Pyrolysis kinetics and chemical composition of Hazro coal according to the particle size

被引：0

作者：

M. Z. Duz

Y. Tonbul

A. Baysal

O. Akba

A. Saydut

C. Hamamci

机构：

[1] Department of Chemistry,

[2] Faculty of Science and Art,undefined

[3] Dicle University,undefined

[4] Department of Chemistry,undefined

[5] Faculty of Science and Art,undefined

[6] Dicle University,undefined

[7] Department of Chemistry,undefined

[8] Faculty of Science and Art,undefined

[9] Dicle University,undefined

[10] Department of Chemistry,undefined

[11] Faculty of Science and Art,undefined

[12] Dicle University,undefined

[13] Department of Mining Engineering,undefined

[14] Faculty of Engineering and Architecture,undefined

[15] Dicle University,undefined

[16] Department of Chemistry,undefined

[17] Faculty of Science and Art,undefined

[18] Dicle University,undefined

来源：

Journal of Thermal Analysis and Calorimetry | 2005年 / 81卷

关键词：

thermogravimetry; pyrolysis; kinetic analysis; coal; elemental analysis; particle size;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The relationship between particle size and chemical composition of Hazro coal (origin: SE Anatolia, Turkey) has been examined by elemental analysis and by thermogravimetric pyrolysis. The chemical composition of the coal was determined by grinding sample particles physically and separating according to their size in mm by sieving. Particle size distribution of the coal and chemical composition of these fractions were given. The coal has been non-isothermally pyrolyzed in a thermogravimetric analyzer to determine the kinetic factors. Thermal gravimetric (TG/DTG) experiments were performed from ambient temperature to 800°C under a nitrogen atmosphere at heating rate 10 K min-1 with five different particle size ranges. Kinetic parameters of the samples were determined using a Coats and Redfern kinetic model, assuming a first-order reaction. Depending on the particle size of the coal samples, the mean activation energy values varied between 49.1 and 84.6 kJ mol-1. The results discussed indicate that activation energies increase as the particle size decreases.

引用

页码：395 / 398

页数：3

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