Research on differences of adsorbed water characteristics of low rank and high rank coals based on water vapor adsorption model

YANG Yapu; CHEN Mingyi; TIAN Fuchao; WANG Zhenyang; TIAN Siao; FANG Rongya

Safety in Coal Mines > 2021 > 52(4): 7-12.

YANG Yapu, CHEN Mingyi, TIAN Fuchao, WANG Zhenyang, TIAN Siao, FANG Rongya. Research on differences of adsorbed water characteristics of low rank and high rank coals based on water vapor adsorption model[J]. Safety in Coal Mines, 2021, 52(4): 7-12.

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Research on differences of adsorbed water characteristics of low rank and high rank coals based on water vapor adsorption model

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Published Date: April 19, 2021

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Abstract

Abstract

The coal-water interaction is of great significance for gas extraction and disaster prevention. Combined with 16 water vapor sorption models and the analysis of physicochemical structure of coal samples, the water adsorption behavior of low-rank and high-rank coals was studied. Results show that: the modified GAB model can better characterize the behavior of coal adsorption water, and the single-layer saturated adsorption capacity of low-rank coal samples is higher than that of high-rank coal samples, while there are no obvious differences in multi-layer adsorption capacity for the two samples; based on the Dent and Freundlich models, it’s found that with the increasing in water content or relative humidity, the water adsorption mechanism transforms from monolayer, multilayer to condensation successively; the differences in water adsorption behavior between low-rank coal and high rank coal are closely related to the number of oxygen-containing functional groups and the development degree of pore structure.
- water vapor sorption,
- metamorphic grade,
- GAB model,
- oxygen-containing functional group,
- pore structure

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