论文信息 - Effect of particle size on the spontaneous heating of a coal stockpile

Effect of particle size on the spontaneous heating of a coal stockpile

Abstract A large-scale apparatus has been used to evaluate the effect of particle size on the spontaneous heating of a coal stockpile. To accomplish this, coal with various ranges of particle size (between 2 and 50 mm in diameter) was oxidized in a cylinder of 3-m length and 0.3-m diameter. A critical range of particle size was observed, below which spontaneous heating leads to flaming combustion. From the results of the oxygen consumption and the temperature of the coal bed, the influence of particle size on the oxidation rate has been analyzed in greater depth. The oxygen conservation equation, in which the oxygen consumption rate is first order in oxygen concentration and obeys the Arrhenius equation, allows the determination of apparent activation energies and preexponential factors. Calculated values of these parameters, by fitting the experimental data to the integrated form of the oxygen conservation equation, have been used to evaluate the effect of particle size. It was of particular interest to determine the operating regime for coal-oxygen reaction and this was achieved by defining an empirical exponent for the particle diameter in the rate equation. This exponent indicated the oxidation regime for a change from chamical to pore diffusion control at successively higher temperatures.

Ahmet Arisoy | Fehmi Akgün | Fehmi Akgün | A. Arısoy

[1] L. Delfosse,et al. Elovichian kinetics during chemisorption of oxygen on semicoke , 1989 .

[2] X. D. Chen,et al. On the mathematical modeling of the transient process of spontaneous heating in a moist coal stockpile , 1992 .

[3] P. Walker,et al. D.s.c. and TGA measurements of O2 interaction with coal chars , 1989 .

[4] B. Beshty. A mathematical model for the combustion of a porous carbon particle , 1978 .

[5] D. D. Perlmutter,et al. Reaction regimes in coal oxidation , 1981 .

[6] J. Guin,et al. Laboratory study of the self-heating tendency of coals and their pyrolysis chars , 1986 .

[7] Y. Hishinuma,et al. Low temperature oxidation of coals-a calorimetric study , 1987 .

[8] B. C. Young,et al. The rate of oxidation of char and coal in relation to their tendency to self-heat , 1979 .

[9] Fehmi Akgün,et al. Modelling of spontaneous combustion of coal with moisture content included , 1994 .

[10] R. N. Chakravorty,et al. Rate studies of aerial oxidation of coal at low temperatures (30–170 °C) , 1970 .

[11] E. Furimsky,et al. Relation between particle size and properties of some bituminous coals , 1990 .

[12] Yukio Hishinuma,et al. Low temperature oxidation of coals: Effects of pore structure and coal composition , 1985 .

[13] James B. Stott,et al. A ‘full-scale’ laboratory test for the spontaneous heating of coal , 1987 .