206 / 2022-02-14 23:34:41
Experimental and Numerical study of coal mechanical properties during coalification jump
compressive strength; elastic modulus; confining pressure; Poisson’s ratio, coal ranks
Resource Development and Utilization > 6. Unconventional Natural Gas Geology and Development
Abstract Accepted
强 黄 / 中国矿业大学
雪海 傅 / 中国矿业大学
建 申 / 中国矿业大学
强岭 姚 / 中国矿业大学
和伟 张 / 中国矿业大学
Abstract: The mechanical characteristics of coal reservoirs are important parameters in the hydraulic fracturing of coal. In this study, coal samples of different ranks were collected from twelve coal mines located in Xinjiang and Shanxi provinces, China. The coal ranks were identified with by the increased Maximum vitrine reflectance (Ro, max) value. The triaxial compression experiments were performed to determine the confining pressure effect on the mechanical properties of coal samples of different ranks. The numerical approaches, including the polynomial, arctangent, and exponential function models, were used to find the correlation between coal elastic modulus and the confining pressure. The compressive strength criteria measured the resistance to deformation of different coal ranks under increasing confining pressure. The results showed that the coal compressive strength of different ranks has a positive linear correlation with the confining pressure. The elastic modulus of different coal ranks and confining pressure show an exponential function. Poisson's ratio of coal and confining pressure show negative logarithmic function. The stress sensitivity of the coal elastic modulus decreases with the increase of confining pressure. The coalification jump identifies that the compressive strength, compressive strength coefficient, elastic modulus, and stress sensitivity coefficient of coal have a polynomial relationship with the increase of coal ranks.  The inflection points in coalification at Ro,max = 0.70%, 1.30% and 2.40%, are the first, second, and third coalification jumps . These findings provide significant support to coal fracturing during CBM production.

 
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