Variation of physicochemical parameters of coal during low temperature oxidation under  different oxygen concentrations

YANG Dejin; YANG Shengqiang; JI Guangrui; ZHAO Jianming; WANG Jibin

Safety in Coal Mines > 2021 > 52(4): 39-44.

YANG Dejin, YANG Shengqiang, JI Guangrui, ZHAO Jianming, WANG Jibin. Variation of physicochemical parameters of coal during low temperature oxidation under different oxygen concentrations[J]. Safety in Coal Mines, 2021, 52(4): 39-44.

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Variation of physicochemical parameters of coal during low temperature oxidation under different oxygen concentrations

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Published Date: April 19, 2021

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Abstract

In order to explore the effect of different oxygen concentrations in mine goaf on the microscopic characteristics of coal during low temperature oxidation process, we simulated coal oxidation at low temperature under different oxygen concentrations. Through BEL-Max automatic specific surface/pore analysis, steam adsorption instrument and electron spin resonance spectrometer (ESR), the change characteristics of pore distribution and free radicals during low temperature oxidation of coal under different oxygen concentrations were obtained. The experimental results show that with the increase of oxygen concentration and oxidation temperature, moisture, volatile matter, BET specific surface area and free radical concentration change in stages. After 130 ℃, the recombination rate of coal and oxygen is accelerated, and the continuous decrease of moisture and volatile matter leads to the development of coal pores, increases the active surface contact area between oxygen and coal, activates the original inactive primary free radicals, participates in the reaction and produces more new free radicals. In the heating range of 200 ℃, the concentration of free radicals (21%) increased by 12.77 × 1017/g.
- low temperature oxidation,
- pore distribution,
- BET specific surface area,
- free radical reaction,
- coal-oxygen compound

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