Abstract
The borehole television approach is an effective way of detecting mining-induced fractures in overburden strata as it can visualize fractures to facilitate a quantitative analysis of size, quantity, length, and other features. In this article, the borehole television approach is applied on panel 20105 of the Wangjialing Coal Mine in China to investigate the overburden movement and spatiotemporal evolution law of mining-induced fractures from the coal seam to ground surface. The results revealed that the overburden strata experienced the phases of roof caving, generation of fracture, bed separation, dislocations, fracture propagation, surface subsidence, and closing of fractures. The process can be divided into the initiation stage, the active stage, and the degradation stage along the mining direction. For exploited working faces, the caved zone height is 2.9–4.11 times the mining height, and the height of the fractured zone is 19.35–22.19 times the mining height. The height range of the three parts in the fractured zone is 24–26, 40–45, and 30–35 m. Significant fractures were observed in the bending zone. Step subsidence and cracks, which indicate severe damages, were observed on the ground surface above the goaf.
Highlights
Large-scale longwall mining of coal seams may cause movement of overburden strata and mining-induced fractures
Measured heights of heights caved zone and fractured zone appeared appeared to be smaller than the actual values due to the early deformations and blocking in boreholes caused by the pressure
(1) Field observations showed that the overburden strata generally experienced thelower phases
Summary
Large-scale longwall mining of coal seams may cause movement of overburden strata and mining-induced fractures. This method has many advantages in determining the breakage height and boreholes in the form of a film or video This method has many advantages in determining the time of the overburden strataofand morphology and size ofmorphology mining-induced fractures. The borehole television approach has been widely applied to identify lithology, determine mining-induced fractures. Studied the distribution and propagation various mining-induced fractures and propagation mining-induced fractures and foundof that transverse and longitudinal fractures found with that transverse longitudinal fractures intersectfractures with each other, while a high degree intersect each other,and while a high degree longitudinal dominate and become crushing longitudinal fractures dominate and become crushing fractures as they approach the roof to [21].
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