Characteristics of Pore Structure and Fractal Dimension of Isometamorphic Anthracite

Characteristics of Pore Structure and Fractal Dimension of Isometamorphic Anthracite

The geologic conditions of No. 3 coal seams are similar to Sihe and Zhaozhuang Collieries, however, the gas production is significantly different. To better understand the effect of pores, by means of experimental measurements and quantitative analysis, the pore properties of high-rank isometamorphi...

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Bibliographic Details
Main Authors: Di Gao, Meng Li, Baoyu Wang, Bin Hu, Jianguo Liu
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:Energies
Subjects:
isometamorphic anthracite
pore properties
fractal theory
coal-bed methane
Qinshui Basin
Online Access:https://www.mdpi.com/1996-1073/10/11/1881
Description
Summary:The geologic conditions of No. 3 coal seams are similar to Sihe and Zhaozhuang Collieries, however, the gas production is significantly different. To better understand the effect of pores, by means of experimental measurements and quantitative analysis, the pore properties of high-rank isometamorphic anthracite were thoroughly studied. Our study showed that the pore structures were predominantly adsorptive, accounting for more than 88% of the specific surface area. The coal pores showed typical three-stage fractal characteristics at boundary points of 1 nm and 9 nm (7 nm of coal samples from Zhaozhuang Colliery), and the fractal dimension with 1–9 nm (or 1–7 nm), as being significantly larger than those measured outside the given ranges. Pores in samples from Sihe Colliery were mainly open spherical or ellipsoidal pores in shape; conversely, those from Zhaozhuang Colliery were mainly Y-shaped, V-shaped, or ‘ink-bottle’ type.
ISSN:1996-1073

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