NUMERICAL RESEARCH OF HEAT AND MASS TRANSFER DURING LOW-TEMPERATURE IGNITION OF A COAL PARTICLE

被引:27
作者
Glushkov, Dmitrii O. [1 ]
Strizhak, Pavel A. [1 ]
Vysokomornaya, Olga V. [1 ]
机构
[1] Natl Res Tomsk Polytech Univ, Tomsk, Russia
来源
THERMAL SCIENCE | 2015年 / 19卷 / 01期
关键词
heat and mass transfer; coal particle; low-temperature air flow; ignition; numerical research; POROUS CARBON PARTICLE; OXY-FUEL COMBUSTION; PULVERIZED COAL; ENERGY-CONSERVATION; SELF-IGNITION; MIXTURE; MODEL; POWER; KINETICS; SYSTEM;
D O I
10.2298/TSCI140521107G
中图分类号
O414.1 [热力学];
学科分类号
摘要
Numerical researches have been carried out to study the influence of air flow temperature and a fossil fuel particle rate on sufficient conditions of ignition in a "coal particle-air" system. Developed mathematical model takes into account interconnected processes of heat transfer in a coal particle and gas area, thermal decomposition of organic material, diffusion and gas-phase oxidation of volatiles, heating of a coke (carbon) and its heterogeneous ignition. The effect of low-temperature (about 600 K) ignition for a single coal particle is impossible even at variation of its rate (radius) from 0.05, mm to 0.5 mm. Nevertheless this process is possible for group of particles (two, three, et al) situated at close-range from each other. The physical aspects of the problem are discussed.
引用
收藏
页码:285 / 294
页数:10
相关论文
共 29 条
  • [1] [ACRF ERI RAS], 2013, GLOB RUSS EN OUTL 20
  • [2] KINETICS OF THERMAL DECOMPOSITION OF PULVERIZED COAL PARTICLES
    BADZIOCH, S
    HAWKSLEY, PG
    [J]. INDUSTRIAL & ENGINEERING CHEMISTRY PROCESS DESIGN AND DEVELOPMENT, 1970, 9 (04): : 521 - &
  • [3] A plant-specific bottom-up approach for assessing the cost-effective energy conservation potential and its ability to compensate rising energy-related costs in the German iron and steel industry
    Brunke, Jean-Christian
    Blesl, Markus
    [J]. ENERGY POLICY, 2014, 67 : 431 - 446
  • [4] Oxy-fuel combustion technology for coal-fired power generation
    Buhre, BJP
    Elliott, LK
    Sheng, CD
    Gupta, RP
    Wall, TF
    [J]. PROGRESS IN ENERGY AND COMBUSTION SCIENCE, 2005, 31 (04) : 283 - 307
  • [5] High-temperature ignition of a reactive material by a hot inert particle with a finite heat reserve
    Burkina, R. S.
    Mikova, E. A.
    [J]. COMBUSTION EXPLOSION AND SHOCK WAVES, 2009, 45 (02) : 144 - 150
  • [6] Mathematical model for heat transfer and combustion in a pulverized coal flame
    Chernetskiy, M. Yu.
    Dekterev, A. A.
    [J]. COMBUSTION EXPLOSION AND SHOCK WAVES, 2011, 47 (03) : 280 - 288
  • [7] MATHEMATICAL MODELING OF THE HEAT TREATMENT AND COMBUSTION OF A COAL PARTICLE. IV. IGNITION STAGE
    Enkhjargal, Kh.
    Salomatov, V. V.
    [J]. JOURNAL OF ENGINEERING PHYSICS AND THERMOPHYSICS, 2011, 84 (04) : 898 - 904
  • [8] Fan Q. X., 2014, ADV MAT RES, V962-965, P1875
  • [9] IMPACT OF PHYSICAL PROPERTIES OF MIXTURE OF DIESEL AND BIODIESEL FUELS ON HYDRODYNAMIC CHARACTERISTICS OF FUEL INJECTION SYSTEM
    Filipovic, Ivan M.
    Pikula, Boran D.
    Kepnik, Goran V.
    [J]. THERMAL SCIENCE, 2014, 18 (01): : 143 - 153
  • [10] Frank-Kamenetsky DA., 1969, Diffusion and Heat Transfer in Chemical Kinetics
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