近距离煤层同采切顶留巷耦合弱化矿压机理研究

doi:10. 11799/ ce202508012

Abstract

Abstract:

Aiming at the problem of severe mine pressure in retaining roadway during simultaneous mining of close-distance coal seams, taking the 9102 and 10102 working faces of Jiaokou Coal Mine in Shanxi Province as the engineering background, the mechanical model of simultaneous mining of close-distance coal seams and the mechanical model of roof cutting and retaining roadway are established. Through theoretical analysis, numerical simulation, industrial test and other methods, the coupling weakening law of mining distance and roof cutting height on the stress of surrounding rock of retaining roadway is clarified. The reasonable mining staggered distance and roof cutting parameters are determined : the mining staggered distance is 30m, the roof cutting height is 6m ( the layer spacing is 10m ) and 11m ( the layer spacing is 15m ). The field test results show that when the interlayer spacing is 15 m, the roof deformation of the top cutting side of the 10102 transportation gateway is 71.61 mm, which is reduced by 38.2 %, and the hydraulic support pressure at the end of the working face is 25.47 MPa, which is reduced by 25.8 %, indicating that the optimization effect is good. The research results can provide theoretical basis and engineering reference for the roof cutting and roadway retaining technology under similar conditions.

CLC Number:

TD322

References

[1]任兴云，郝兵元，贺福帅，等.基于沉陷预测的上下煤层协同开采工作面走向错距研究[J].煤炭科学技术, 2022, 50(12):102-108 [2]REN Xingyun，HAO Bingyuan，HE Fushuai，et al.Study on reasonable stagger distance of upper and lower coal seams coordinated mining based on subsidence prediction[J].Coal Science and Technology, 2022, 50(12):102-108 [3]程辉，赵洪宝，张欢，等.近距离煤层工作面煤柱合理留设与巷道围岩控制技术[J].工程科学学报, 2022, 44(7):1147-1159 [4]CHENG Hui, ZHAO Hongbao, ZHANG Huan, et al.Reasonable pillar design and surrounding rock control technology of close coal seam working face[J].Chinese Journal of Engineering, 2022, 44(7):1147-1159 [5]WU Gang, FANG Xinqiu, BAI Hualin, et al.Optimization of Roadway Layout in Ultra-Close Coal Seams: A Case Study[J].PLoS ONE, 2018, 3, e0207447.[J].PLoS ONE, 2018, 3(e0207447.):- [6]何满潮, 王亚军, 杨军, 等.切顶卸压无煤柱自成巷开采与常规开采应力场分布特征对比分析[J].煤炭学报, 2018, 43(3):626-637 [7]HE Manchao, WANG Yajun, YANG Jun, et al.Comparative analysis on stress field distributions in roof cutting non-pillar mining method and conventional mining method[J].Journal of the China Coal Society, 2018, 43(3):626-637 [8]袁超峰, 袁永, 朱成, 等.薄直接顶大采高综采工作面切顶留巷合理参数研究[J].煤炭学报, 2019, 44(7):1981-1990 [9]YUAN Chaofeng, YUAN Yong, ZHU Cheng, et al.Reasonable parameters of roof cutting entry retaining in thin immediate roof and large mining height fully-mechanized face[J].Journal of the China Coal Society, 2019, 44(7):1981-1990 [10]辛亚军, 吴春浩, 杨俊鹏, 等.基于力学模型构建的留巷切顶高度确定与围岩控制技术[J].煤炭工程, 2024, 56(1):119-126 [11]XIN Yajun, WU Chunhao, YANG Junpeng, et al.Roof cutting height determination and surrounding rock control technology of gob-side entry retaining based on mechanical modelling[J].Coal Engineering, 2024, 56(1):119-126 [12]洛锋, 曹树刚, 李国栋, 等.近距离下行逐层开采底板应变时空差异特征[J].采矿与安全工程学报, 2018, 35(5):997-1004 [13]LUO Feng, CAO Shugang.LI Guodong,et alSpace-time difference characteristics of floor strain in close distance downward mining layer by layer[J].Journal of Mining and Safety Engineering, 2018, 35(5):997-1004 [14]黄庆享, 曹健.浅埋近距煤层开采三场演化规律及煤柱群结构控制效应[J].煤炭学报, 2021, 46(S1):1-9 [15]HUANG Qingxaing, CAO Jian.Three-field evolution law of shallow-buried close-distance coal seam mining and control effect of coal pillar group structure[J].Journal of the China Coal Society, 2021, 46(S1):1-9 [16]李胜利.基于稳压区理论近距离上下煤层协同开采错距研究[J].煤炭科学技术, 2022, 50(S2):44-49 [17]LI Shengli.Study on reasonable stagger distance of close coal seam coordinated mining based on pressure relief zone theory[J].Coal Science and Technology, 2022, 50(S2):44-49 [18]马海峰, 殷志强, 李传明, 等.邻近层同采工作面动压巷道失稳机理及错距优化研究[J].采矿与安全工程学报, 2016, 33(2):278-283 [19]MA Haifeng, YIN Zhiqiang, LI Chuanming, et al.Mechanism of dynamic pressure roadway instability and stagger distance optimization for adjacent layer working face[J].Journal of Mining and Safety Engineering, 2016, 33(2):278-283 [20]马新根, 何满潮, 李钊, 等.复合顶板无煤柱自成巷切顶爆破设计关键参数研究[J].中国矿业大学学报, 2019, 48(2):236-246 [21]MA Xingen, HE Manchao, LI Zhao, et al.Key parameters of gob-side entry retaining automatically formed by roof cutting and blasting in compound roof condition[J].Journal of China University of Mining and Technology, 2019, 48(2):236-246 [22]杨军, 王宏宇, 王亚军, 等.切顶卸压无煤柱自成巷顶板断裂特征研究[J].采矿与安全工程学报, 2019, 36(6):1137-1144 [23]YANG Jun, WANG Hongyu, WANG Yajun, et al.Fracture characteristics of the roof in gob-side entry retaining with roof cutting and pressure release[J].Journal of Mining and Safety Engineering, 2019, 36(6):1137-1144 [24]张卫, 张庆建, 解孝华, 等.中厚煤层软硬复合顶板切顶卸压沿空留巷关键参数优化研究[J].矿业研究与开发, 2023, 43(2):12-18 [25]ZHANG Wei, ZHANG Qingjian, JIE Xiaohua, et al.Study on optimization of key parameters of gob-side entry retaining with soft and hard composite roof cutting and pressure relief in medium-thick coal seam[J].Mining Research and Developmengt, 2023, 43(2):12-18 [26]钱鸣高，刘听成主编.矿山压力及其控制[M].北京：煤炭工业出版社, 1991 [27]QIAN Minggao, LIU Tingcheng.Mine pressure and its control[M].Beijing: China Coal Industry Publishing House, 1991 [28]刘晓明, 李铁峥, 雷学涛, 等.近距离煤层变层间距开采下位煤层巷道合理位置研究[J].煤炭工程, 2023, 55(7):1-6 [29]LIU Xiaoming, LI Tiezheng, LEI Xuetao, et al.Optimum location for roadway in lower seam of contiguous coal seams with variable spacing in Meihuajing Coal Mine[J].Coal Engineering, 2023, 55(7):1-6 [30]许国庆.近距离煤层赋存状态对同采工作面错距的影响[J].煤矿安全, 2019, 50(5):67-71 [31]XU Guoqing.Influence of occurrence state of close coal seam on stagger distance of joint mining working face[J].Coal Mine Safety, 2019, 50(5):67-71 [32]郝相应.近距离下位煤层开采矿压显现规律及控制研究[J].煤炭工程, 2022, 54(8):54-60 [33]郝相应.近距离下位煤层开采矿压显现规律及控制研究[J].煤炭工程, 2022, 54(8):54-60 [34]李迎富, 华心祝, 蔡瑞春.沿空留巷关键块的稳定性力学分析及工程应用[J].采矿与安全工程学报, 2012, 29(3):357-364 [35]LI Yingfu, HUA Xinzhu, CAI Ruichun, et al.Mechanics analysis on the stability of key block in the gob-side entry retaining and engineering application[J].Journal of Mining and Safety Engineering, 2012, 29(3):357-364 [36]许旭辉, 何富连, 吕凯, 等.厚层坚硬顶板切顶留巷合理切顶参数[J].煤炭学报, 2023, 48(8):3048-3059 [37]XU Xuhui, HE Fulian, Lü Kai, et al.Research on reasonable cutting roof parameters of gob side entry retaining by roof cutting in thick and hard roof[J].Journal of China Coal Society, 2023, 48(8):3048-3059 [38]何满潮, 郭鹏飞, 王炯, 等.禾二矿浅埋破碎顶板切顶成巷试验研究[J].岩土工程学报, 2018, 40(3):391-398 [39]HE Manchao, GUO Pengfei, WANG Jiong, et al.Experimental study on gob-side entry formed by roof cut of broken roof at shallow depth of Hecaogou No2 Coalmine[J].Chinese Journal of Geotechnical Engineering, 2018, 40(3):391-398

PDF (Mobile)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	. Zoning law and sectional control of mine pressure in advance roadway of working face [J]. Coal Engineering, 2025, 57(2): 124-132.
[2]	. Study on similar simulation test of creep characteristics of deep roadway surrounding rock with cyclic loading and unloading [J]. Coal Engineering, 2025, 57(1): 129-136.
[3]	. Study on the deformation and failure law of three soft roadway and the width of coal pillar under the influence of adjacent goaf [J]. Coal Engineering, 2024, 56(3): 1-9.
[4]	. Synergetic Control Theory and Technology of Surrounding Rock with Support and Pressure Relief for Gob-side Entry Driving in Extremely Thick Coal Seam [J]. Coal Engineering, 2024, 56(2): 45-51.
[5]	. Present situation and prospect of damage mechanism and surrounding rock control of anchored fractured rock [J]. Coal Engineering, 2023, (8): 0-0.
[6]	. Research on the law of mining pressure appearance and control countermeasures in cross-roadway without coal pillar [J]. Coal Engineering, 2023, 55(5): 39-44.
[7]	. Research on Surrounding Rock Control Technology of Soft-bottom Gob-side Entry Retaining in Fully Mechanized Caving Face [J]. Coal Engineering, 2023, 55(2): 38-44.
[8]	. [J]. Coal Engineering, 2023, 55(2): 86-92.
[9]	. Research on Coal Pillar Optimization and Surrounding Rock Control Technology under Disturbance of Roadway Mining with Compound Roof [J]. Coal Engineering, 2022, 54(11): 13-17.
[10]	. Surrounding rock stability control technology of open - cutting entry retaining near goaf [J]. Coal Engineering, 2022, 54(10): 99-103.
[11]	wei jinlong cao xiulong. Practice of "unloading control coupling" advance control technology in maintenance of deep panel roadway [J]. Coal Engineering, 2022, 54(9): 99-104.
[12]	Huajun Shi. Study on Roof Structure Stability of Fully Mechanized Caving Face Passing through Coal Pillar in Short Distance Coal Mining Basing Gully Landform [J]. Coal Engineering, 2022, 54(6): 64-69.
[13]	. Research on the technology of deep hole pre-crack cutting roof and roadway protection in the final section of isolated working face [J]. Coal Engineering, 2022, 54(5): 97-103.
[14]	Ning sShuai. Study on rapid control technology of surrounding rock fragmentation in secondary dynamic pressure roadway of tool-handle working face [J]. Coal Engineering, 2022, 54(3): 56-61.
[15]	. Research on roof hydraulic fracturing control technology of roadway deformation in Guqiao coal mine [J]. Coal Engineering, 2021, 53(5): 45-50.