Yi Jin scite author profile

Experimental results show that nanoscale pores in coal are affected by coal rank and deformation structures. In terms of pore volume, the transitional pores occupy the largest proportion, and in terms of specific surface area, the sub-micropores take up the largest proportion. For weak brittle deformed coal (including normal structured coal), when the coal rank increases, the volume and specific surface area of pores in different sizes firstly decrease and then increase. The volume and specific surface area of transitional pores and micropores in coal reach the minimum at about R O,ran = 2.0 %. After that, a slow increasing trend is observed. The volume of sub-micropores reaches the minimum at about R O,ran = 1.5 % and then shows a trend of rapid growth as coal rank increases. As the degree of coal deformation increases, both pore volume and specific surface area have a significant increase. Under strong tectonic deformation, both the volume and total specific surface area of the nanoscale pores and of sub-micropores increase significantly; the volume of transitional pores increases moderately, and their specific surface area shows a decreasing trend; the volume and specific surface area increments of micropores decline rapidly as the degree of metamorphism increases.

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Fractal study of adsorption-pores in pulverized coals with various metamorphism degrees using N2 adsorption, X-ray scattering and image analysis methods

Niu

Pan

Jin

et al. 2019

Journal of Petroleum Science and Engineering

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A mathematical model of fluid flow in tight porous media based on fractal assumptions

Jin

Zhao

et al. 2017

International Journal of Heat and Mass Transfer

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Yi Jin

Micrometer-scale fractures in coal related to coal rank based on micro-CT scanning and fractal theory

Nanoscale Pores in Coal Related to Coal Rank and Deformation Structures

Fractal study of adsorption-pores in pulverized coals with various metamorphism degrees using N2 adsorption, X-ray scattering and image analysis methods

A mathematical model of fluid flow in tight porous media based on fractal assumptions

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