 ratio at 65/35 and 80/20, at equivalence ratio of 0.7. The combustion pressure was kept at 0.5 MPa and 1.0 MPa, to simulate the engine-like condition. The model syngas was diluted with CO2 with a mole fraction of 0.3 which mimics the flue gas recycle in the turbulent combustion. CH4/air flame with equivalence ratio of 1.0 was also tested for comparison. The flame was anchored on a premixed type Bunsen burner, which can generate a controllable turbulent flow. Flame front, which is represented by the sharp increased interface of the OH radical distribution, was measured with OH-PLIF technique. Flame front parameters were obtained through image processing to interpret the flame topology characteristics. Results showed that the turbulent flames possess a wrinkled character with smaller scale concave/convex structure superimposed on a larger scale convex structure under high pressure. The wrinkled structure of syngas flame is much finer and more corrugated than hydrocarbon fuel flames. The main reason is that scale of wrinkled structure is smaller for syngas flame, resulting from the unstable physics. Hydrogen in syngas can increase the intensity of the finer structure. Moreover, the model syngas flames have larger flame surface density than CH4/air flame, and hydrogen ratio in syngas can increase flame surface density. This would be mainly attributed to the fact that the syngas flames have smaller flame intrinsic instability scale li than CH4/air flame. ST/SL of the model syngas tested in this study is higher than CH4/air flames for both pressures, due to the high diffusivity and fast burning property of H2. This is mainly due to smaller LM and li. Vf of the two model syngas is much smaller than CH4/air flames, which suggests that syngas flame would lead to a larger possibility to occur combustion oscillation. © 2018 Hydrogen Energy Publications LLC

Keyword :

High pressure Hydrogen ratio Syn-gas Turbulent flame Turbulent premixed flame

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GB/T 7714 Zhang, Meng , Wang, Jinhua , Chang, Min et al. Turbulent flame topology and the wrinkled structure characteristics of high pressure syngas flames up to 1.0 MPa [J]. | International Journal of Hydrogen Energy , 2018 .
MLA Zhang, Meng et al. "Turbulent flame topology and the wrinkled structure characteristics of high pressure syngas flames up to 1.0 MPa" . | International Journal of Hydrogen Energy (2018) .
APA Zhang, Meng , Wang, Jinhua , Chang, Min , Huang, Zuohua . Turbulent flame topology and the wrinkled structure characteristics of high pressure syngas flames up to 1.0 MPa . | International Journal of Hydrogen Energy , 2018 .
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可控流场尺度预混湍流燃烧器及其火焰结构分析 CSCD PKU
期刊论文 | 2018 , (2) , 10-17 | 实验流体力学
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为了研究单一湍流场参数对预混湍流火焰结构的影响,以及拓宽湍流场的强度和尺度范围,发展了一套可变结构的预混湍流燃烧器.采用恒温型热线风速仪标定流场,得到了一系列湍流参数.流场标定结果表明:该燃烧器能显著拓宽湍流强度和尺度范围,并能利用不同几何结构产生多种可控流场,实现研究单一湍流参数对湍流燃烧速度和火焰结构影响的目的.选用有代表性的15种湍流孔板组合结构,利用OH-PLIF燃烧激光诊断技术,开展了湍流燃烧实验,结果表明:湍流强度的增大(1<u'/SL.0<10)使得湍流火焰分区扩展到了薄层反应区,火焰面破碎程度明显增强,孤岛结构明显增多.高宏观雷诺数下,积分尺度的增长对湍流燃烧速度起抑制作用,可能存在临界宏观雷诺数Rec,能够表现流体惯性力占主导地位的程度,决定积分尺度对湍流燃烧速度的影响效果.积分尺度能量大,扰动能力强,故积分尺度越大,火焰体积越大;但过高的湍流强度会使火焰面褶皱更加剧烈,小尺度叠加在大尺度上的程度增强,最终也使火焰体积显著增大,掩盖了积分尺度对火焰体积的影响,说明积分尺度(表征大尺度)不如湍流强度(表征叠加小尺度的程度)对火焰放热率影响大.

Keyword :

湍流强度 火焰体积 湍流尺度 预混湍流燃烧 湍流燃烧速度

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GB/T 7714 余芊芊 , 王金华 , 张玮杰 et al. 可控流场尺度预混湍流燃烧器及其火焰结构分析 [J]. | 实验流体力学 , 2018 , (2) : 10-17 .
MLA 余芊芊 et al. "可控流场尺度预混湍流燃烧器及其火焰结构分析" . | 实验流体力学 2 (2018) : 10-17 .
APA 余芊芊 , 王金华 , 张玮杰 , 张猛 , 黄佐华 . 可控流场尺度预混湍流燃烧器及其火焰结构分析 . | 实验流体力学 , 2018 , (2) , 10-17 .
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预混湍流火焰面褶皱结构网络拓扑研究 CSCD PKU
期刊论文 | 2018 , (1) , 19-25,63 | 实验流体力学
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湍流火焰结构是表征湍流与火焰相互作用的组分、速度、温度等标量场信息,理解湍流与火焰相互作用规律,验证和发展湍流燃烧模型的实验基础.针对传统曲率PDF分布反映湍流火焰面褶皱结构失准问题,利用网络拓扑结构方法可以标记系统关键节点和特征结构,构建湍流火焰面的拓扑结构.本文标记了湍流火焰面上的关键褶皱结构,分析了湍流与火焰的作用规律,结果表明:低湍流强度下,湍流火焰面的关键褶皱结构由火焰自身不稳定性引起;当湍流强度增大,湍流火焰面的关键褶皱结构由湍流尺度决定.在本生灯湍流火焰中,火焰自身不稳定性引起的火焰褶皱与火焰发展距离有关.在本生灯火焰底部,火焰自身不稳定性不引起火焰面褶皱,随着火焰向下游发展,其对火焰面影响逐渐增大,火焰褶皱程度增加.

Keyword :

褶皱结构 火焰不稳定 预混湍流火焰 网络拓扑分析 曲率PDF分布

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GB/T 7714 王金华 , 聂要辉 , 常敏 et al. 预混湍流火焰面褶皱结构网络拓扑研究 [J]. | 实验流体力学 , 2018 , (1) : 19-25,63 .
MLA 王金华 et al. "预混湍流火焰面褶皱结构网络拓扑研究" . | 实验流体力学 1 (2018) : 19-25,63 .
APA 王金华 , 聂要辉 , 常敏 , 张猛 , 黄佐华 . 预混湍流火焰面褶皱结构网络拓扑研究 . | 实验流体力学 , 2018 , (1) , 19-25,63 .
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Effect of DC electric field on laminar premixed spherical propagation flame at elevated pressures up to 0.5MPa EI SCIE Scopus
期刊论文 | 2018 , 190 (11) , 1900-1922 | COMBUSTION SCIENCE AND TECHNOLOGY
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The effects of DC electric field on laminar premixed CH4/air spherical propagation flames with excess air ratio =1.0, 1.2, 1.4 were investigated in a constant volume combustion chamber at elevated pressures up to 0.5MPa. Mesh electrodes were used to generate electric field inside the chamber. The flame front structure, flame displacement speed, and pressure-related combustion parameters were derived to evaluate the effects of electric field on flame propagation. The results show that the mean flame displacement speed increases in the electric field direction with the increase of applied voltages and it is more significant at lean conditions. The mean flame displacement speed decreases in the direction perpendicular to the electric field with the voltage at low pressures, while it increases with voltage due to flame instability induced by the electric field at higher pressures. The effect of electric field on flame displacement speed is more obvious with pressure rise. Electric-induced flame instability combined with the hydrodynamic instability both promoted at high pressure lead to much more cracked structure and enhance the flame displacement speed. An obvious acceleration stage during the flame propagation under electric field is also observed. The combustion peak pressure slightly increases and the timing of peak pressure is in advance with the increasing of applied voltage. The flame initiation time derived from pressure decreases with voltage and it is more obvious at higher pressures. In this study, a new ionic wind velocity calculation method was developed based on the ionic wind development degree and conservation of momentum. As pressure increases, the corrected ionic wind velocity decreases, and the tendency is consistent with the experimental results about increment of flame displacement speed at elevated pressures.

Keyword :

High pressure Ionic wind Flame instability Electric-assisted combustion Spherically expanding flame

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GB/T 7714 Li, Yiming , Wang, Jinhua , Xia, Hao et al. Effect of DC electric field on laminar premixed spherical propagation flame at elevated pressures up to 0.5MPa [J]. | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (11) : 1900-1922 .
MLA Li, Yiming et al. "Effect of DC electric field on laminar premixed spherical propagation flame at elevated pressures up to 0.5MPa" . | COMBUSTION SCIENCE AND TECHNOLOGY 190 . 11 (2018) : 1900-1922 .
APA Li, Yiming , Wang, Jinhua , Xia, Hao , Li, Chao , Zhang, Meng , Wu, Xiaomin et al. Effect of DC electric field on laminar premixed spherical propagation flame at elevated pressures up to 0.5MPa . | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (11) , 1900-1922 .
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Effects of Initiation Radius Selection and Lewis Number on Extraction of Laminar Burning Velocities from Spherically Expanding Flames EI SCIE Scopus
期刊论文 | 2018 , 190 (2) , 286-311 | COMBUSTION SCIENCE AND TECHNOLOGY
WoS CC Cited Count: 2 SCOPUS Cited Count: 3
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Abstract :

Experimental flame trajectories of hydrogen/air and n-butane/air spherically expanding flames were measured over a wide range of equivalence ratios at pressures of 0.1 MPa and 0.05 MPa. An experimental radius range selection method was developed to determine the critical initiation and end radii for extraction of laminar burning velocity. The results showed that both flame radius range selection and nonlinear flame stretch have significant effects on laminar burning velocity extraction. As the selected initiation radius increases, the flame radius range effect increases. Thus, the widest unaffected radius range should be processed using a proper method to reduce the extraction induced uncertainty. Additionally, the extraction method, which reflects a linear relationship between the flame propagation speed and the flame curvature, well fits the experimental data for a wide radius range when Lewis number, Le > 1. And the performances of all tested extraction methods are almost equal when Le < 1, especially for Le slightly smaller than unity. The nonlinear method is still recommended in extraction for very small Le. The critical initiation radius depends strongly on the Lewis number and initial pressure, and increases linearly with the absolute value of Markstein length. At large and small Le, the initiation radius used in measurements should be large enough to ensure reliable extraction results. Furthermore, the critical initiation radius is affected by transition and spark-assisted propagation regimes for Le > 1 and Le < 1, respectively. It is concluded that the proper flame radius range for extraction is narrowed primarily by the strong flame stretch effects, which increase the critical initiation radius for stable flames.

Keyword :

Laminar burning velocity Critical initiation radius Flame radius range Spherically expanding flame Flame stretch

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GB/T 7714 Cai, Xiao , Wang, Jinhua , Zhao, Haoran et al. Effects of Initiation Radius Selection and Lewis Number on Extraction of Laminar Burning Velocities from Spherically Expanding Flames [J]. | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (2) : 286-311 .
MLA Cai, Xiao et al. "Effects of Initiation Radius Selection and Lewis Number on Extraction of Laminar Burning Velocities from Spherically Expanding Flames" . | COMBUSTION SCIENCE AND TECHNOLOGY 190 . 2 (2018) : 286-311 .
APA Cai, Xiao , Wang, Jinhua , Zhao, Haoran , Xie, Yongliang , Huang, Zuohua . Effects of Initiation Radius Selection and Lewis Number on Extraction of Laminar Burning Velocities from Spherically Expanding Flames . | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (2) , 286-311 .
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Investigation of the Heat Loss Effect on Cellular Flames via Proper Orthogonal Decomposition EI SCIE Scopus
期刊论文 | 2018 , 190 (5) , 803-822 | COMBUSTION SCIENCE AND TECHNOLOGY
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For better control of a lean premixed combustion system, it is necessary to understand the mechanism of unsteady cellular flame. The objective of the present study is to investigate how heat loss influences the cellular instability of lean premixed flame. The lean premixed CH4/H-2/air cellular flames generated on a McKenna burner were studied, and heat loss was responsible for the manifestation of unsteady cellular structure. A method of applying proper orthogonal decomposition in scale analysis is presented, which has proven helpful in characterizing the cellular flame. The multiple scale nature of unstable cellular flame was identified, and the small scales were found to act in the random movement of cells. The contribution of each scale is obtained. The energy distribution on modes indicates that the energy on higher-order modes, equivalently the contribution of smaller scales, is decreased with decreasing heat loss. Through analyzing the principal modes and temporal coefficients, heat loss is found to influence a flame's unstable behavior by promoting the oscillation of large scales, and the wrinkling factor is estimated. It is found that there is a cut-off length scale, below which the wrinkles make little contribution to the enhancement of combustion intensity.

Keyword :

OH-PLIF Heat loss McKenna burner Cellular flame Proper orthogonal decomposition

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GB/T 7714 Jin, Wu , Wang, Jinhua , Zhang, Weijie et al. Investigation of the Heat Loss Effect on Cellular Flames via Proper Orthogonal Decomposition [J]. | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (5) : 803-822 .
MLA Jin, Wu et al. "Investigation of the Heat Loss Effect on Cellular Flames via Proper Orthogonal Decomposition" . | COMBUSTION SCIENCE AND TECHNOLOGY 190 . 5 (2018) : 803-822 .
APA Jin, Wu , Wang, Jinhua , Zhang, Weijie , Cai, Xiao , Nie, Yaohui , Huang, Zuohua . Investigation of the Heat Loss Effect on Cellular Flames via Proper Orthogonal Decomposition . | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (5) , 803-822 .
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Investigation of the fuel effects on burning velocity and flame structure of turbulent premixed flames based on leading points concept EI SCIE Scopus
期刊论文 | 2018 , 190 (8) , 1354-1376 | COMBUSTION SCIENCE AND TECHNOLOGY
WoS CC Cited Count: 1 SCOPUS Cited Count: 2
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The measurements on flame structure and burning velocities of C3H8/air, CH4/air and CO/H-2/air turbulent premixed flames were conducted. Various experimental conditions for these mixtures were considered to understand the molecular and thermal diffusion process in turbulent flame, which was referred to the fuel effects. The fuel effects are interpreted as local burning velocity variation caused by molecular and thermal diffusivity with stretch effect. Leading points concept is a promising scaling approach to incorporate the fuel effects in turbulent flames recently. In this article, data across a variety of equivalence ratio and hydrogen fractions were obtained using Bunsen burner. Flame front was detected with OH-PLIF technique and turbulent burning velocity S-T referred to leading edge was derived. A new leading points characteristic speed S-L,S-LP was presented invoking both negative and positive Markstein number mixtures, revising the previous model in literature which is only suitable for negative Markstein number fuels. The turbulent burning velocity S-T under relatively weak turbulence intensity in this study and data of high turbulence intensity, high pressure from literature were renormalized with S-L,S-LP instead of S-L,S-0 based on leading points concept, where S-L,S-0 is the unstretched laminar flame speed. The results show that all the data sets were collapsed well which validated the significance of S-L,S-LP in normalizing S-T of different mixtures. An empirical formula for turbulent burning velocity correlation was obtained as. This formula is similar to that of Kobayashi; however, it shows superiority in incorporating the fuel effects.

Keyword :

leading points concept turbulent premixed flame Turbulent burning velocity fuel effects

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GB/T 7714 Zhang, Weijie , Wang, Jinhua , Yu, Qianqian et al. Investigation of the fuel effects on burning velocity and flame structure of turbulent premixed flames based on leading points concept [J]. | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (8) : 1354-1376 .
MLA Zhang, Weijie et al. "Investigation of the fuel effects on burning velocity and flame structure of turbulent premixed flames based on leading points concept" . | COMBUSTION SCIENCE AND TECHNOLOGY 190 . 8 (2018) : 1354-1376 .
APA Zhang, Weijie , Wang, Jinhua , Yu, Qianqian , Jin, Wu , Zhang, Meng , Huang, Zuohua . Investigation of the fuel effects on burning velocity and flame structure of turbulent premixed flames based on leading points concept . | COMBUSTION SCIENCE AND TECHNOLOGY , 2018 , 190 (8) , 1354-1376 .
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Investigation on the highly negative curved syngas Bunsen flame and the critical local Karlovitz number when tip opening EI SCIE Scopus
期刊论文 | 2018 , 215 , 429-437 | FUEL
WoS CC Cited Count: 1 SCOPUS Cited Count: 1
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The characteristics of local extinction on the tip of syngas premixed Bunsen flames with different hydrogen fractions have been investigated experimentally with OH-PLIF technique and numerical simulation. Coupled effects of stretch and diffusion on the syngas Bunsen flame with highly negative curvature were studied. Local Karlovitz number was introduced to indicate the onset of local extinction at the Bunsen flame tip. Results showed that the onset equivelance ratio of local extinction at the syngas Bunsen flame tip does not change with the outlet velocity. The coupled effects of stretch and diffusion result in the decrease of flame reaction rate along the syngas Bunsen flame at fuel-lean condition. When the flame reaction rate decrease to a critical extent, local extinction of Bunsen flame tip occures. The local Karlovitz number can be considered as a parameter of the critical condition. The syngas Bunsen flame tip will extinguish when the local Karlovitz number reaches around 4, irrespective of hydrogen fractions and outlet velocity. This means that Bunsen flame tip starts to appear local extinction when the tangential flow time is comparable to normal chemical reaction time, which is the same as counterflow flames with positive stretch. Furthermore, results also showed that there is no H-2 leakage even the syngas Bunsen flame tip extinguishes at the numerical study conditions.

Keyword :

OH-PLIF Local extinction Flame stretch Local Karlovitz number Syngas

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GB/T 7714 Wang, Jinhua , Nie, Yaohui , Cai, Xiao et al. Investigation on the highly negative curved syngas Bunsen flame and the critical local Karlovitz number when tip opening [J]. | FUEL , 2018 , 215 : 429-437 .
MLA Wang, Jinhua et al. "Investigation on the highly negative curved syngas Bunsen flame and the critical local Karlovitz number when tip opening" . | FUEL 215 (2018) : 429-437 .
APA Wang, Jinhua , Nie, Yaohui , Cai, Xiao , Guo, Shilong , Zhang, Weijie , Xie, Yongliang et al. Investigation on the highly negative curved syngas Bunsen flame and the critical local Karlovitz number when tip opening . | FUEL , 2018 , 215 , 429-437 .
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