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薄煤层充填开采动态监测及工艺参数优化研究

Dynamic monitoring and optimization of technological parameters in thin coal seam filling mining

  • 摘要: 基于充填效果受采充步距、顶板支护强度、充填体力学性能等多种因素影响、以及采空区充填后无法进行人工实时监测顶底板移近量、难以实时评判充填效果等问题,针对采空区顶板动态实时监测需要,研发了充填工作面采空区新型顶板动态仪装置,重点研究解决仪器高度、防水、实时在线监测等关键技术问题,并将其应用于薄煤层超高水材料充填开采工作面。
    结果表明:通过在充填过程中对顶板进行连续、实时的动态监测,得到了采空区实时顶底板移近量,并根据监测结果对充填体力学性能等充填工艺参数进行了优化设计,有效减少了顶底板移近量,将充填效果评价关口前置,达到了良好的应用效果。

     

    Abstract: The filling effect is affected by various factors such as the backfilling step, roof support strength, mechanical properties of the filling body, real-time monitoring of the roof-to-floor convergence and the difficulty in real-time evaluation of the filling effect after filling the gob. In this paper, in view of the dynamic real-time monitoring needs of the gob roof, a new type of roof dynamic meters for the gob filling face was developed, focusing on solving key technical problems such as instrument height, waterproofing and real-time online monitoring, and applying it to the ultra-thin coal seam super high water material filling working face. The results show that the real-time roof-to-floor convergence of the gob is obtained through continuous and real-time dynamic monitoring of the roof during the filling process. According to the monitoring results, the filling process parameters such as the mechanical properties of the filling body are optimized and effectively reduced. The amount of the roof-to-floor convergence was decreased, and the filling effect evaluation threshold was placed forward, which achieved a good application effect.

     

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