Abstract
The large mining height (LMH) in shallow coal seam has been widely applied in the Shenfu coalfield, China. The dynamic load is obvious, and the rib spalling is serious when the LMH working face concerns roof weighting. The advanced breaking position of the roof affects the strength of the ground pressure when the roof is broken. Firstly, based on a large number of actual measurements and physical simulation experiments, the rock formation in the fall zone, where the articulated structure cannot be articulated between the coal seam and the main roof, is called the equivalent immediate roof (EIR). When the mining height increases, the thickness of the EIR increases non-linearly. Next, based on the theory of “elastic foundation beam”, a mechanical model for the advanced breaking of the roof is established in shallow coal seam, and the calculation equation for the advanced breaking position of the roof is given; then, designed and carry out boreholes of the no. 22201 working face in the Zhangjiamao Coal Mine. The theoretical calculation of key strata results (5.6–6.9 m) are in the range of field measurement results (5–8 m). According to the field measurement results, the roof movement of the LMH working face is ahead of the roof weighting. Finally, we define the thickness of EIR and the mining height ratio as the immediate mining ratio ki, which affects the degree of filling of the goaf and determines the structural form of the main roof. When the ki is small, the goaf is fully filled; when the ki is large, the goaf is fully filled. Under the same conditions, different filling rate conditions will form different roof structures. Results of this research can be helpful to control roof weighting and provide early warning of possible safety problems related to the LMH working face in shallow coal seam.
Highlights
Shenfu-Dongsheng coalfield in China is one of the eight largest coalfields in the world
The roof structure will show the different strength of ground pressures before and after the fracture [3,4,5,6,7]
Results indicate that the leading layer of the main roof has broken in advance during the working face, the distance in advance is 5.6–6.9 m
Summary
Shenfu-Dongsheng coalfield in China is one of the eight largest coalfields in the world. This, combined with the physical simulation and numerical calculation, the mechanism of the upward movement of the hinge point of the roof structure (caused by the increase of the roof thickness) and the definition of the equivalent immediate roof (EIR) of the large mining height working face is proposed [19,20,21]. 22303 working face in the Bulianta coal mine, a structure model of the main roof cantilever beam with a 7.0 m LMH was proposed [24,25,26]. There are few studies on the roof advanced breaking position of LMH working face in shallow coal seam. Mine in China, adopting a combination of theoretical analyses and field measurement methods to research on the advanced breaking position of the shallow-buried and high-mining working face. The present research is aimed at providing the basis for stable roof structure and optimize the choice of stope support and roadway advanced support methods
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