Abstract
The movements of overburden induced by mining a thick coal seam with a hard roof extend widely. The effects of breakages in the hard strata on the strata behaviors might vary with the overlying strata layers. For this reason, we applied a test method that integrated a borehole TV tester, borehole-based monitoring of strata movement, and monitoring of support resistance for an in situ investigation of a super-thick, 14–20 m coal seam mining in the Datong mining area in China. The results showed that the range of the overburden movement was significantly high, which could reach to more than 300 m. The key strata (KS) in the lower layer main roof were broken into a ‘cantilever beam and voussoir beam’ structure. This structure accounted for the ‘long duration and short duration’ strata behaviors in the working face. On the other hand, the hard KS in the upper layer broke into a ‘high layer structure’. The structural instability induced intensive and wide-ranging strata behaviors that lasted for a long time (two to three days). Support in the working face were over-pressured by large dynamic factors and were widely crushed, while the roadways were violently deformed. Hence, the structure of a thick coal seam with a hard roof after mining will form a ‘cantilever beam and voussoir beam and high layer structure’, which is unique to a large space stope.
Highlights
The movement and control of the hard roof of a coal seam have always been key issues in coal mining
Studies regarding strata behavior are more focused on the instability of broken strata within the near field main roof, and on how such instability affects the strata behavior
Qian’s theory of voussoir beams [1], and Song’s theory of transferring rock beams [2], perfectly demonstrate strata breakages in the main roof and their effects on strata behaviors. These theories can serve as guides for understanding the schema and the control of strata behavior in the mining of thin or medium-to-thick coal seams, as, under such conditions, the mining thickness is small enough that the movements of overburden fall within a relatively small range after mining
Summary
The movement and control of the hard roof of a coal seam have always been key issues in coal mining. Qian’s theory of voussoir beams [1], and Song’s theory of transferring rock beams [2], perfectly demonstrate strata breakages in the main roof and their effects on strata behaviors. These theories can serve as guides for understanding the schema and the control of strata behavior in the mining of thin or medium-to-thick coal seams, as, under such conditions, the mining thickness is small enough that the movements of overburden fall within a relatively small range after mining.
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