张学博,王豪,杨明,等. 抽采钻孔失稳坍塌对瓦斯抽采的影响机制研究及应用[J]. 煤炭学报,2023,48(8):3102−3115. DOI: 10.13225/j.cnki.jccs.2022.0925
引用本文: 张学博,王豪,杨明,等. 抽采钻孔失稳坍塌对瓦斯抽采的影响机制研究及应用[J]. 煤炭学报,2023,48(8):3102−3115. DOI: 10.13225/j.cnki.jccs.2022.0925
ZHANG Xuebo,WANG Hao,YANG Ming,et al. Study and application on influence mechanism of instability and collapse of drainage borehole on gas drainage[J]. Journal of China Coal Society,2023,48(8):3102−3115. DOI: 10.13225/j.cnki.jccs.2022.0925
Citation: ZHANG Xuebo,WANG Hao,YANG Ming,et al. Study and application on influence mechanism of instability and collapse of drainage borehole on gas drainage[J]. Journal of China Coal Society,2023,48(8):3102−3115. DOI: 10.13225/j.cnki.jccs.2022.0925

抽采钻孔失稳坍塌对瓦斯抽采的影响机制研究及应用

Study and application on influence mechanism of instability and collapse of drainage borehole on gas drainage

  • 摘要: 抽采钻孔失稳坍塌是阻碍煤层瓦斯(煤层气)高效抽采的关键问题之一。为了解决松软煤层抽采钻孔失稳坍塌难题,基于实验室试验及变质量流压降等理论分析,建立了综合考虑钻孔变形失稳、煤层瓦斯运移及钻孔负压沿孔长动态衰减的耦合数学模型,数值分析了抽采钻孔失稳坍塌对瓦斯抽采的影响机制,提出了基于抽采负压分布测试的抽采钻孔失稳坍塌特性探测技术。研究表明:① 完整孔瓦斯抽采效果较好,钻孔负压损失很小,100 m长钻孔抽采1 d时总负压损失仅占孔口抽采负压的0.04%,孔口、孔底煤层瓦斯分布及有效抽采半径基本相同。② 孔底塌孔对瓦斯抽采效果影响有限,但孔口附近塌孔对瓦斯抽采效果的影响较大;孔底和孔口附近均塌孔90%时,抽采90 d后瓦斯抽采量比完整孔瓦斯抽采量分别降低了38.7%、69.6%,抽采180 d后孔底有效抽采半径分别是孔口有效抽采半径的88.7%、75.0%,抽采1 d总负压损失分别占孔口抽采负压的5.1%、28.4%。③ 钻孔堵孔严重影响瓦斯抽采效果,孔内堵塞煤体与周围煤体形成连续介质,孔内压力成为了煤层瓦斯压力,失稳段无法抽采瓦斯;抽采90 d时孔底堵孔瓦斯抽采量仅占完整孔瓦斯抽采量的17.6%。④ 钻孔抽采负压分布对抽采钻孔失稳坍塌特性较为敏感,提出了基于抽采负压分布测试的抽采钻孔失稳坍塌特性探测技术,通过在某矿25030工作面的应用,确定了其抽采钻孔失稳坍塌区域(65~80 m)及坍塌程度(严重塌孔),建议矿方对钻孔失稳坍塌区域进行针对性的注浆防护。

     

    Abstract: The instability and collapse of drainage boreholes is one of the key problems that hinder the efficient extraction of coal-bed methane (CBM). In order to solve the problem of instability and collapse of extraction boreholes in soft coal seams, based on the laboratory tests and theoretical analysis of variable mass flow pressure drop, a coupled mathematical model is established, which comprehensively considers borehole deformation and instability, coal bed gas migration and dynamic attenuation of borehole negative pressure along the borehole length. The influence mechanism of instability and collapse of extraction boreholes on gas extraction is numerically analyzed, and the detection technology of instability and collapse characteristics of extraction boreholes based on the distribution test of extraction negative pressure is proposed. Research shows: ① The gas drainage effect of the complete borehole is very good, and the negative pressure loss of the borehole is very small. The total negative pressure loss of the100 m long borehole for one day only accounts for 0.04% of the negative pressure of the orifice. The gas distribution and effective drainage radius of the coal seam at the orifice and the bottom of the hole are basically the same. ② The influence of borehole bottom collapse on the gas drainage effect is limited, but the influence of borehole collapse near the hole opening on the gas drainage effect is significant. When 90% of the borehole is collapsed at the borehole bottom and near the borehole opening, the gas extraction volume after 90 days of extraction is 38.7% and 69.6% lower than that of the complete borehole. After 180 days of extraction, the effective extraction radius at the borehole bottom is 88.7% and 75.0% of the effective extraction radius of the borehole opening. The total negative pressure loss in the first day of extraction accounts for 5.1% and 28.4% of the negative pressure of the borehole opening. ③ Borehole plugging seriously affects the gas extraction effect. The blocked coal body in the hole forms a continuous medium with the surrounding coal body. The pressure in the borehole becomes the gas pressure of the coal seam, and the unstable section cannot extract gas. After 90 days of drainage, the gas drainage volume of the blocked hole at the bottom of the hole only accounts for 17.6% of the gas drainage volume of the complete borehole. ④ The negative pressure distribution of extraction drilling is sensitive to the instability and collapse characteristics of extraction drilling. A detection technology for the instability and collapse characteristics of extraction drilling based on the negative pressure distribution test of extraction drilling is proposed. Through the application in the 25030 working face of a mine, the instability and collapse area (65−80 m) and collapse degree (serious collapse borehole) of extraction drilling are determined. It is suggested that the mine should carry out a targeted grouting protection for the instability and collapse area of boreholes.

     

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