Yukito Miki scite author profile

Yukito Miki

10Publications

21Citation Statements Received

28Citation Statements Given

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Kyushu University

Publications

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Analysis of Turbulent Burning Velocity of Spherically Propagating Premixed Flame with Effective Turbulence Intensity

Hayakawa

Miki

Nagano

et al. 2012

JTST

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Burning velocity of spherically propagating turbulent flames kept increasing with flame propagation. On the other hand, turbulent burning velocity obtained from burner stabilized flame is constant for a given turbulence intensity. This difference of turbulent burning velocity characteristic was discussed by Abdel-Gayed and Bradley et al. For spherically propagating flames, not all turbulent eddies contribute to the turbulence that affect the turbulent flame. Small flames may be wrinkled only by small scale turbulent eddies. As the flame propagates, it becomes progressively wrinkled by the larger eddies. The turbulence which contributes to turbulent flame may increase with the increase in flame radius. This increase in turbulence may cause the increase in turbulent burning velocity. The effective turbulence intensity was proposed by Abdel-Gayed and Bradley et al. as the turbulence intensity which contributes effectively to turbulent flame. In this study, the turbulence characteristics which are necessary for obtaining the effective turbulence intensity were evaluated by Particle Image Velocimetry (PIV) measurement. Then turbulent burning velocity of iso-octane/air flame was investigated with effective turbulence intensity. The turbulent burning velocity increased with the increase in effective turbulence intensity. The increase in turbulent burning velocity may be caused by the increase in flame front area with increase in the effective turbulence intensity.

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Study of Thermo-Diffusive Effects on Iso-Octane/Air Flames at Fixed Turbulence Karlovitz Number

Hayakawa

Takeo

Miki

et al. 2011

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Spherically propagating laminar and turbulent flames were studied using iso-octane / air mixtures with and without dilution. The main purpose of this study is to clarify the influence of thermo-diffusive effects on the turbulent flames. In order to examine the thermo-diffusive effects solely by separating them from the effects of flame stretch, turbulent burning velocities were compared at constant flame stretch factors. The mean flame stretch factor acting on turbulent flame front may be represented by the turbulence Karlovitz number. Thus, turbulent explosions were carried out at fixed turbulence Karlovitz numbers. The ratio of turbulent burning velocity to unstretched laminar burning velocity increased with the equivalence ratio for non-diluted mixtures at fixed turbulence Karlovitz numbers. And this ratio for CO2 diluted mixtures was larger than N2 diluted mixtures. The Markstein number that denotes the sensitivity of the flame to thermo-diffusive effects depends on the equivalence ratio and diluents of the mixture. The ratio of turbulent burning velocity to unstretched laminar one increased with decreasing Markstein number. Especially, it changed stepwise around Markstein number of zero. However, the burning velocity ratios did not increase with increasing mixture pressure although the Markstein number decreased with pressure.

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Effects of CO₂ and N₂ Dilutions on Laminar and Turbulent Flame Propagation

Hayakawa

Miki

Kobayashi

et al. 2011

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I13 Influence of Energy Spectrum and Scales of Turbulence on Burning Velocity of Spherically Propagating Premixed Turbulent Flame

Hayakawa¹,

Miki²,

Nagano³

et al. 2011

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Effects of Diluent Gases on Combustion of Coal Gasification Gas: Comparison Between N2 and CO2 Dilutions

Nagano

Kado

Takeo

et al. 2011

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Combustion properties of coal gasification gas with CO2 dilution were investigated for a newly proposed IGCC power generation system with CO2 capture. In this system, the gasification gas was burned under high CO2 concentration atmosphere. In order to clarify the properties of the flames under such atmosphere, the laminar and turbulent burning velocities were investigated for outwardly propagating stoichiometric H2/O2/CO2 and H2/O2/N2 flames under the two conditions, 1: the same amount of diluent of CO2 or N2, 2: the constant flame temperature irrespective of diluents. Under the condition1 of the same amount of diluents, the unstretched laminar burning velocities, ul of CO2 diluted flames were smaller than those of N2 diluted flames. The ratios of the turbulent burning velocity at the flame radius 30mm, utn(30mm) to ul of the CO2 diluted flames were found to be larger than those of N2 diluted flames. Under the condition2 of the constant flame temperature, it was set to 1300, 1500, 1700, and 2135 degrees Celsius. At the flame temperatures except for 2135 degrees Celsius, ul of CO2 diluted flames were slightly smaller than those of N2 diluted flames. The ratios, utn(30mm) / ul of CO2 diluted flames were larger than those of N2 diluted flames. Increase in the turbulence Karlovitz number and decrease in the Markstein number by the CO2 dilution might cause the increase in utn(30mm) / ul of CO2 diluted flames in both conditions.

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E125 The Flame Front Shapes of Spherically Propagating Turbulent Premixed Flames and their Variation with Equivalence Ratio

Hayakawa¹,

Miki²,

Kubo³

et al. 2011

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J056042 Study on Turbulent Propagating Flames with Effective Turbulence Intensity

Hayakawa¹,

Miki²,

Tomari³

et al. 2011

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E113 Study of Turbulent Burning Velocity of Iso-octane/Air Mixtures at Fixed Turbulence Karlovitz Number

Hayakawa¹,

Miki²,

Hirata³

et al. 2010

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Yukito Miki

Analysis of Turbulent Burning Velocity of Spherically Propagating Premixed Flame with Effective Turbulence Intensity

Study of Thermo-Diffusive Effects on Iso-Octane/Air Flames at Fixed Turbulence Karlovitz Number

Effects of CO₂ and N₂ Dilutions on Laminar and Turbulent Flame Propagation

I13 Influence of Energy Spectrum and Scales of Turbulence on Burning Velocity of Spherically Propagating Premixed Turbulent Flame

Effects of Diluent Gases on Combustion of Coal Gasification Gas: Comparison Between N2 and CO2 Dilutions

E125 The Flame Front Shapes of Spherically Propagating Turbulent Premixed Flames and their Variation with Equivalence Ratio

J056042 Study on Turbulent Propagating Flames with Effective Turbulence Intensity

E113 Study of Turbulent Burning Velocity of Iso-octane/Air Mixtures at Fixed Turbulence Karlovitz Number

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Yukito Miki

Analysis of Turbulent Burning Velocity of Spherically Propagating Premixed Flame with Effective Turbulence Intensity

Study of Thermo-Diffusive Effects on Iso-Octane/Air Flames at Fixed Turbulence Karlovitz Number

Effects of CO2 and N2 Dilutions on Laminar and Turbulent Flame Propagation

I13 Influence of Energy Spectrum and Scales of Turbulence on Burning Velocity of Spherically Propagating Premixed Turbulent Flame

Effects of Diluent Gases on Combustion of Coal Gasification Gas: Comparison Between N2 and CO2 Dilutions

E125 The Flame Front Shapes of Spherically Propagating Turbulent Premixed Flames and their Variation with Equivalence Ratio

J056042 Study on Turbulent Propagating Flames with Effective Turbulence Intensity

E113 Study of Turbulent Burning Velocity of Iso-octane/Air Mixtures at Fixed Turbulence Karlovitz Number

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Effects of CO₂ and N₂ Dilutions on Laminar and Turbulent Flame Propagation