QUENCHING DISTANCE AND LAMINAR FLAME SPEED IN A BINARY SUSPENSION OF SOLID FUEL PARTICLES

被引:0
作者
Jadidi, M. [1 ]
Bidabadi, M. [1 ]
Shahrbabaki, A. Sh.
机构
[1] Iran Univ Sci & Technol, Dept Mech Engn, Combust Res Lab, Tehran 16844, Iran
来源
LATIN AMERICAN APPLIED RESEARCH | 2010年 / 40卷 / 01期
关键词
Dust Combustion; Binary Suspension; Non-Volatile Solid; Laminar Flame Speed; Quenching Distance; DUST CLOUDS; COMBUSTION; AIR; PROPAGATION; MECHANISM; IGNITION; METALS;
D O I
暂无
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
A mathematical combustion model of non-adiabatic dust flame is developed for a suspension of two monosize metal powders. Depending on the combustion properties of particles at different concentrations, the flame structure may display either an overlapping or a separated configuration. In the present study the heat loss term, which is assumed to be linearly proportional to temperature difference, is added to the energy conservation equation. The laminar flame speed and quenching distance are obtained by solving the energy equation in each zone and matching the temperature and heat flux at the interfacial boundaries. Calculated values of flame speed adequately agree with experimental data.
引用
收藏
页码:39 / 45
页数:7
相关论文
共 20 条
[1]   Flame propagation in two-component aluminum-boron gas suspensions [J].
Boichuk, LV ;
Shevchuk, VG ;
Shvets, AI .
COMBUSTION EXPLOSION AND SHOCK WAVES, 2002, 38 (06) :651-654
[2]   Phase changes in boron ignition and combustion [J].
Dreizin, EL ;
Keil, DG ;
Felder, W ;
Vicenzi, EP .
COMBUSTION AND FLAME, 1999, 119 (03) :272-290
[3]  
Eckhoff R.K., 2003, DUST EXPLOSIONS PROC
[4]   TECHNIQUES FOR STUDY OF COMBUSTION OF METALS [J].
GORDON, AS ;
DREW, CM ;
PRENTICE, JL ;
KNIPE, RH .
AIAA JOURNAL, 1968, 6 (04) :577-&
[5]   Flame speed in a binary suspension of solid fuel particles [J].
Goroshin, S ;
Kolbe, M ;
Lee, JHS .
PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2000, 28 :2811-2817
[6]   Quenching distance of laminar flame in aluminum dust clouds [J].
Goroshin, S ;
Bidabadi, M ;
Lee, JHS .
COMBUSTION AND FLAME, 1996, 105 (1-2) :147-160
[7]  
HUANG Y, 2005, 43 AER SCI M EXH AIA
[8]   Combustion of bimodal nano/micron-sized aluminum particle dust in air [J].
Huang, Ying ;
Risha, Grant A. ;
Yang, Vigor ;
Yetter, Richard A. .
PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2007, 31 :2001-2009
[9]   Effect of particle size on combustion of aluminum particle dust in air [J].
Huang, Ying ;
Risha, Grant A. ;
Yang, Vigor ;
Yetter, Richard A. .
COMBUSTION AND FLAME, 2009, 156 (01) :5-13
[10]   Burn time of aluminum nanoparticles: Strong effect of the heating rate and melt-dispersion mechanism [J].
Levitas, Valery I. .
COMBUSTION AND FLAME, 2009, 156 (02) :543-546
12