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沿空留巷高水材料巷旁充填体预应力承载结构优化研究OA

Study on optimization of prestressed bearing structure of high-water material roadside backfill for gob-side entry retaining

中文摘要英文摘要

为解决山西高平科兴赵庄煤业9号煤9303工作面沿空留巷巷旁高水材料充填体易鼓出、开裂及支护阻力衰减的问题,结合该工作面生产地质条件与矿压规律,开展充填体预应力承载结构研发与参数优化研究.通过FLAC3D数值模拟,对比对拉锚杆、对拉锚杆+竖向梯子梁、对拉锚杆+横向梯子梁3种加固组合的应力分布与变形控制效果,依托9303工作面回风顺槽现场工业性试验,验证结构可靠性.结果表明,对拉锚杆+竖向梯子梁+钢筋网组合的预应力结构优化效果最优,可使工作面后方100m处充填体帮移近量控制在110 mm以内,顶板最大离层量48 mm,充填体支护阻力满足基本顶切断所需的12.37 MN/m要求,有效解决了单一充填体稳定性不足的问题.该预应力承载结构通过多维度协同作用,提升了充填体承载能力与抗变形能力,为薄煤层高水材料沿空留巷提供了可靠技术支撑,具备推广应用价值.

To address the problems of outward bulging,cracking and attenuation of support resistance of high-water material filling bodies beside the gob-side entry retaining in the No.9 coal seam 9303 working face of Gaoping Kexing Zhaozhuang Coal Industry in Shanxi Province,a research on the development and parameter optimization of the prestressed bearing structure for filling bodies was carried out combined with the production geological conditions and mine pressure laws of the working face.By means of FLAC3D numerical simulation,the stress distribution and deformation control effects of three reinforcement schemes,including opposite-pull anchor bolts,opposite-pull anchor bolts+vertical ladder beams,and opposite-pull anchor bolts+transverse ladder beams,were compared.The structural reliability was verified through field industrial tests in the return airway of No.9303 Face.The results showed that the optimized prestressed structure combining opposite-pull anchor bolts,vertical ladder beams and steel mesh presented the best performance.The rib convergence of the filling body at 100 m behind the working face can be controlled within 110 mm,and the maximum roof separation was 48 mm.The support resistance of the filling body met the required 12.37 MN/m for main roof cutting off,which effectively solved the insufficient stability of single filling bodies.With multi-dimensional synergistic effects,the proposed prestressed bearing structure improved the bearing capacity and deformation resistance of filling bodies.It provided a reliable technical support for gob-side entry retaining with high-water materials in thin coal seams and had popularization and application prospects.

张萍

湖南科技大学资源环境与安全工程学院,湖南湘潭 411201

矿业与冶金

沿空留巷高水材料预应力承载结构充填体稳定性数值模拟

gob-side entry retaininghigh-water materialprestressed bearing structurebackfill stability,numerical simulation

《煤炭与化工》 2026 (5)

11-16,6

10.19286/j.cnki.cci.2026.05.003

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