采空区卸压瓦斯抽采钻井动态调整研究

Bo Bi, J. Meng, Ben-cheng Cheng
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引用次数: 0

摘要

随着煤矿设备机械化的发展,“孔代巷”技术的广泛应用大大降低了瓦斯治理工程的成本,但对瓦斯抽放效果提出了更高的要求。目前,煤矿检测钻孔的抽采效果主要通过钻孔现场进行评价,但钻孔现场各钻孔的流量和瓦斯浓度不一样,导致瓦斯抽采效果没有得到正确的掌握。本研究以某典型多煤层组高瓦斯突出矿区工作面采空区卸压钻孔为研究对象。通过新研制的便携式钻孔检测装置,对钻孔排水纯量进行了调查,并对钻孔设计进行了动态调整。采空区卸压瓦斯控制效果的提高,保证了采空区工作面的瓦斯安全。同时,提高了气体的提取率,减少了温室气体的排放。如果能够实时传输井眼调查数据并进行大数据分析,则可以通过回归算法预测最佳提取负压。在执行器控制各钻孔负压的情况下,提取系统具有智能判断功能。
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A Study on the Dynamic Adjustment of Pressure Relief Gas Drainage Drilling in Mined-Out Areas
With the development of coal mine equipment mechanization, the wide application of “hole instead of roadway” technology greatly reduces the cost of gas control engineering, but puts forward higher requirements for the effect of gas drainage. At present, the drainage effect of coal mine inspection boreholes is mainly evaluated by the drilling field, but the flow rate and gas concentration of each borehole in the drilling field are not the same, which causes the gas drainage effect not to be correctly mastered. In the present study, the pressure relief drilling in the goaf of the working face of a typical multi-coal seam group high gas outburst mining area was taken as the research object. Through the newly developed portable drilling inspection device, the pure amount of drilling drainage was investigated, and the drilling design was dynamically adjusted. The enhancement of the goaf pressure relief gas control effect ensures the gas safety of the mining face. At the same time, this improves the gas extraction rate and reduces the emission of greenhouse gases. If the data from the borehole investigation can be transmitted in real time and analyzed in big data, the optimal extraction negative pressure can be predicted through a regression algorithm. Under the control of the negative pressure of each borehole by the actuator, the extraction system can have the function of intelligent judgment.
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