切顶卸压沿空留巷围岩变形规律研究
Study on deformation law of surrounding rock of gob side-entry retaining by roof cutting and pressure relief
-
摘要: 沿空留巷围岩剧烈的矿压显现已成为煤矿安全高效生产的瓶颈,切顶卸压作为能够有效降低巷道压力的有效措施之一,受到了越来越多的关注。以王庄煤矿91-101工作面风巷为工程背景,采用理论分析和数值模拟相结合的方法,研究了新型切顶卸压沿空留巷围岩竖向位移变化规律、应力及塑性区的分布特征,揭示了切顶高度对围岩变形影响规律。研究结果表明:新型切顶技术效果显著,巷道采空侧位移比未断顶时减小了46.7%,最佳切顶高度为19 m;现场沿空留巷顶底板和两帮平均移近量分别为312 mm和128 mm,留巷变形得到有效控制。Abstract: The severe mining pressure of surrounding rock along goaf retaining roadway has become the bottleneck of safe and efficient production of coal mine. As one of the effective measures to effectively reduce roadway pressure, roof cutting and pressure relief has received more and more attention. Taking the wind tunnel of 91-101 working face of Wangzhuang Coal Mine as the engineering background, the variation rules of vertical displacement of surrounding rock, the distribution characteristics of stress and plastic zone along gob retaining roadway under pressure of new roof cutting are studied by combining theoretical analysis and numerical simulation, and the influence law of roof cutting height on surrounding rock deformation is revealed. The research results show that the effect of the new roof cutting technology is remarkable, the side displacement of roadway goaf is reduced by 46.7% compared with that of unbroken roof, and the optimal roof cutting height is 19 m. The average displacement of roof, floor and two sides of gob-side entry retaining is 312 mm and 128 mm respectively, and the deformation of entry retaining is effectively controlled.
-
-
[1] 何满潮,马资敏,郭志飚,等.深部中厚煤层切顶留巷关键技术参数研究[J].中国矿业大学学报,2018,47(3):468-477. HE Manchao, MA Zimin, GUO Zhibiao, et al. Key parameters of the gob-side entry retaining formed by roof cutting and pressure release in deep medium-thickness coal seams[J]. Journal of China University of Mining & Technology, 2018, 47(3): 468-477.
[2] 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. 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 & Technology, 2019, 48(2): 236-246.
[3] 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. 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 No.2 Coalmine[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(3): 391-398.
[4] 王炯,朱道勇,宫伟力,等.切顶卸压自动成巷岩层运动规律物理模拟实验[J].岩石力学与工程学报,2018,37(11):2536-2547. WANG Jiong, ZHU Daoyong, GONG Weili, et al. Physical simulation experiment on the movement of rock strata upon automatic roadway forming by roof cutting and pressure releasing[J]. Chinese Journal of Rock Mechanics & Engineering, 2018, 37(11): 2536-2547.
[5] 郑立军.综放工作面沿空留巷定向预裂爆破技术研究[J].煤炭工程,2021,53(10):19-24. ZHENG Lijun. Research on directional pre-splitting blasting technology of goaf retaining roadway in fully mechanized caving face[J]. Coal Engineering, 201, 53(10): 19-24.
[6] 唐芙蓉,马占国,杨党委,等.厚层软岩断顶充填沿空留巷关键参数研究[J].采矿与安全工程学报,2019, 36(6):1128-1136. TANG Furong, MA Zhanguo, YANG Dangwei, et al. Study on key parameters of filling gob-side roadway in the thick layer soft rock fault top[J]. Journal of mining and safety engineering, 2019, 36(6): 1128-1136.
[7] 刘占斌,马占国,杨党委.特厚煤层综放开采多次采动影响巷道围岩稳定性研究[J].煤炭工程,2017,49(5):40-43. LIU Zhanbin, MA Zhanguo, YANG Dangwei. Stability of roadway surrounding rock under multiple mining influence of fully mechanized top-coal caving face in extra thick coal seam[J]. Coal Engineering, 2017, 49(5): 40-43.
[8] 马占国,高峰,鞠杨,等.软岩巷道断顶卸压充填高效复用关键技术[R].徐州:中国矿业大学,2014. [9] 杨东方.坚硬顶板深孔爆破切顶卸压技术的研究与应用[J].山东煤炭科技,2021,39(10):67-69. YANG Dongfang. Research and application of roof cutting and pressure relief technology by deep-hole blasting of hard roof[J]. Shandong Coal Science and Technology, 2021, 39(10): 67-69.
[10] 王亮.潞宁煤业22106工作面切顶卸压护巷技术应用[J].江西煤炭科技,2021(4):36-38. [11] 赵栋玉.爆破切顶留巷及围岩控制技术应用[J].煤炭技术,2021,40(8):44-48. ZHAO Dongyu. Application of blasting roof cutting retaining and surrounding rock control technology[J]. Coal Technology, 2021, 40(8): 44-48.
[12] 刘乙霖,马嘉伟.大采高厚坚硬顶板巷道定向爆破切顶卸压技术研究[J].煤炭工程,2022,54(3):50-55. LIU Yilin, MA Jiawei. Study on directional blasting roof cutting and pressure relief technology in roadway with large mining height, thick and hard roof[J]. Coal Engineering, 2022, 54(3): 50-55.
[13] 郭金刚,李耀晖,石松豪,等.厚硬基本顶切顶卸压成巷及围岩控制技术[J].煤炭学报,2021,46(9):2853-2864. GUO Jingang, LI Yaohui, SHI Songhao, et al. Self-forming roadway of roof cutting and surrounding rock control technology under thick and hard basic roof [J]. Journal of China Coal Society, 2021, 46(9): 2853-2864.
[14] 王传绳.切顶卸压技术在薄及中厚煤层沿空留巷中的应用[J].煤炭技术,2021,40(8):41-43. WANG Chuansheng. Application of cutting top pressure relief technology in thin and medium thick coal seams along gob-side entry retaining[J]. Coal Technology, 2021, 40 (8): 41-43.
[15] 孙江,邢素琴.切顶卸压沿空留巷支护方法研究[J].煤炭工程,2021,53(12):33-38. SUN Jiang, XING Suqin. Supporting method for god-side entry retaining by roof cutting and pressure releasing[J]. Coal Engineering, 2021, 53(12): 33-38.
[16] 孙珍平.切顶卸压预裂技术在特厚煤层综放工作面的应用[J].煤矿安全,2020,51(8):169-173. SUN Zhenping. Application of cutting roof pressure relief pre-fracturing technology in fully mechanized caving face in extra thick coal seam[J]. Safety in Coal Mines, 2020, 51(8): 169-173.
[17] 刘大江,许旭辉,朱恒忠,等.中厚煤层坚硬顶板切顶卸压主动留巷关键参数研究[J].煤矿安全,2020, 51(12):237. LIU Dajiang, XU Xuhui, ZHU Hengzhong, et al. Study on key parameters of hard roof cutting and pressure release and roadway retaining in medium thick coal seam[J]. Safety in Coal Mines, 2020, 51(12): 237.
[18] 苏超,弓培林,康红普,等.深井临空高应力巷道切顶卸压机理研究[J].采矿与安全工程学报,2020,37(6):1104. SU Chao, GONG Peilin, KANG Hongpu, et al. Mechanism of roof cutting and pressure relief in gob-side and high-stress roadway in deep coal mine[J]. Journal of Mining & Safety Engineering, 2020, 37(6): 1104.
[19] 杨威,周谢康,祖自银,等.中厚煤层坚硬顶板切顶卸压自成巷切顶效果及应用研究[J].煤炭工程,2021, 53(11):48-52. YANG Wei, ZHOU Xiekang, ZU Ziyin, et al. Application of gob-side entry retaining through roof cutting pressure releasing in medium-thick coal seam with hard roof[J]. Coal Engineering, 2021, 53(11): 48-52.
[20] 仇小祥.中厚煤层切顶卸压沿空留巷巷旁支护技术研究[J].煤炭技术,2021,40(1):35-38. QIU Xiaoxiang. Study on roadway side support technology of gob side entry retaining with roof cutting and pressure relief in medium thick coal seam[J]. Coal Technology, 2021, 40(1): 35-38.
-
期刊类型引用(23)
1. 贾靖,卢志敏,任伟,杨洪增. 巷旁充填留巷顶板结构分析与围岩控制技术. 煤炭工程. 2024(01): 41-48 . 
百度学术
2. 杜超. 沿空留巷复用巷道快速修复技术研究. 煤炭与化工. 2024(01): 29-34+38 . 百度学术
3. 邓辉. 基于支护优化和切顶卸压的邻采邻掘巷道围岩控制技术. 煤. 2024(03): 78-82 . 百度学术
4. 李汉璞,张百胜,郭俊庆,杨依卓,崔俊彪. 两次采动影响下小煤柱巷道切顶卸压围岩控制技术. 矿业安全与环保. 2024(02): 90-97 . 百度学术
5. 芦盛亮. 迎采小煤柱尺寸优化及切顶卸压技术研究. 煤矿现代化. 2024(03): 38-42 . 百度学术
6. 李军,成升升,王飞,马洪波,糜瑞杰,刘玉德. 沿空留巷围岩稳定性综合评判与控制技术研究. 能源与环保. 2024(04): 254-259+266 . 百度学术
7. 刘利兵. 山西新景矿8119工作面爆破切顶卸压及瓦斯治理生产实践. 山西冶金. 2024(05): 158-160 . 百度学术
8. 孙爱国,李海涛,程学政,王毅,王宇. 钱营孜煤矿切顶卸压自动成巷与围岩稳定控制技术研究. 煤矿安全. 2024(07): 136-144 . 本站查看
9. 张俊虎,陈振江,高贤成,张磊,李建华,邓鹏江. 深部大采高工作面沿空留巷围岩控制技术. 煤矿安全. 2024(07): 118-126 . 本站查看
10. 朱云龙. 官地矿12607综采面沿空留巷柔模墙支护技术研究. 煤. 2023(03): 4-8 . 百度学术
11. 王明仲,冯小磊. 迎采半煤岩巷切顶卸压围岩控制技术研究. 当代化工研究. 2023(05): 176-178 . 百度学术
12. 杜志峰. 切割参数对超高压磨料水射流割岩深度影响的试验研究. 山西能源学院学报. 2023(01): 22-24 . 百度学术
13. 王飞. 东瑞煤矿2101辅运顺槽无煤柱自成巷技术应用研究. 山东煤炭科技. 2023(03): 95-97+103 . 百度学术
14. 闫鑫强,张伟. 中村煤矿2407回风巷巷旁充填沿空留巷支护. 山东煤炭科技. 2023(04): 30-32 . 百度学术
15. 周帅. 不同影响因素下沿空留巷围岩变形规律研究. 山西煤炭. 2023(02): 123-128 . 百度学术
16. 郭超,王汉青,李新旺,程立朝. 大埋深综采煤层沿空留巷变形联合控制技术. 煤矿安全. 2023(08): 90-98 . 本站查看
17. 段永. 山西某矿沿空留巷技术应用分析. 煤炭科技. 2023(04): 143-149 . 百度学术
18. 曹占宇. 镇城底矿22212回风顺槽沿空留巷支护研究. 矿业装备. 2023(07): 39-41 . 百度学术
19. 潘永. 注浆加固锚索在切顶卸压沿空留巷超前支护中的应用研究. 山东煤炭科技. 2023(09): 21-23 . 百度学术
20. 张文阳. 随采随掘小煤柱巷道稳定性控制实践研究. 煤炭技术. 2023(11): 40-43 . 百度学术
21. 刘华博,花少震,王浩. 倾斜软硬交互岩层双基本顶切顶留巷围岩控制技术研究. 煤矿安全. 2023(11): 142-149 . 本站查看
22. 王帅锋,张鑫. 基于切顶卸压下沿空留巷顶板变形机理研究. 中国煤炭. 2023(S2): 277-283 . 百度学术
23. 贺相乾,杨舜超. 沿空留巷水压致裂和注浆锚索联合作用特征分析. 山西化工. 2023(11): 149-151 . 百度学术
其他类型引用(4)
计量
- 文章访问数: 132
- HTML全文浏览量: 0
- PDF下载量: 35
- 被引次数: 27
下载:
