Resumen

XIE, Xiaoping; FANG, Xinqiu; LIANG, Minfu  y  AI, Dechun. Geological evolution process, mechanism, and application of protective layer in semi-coal and rock face. Earth Sci. Res. J. [online]. 2020, vol.24, n.4, pp.499-506.  Epub 07-Mayo-2021. ISSN 1794-6190.  https://doi.org/10.15446/esrj.v24n4.91378.

Under the influence of geological structure, the surrounding rock of semi-coal seam is easy to be loose and fractured, and the repairing rate is high. Therefore, it is of great theoretical and practical significance to study semi-coal seam mining's mechanism and control technology. In this paper, the geological evolution principle of the semi-coal seam is analyzed theoretically. The mechanic's relationship between the mining height of the semi-coal face and the lower coal seam's pressure relief is interpreted. The mechanism of eliminating bad blind areas in non-pillar mining of upper protective seam is analyzed. Through numerical simulation analysis, it is concluded that the expansion deformation rate of a protective layer increases linearly with the increase of mining thickness of the protective layer, and the width of undesirable blind zone of coal seam increases linearly with the rise of protective layer thickness. This paper puts forward the technology of non-pillar mining in the protective seam's semi-coal and rock face. Field industrial test results show that the technology achieves the overall pressure relief and reflection reduction of low permeability and high gas coal seams. The underlying 3 + 4 protective layer achieves the general pressure relief and reflection reduction of low permeability and high gas coal seams. Coalbed methane can be pre-drained up to 18 m3/min with a concentration of 90%.

Palabras clave : Semi-coal rock; Geological Evolution; Non-coal pillar; Distressed blind-zone; Gas extraction.

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