Modern Mining ›› 2026, Vol. 42 ›› Issue (04): 55-60.
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Abstract: In response to the complex top coal collapse morphology,unclear coal-rock boundary, and unstable coal release efficiency in the comprehensive mining face of the Pangpangta Mine with a steep coal seam,the 1029 working face was selected as the research object to conduct research on the optimiza ⁃ tion and application of the coal release process.By establishing a top coal release body morphology model and constructing the PFC2D numerical simulation platform,the top coal collapse behavior and coal-rock boundary characteristics under different coal seam thickness and inclination combinations were analyzed, revealing the coupling relationship between the release body structure evolution and recovery efficiency . Based on this,the influence of four coal release methods on the release effect was simulated and com ⁃ pared,and it was clearly identified that the "two-stage sequential descent"coal release method had a high ⁃ er top coal recovery rate and clearer boundary.Combined with on-site experiments for verification,after optimizing the coal release process,the top coal recovery rate increased from 82.3%to 89.7%,an increase of 7.4 percentage points.The stability of the supports was enhanced,and the utilization rate of the coal source and the cycle efficiency were also improved.
Key words: steep coal seam, top coal collapse, coal-rock boundary, coal release process
LI Zhenzhong. Research and Application of Optimization for Coal Release Process in Fully Mechanized Mining Face of Steep Coal Seam[J]. Modern Mining, 2026, 42(04): 55-60.
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