Study of the Microstructure of Coal at Different Temperatures and Quantitative Fractal Characterization

Abstract: In order to understand the influence of underground coal fires on coal fractures and pores, mercury intrusion porosimetry (MIP) and scanning electron microscopy (SEM) are combined to study the development of coal pore and fracture under high-temperature treatment and calculate the fractal dimension to analyze the relationship between the development of coal pore and fracture and the fractal dimension. The results show that the volume of pores and fractures of the coal sample (C200) treated at 200 °C (0.1715 mL… Show more

“…The appeal of coal lies in its remarkable physicochemical properties [6], which are attributed to its inherent structural and microstructural makeup [7]. For instance, its inherent porosity and high specific surface area make it an excellent candidate for applications in adsorption and filtration [8], while its remarkable mechanical strength and durability [9] make it well suited for use in construction materials [2].…”

Comprehensive physicochemical characterization of Algerian coal powders for the engineering of advanced sustainable materials

“…The appeal of coal lies in its remarkable physicochemical properties [6], which are attributed to its inherent structural and microstructural makeup [7]. For instance, its inherent porosity and high specific surface area make it an excellent candidate for applications in adsorption and filtration [8], while its remarkable mechanical strength and durability [9] make it well suited for use in construction materials [2].…”

Comprehensive physicochemical characterization of Algerian coal powders for the engineering of advanced sustainable materials

Multiscale Assessment of Transformation in Pore System of Shale during Combustion: An Insight into Poromechanical Response and Sorption Dynamics

Control of Elevated Temperatures on Poromechanics and Gas Storage Ability of Shale - a Co2 Sequestration Perspective