Abstract
Many underground reservoirs for storing water have been constructed in China’s western coal mines to protect water resources. Coal pillars which work as dams are subjected to a long-term soaking environment of concentrated salty water. Deterioration of the coal dam under the attack of the salty solution poses challenges for the long-term stability and serviceability of underground reservoirs. The evolution of the physical and mechanical properties of coal subjected to salty solutions are investigated in this paper. Coal from a western China mine is made to standard cylinder samples. The salty solution is prepared according to chemical tests of water in the mine. The coal samples soaked in the salty solution for different periods are tested by scanning electron microscope, nuclear magnetic resonance, and ultrasonic detector techniques. Further, uniaxial compression tests are carried out on the coal specimens. The evolutions of porosity, mass, microstructures of coal, solution pH values, and stress–strain curves are obtained for different soaking times. Moreover, a damage constitutive model for the coal samples is developed by introducing a chemical-stress coupling damage variable. The result shows that the corrosion effect of salty solution on coal samples becomes stronger with increasing immersion time. The degree of deterioration of the longitudinal wave velocity (vp) is positively correlated with the immersion time. With the increase in soaking times, the porosity of coal gradually increases. The relative mass firstly displays an increasing trend and then decreases with time. The peak strength and elastic modulus of coal decreases exponentially with soaking times. The developed damage constitutive model can well describe the stress–strain behavior of coal subjected to salty solution under the uniaxial compression.
Highlights
IntroductionCoal mining is normally accompanied by discharge of a large amount of water
The results showed that with the increase in water content, the static mechanical parameters of coal samples deteriorated to a certain degree, while the dynamic mechanical parameters increased first and decreased
This paper aims to study the evolution of the physical and mechanical properties of coal subjected to salty solution
Summary
Coal mining is normally accompanied by discharge of a large amount of water. This drained mine water with a high level of salt, in some cases, may damage ecosystem balance. The coal resources of China are mainly distributed in western mining areas where the ecological environment is fragile and water resources are scarce. Large-scale coal mining could result in environmental problems, such as surface water waste and environmental pollution [2,3]. To protect and utilize water resources, some underground mines [4] built underground reservoirs in the underground coal mines for water storage. Mine water in some of these mines [4] has high salinity level with K+ , Na+ , Cl− , and SO4 2− , etc. As the dams of underground reservoirs, coal pillars are in a long-term soaking environment of concentrated saltwater that could significantly change the microstructure of coal and affect the performance of coal dams
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