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| Optimization study on key parameters of presplitting blasting for roof cutting in thick and hard roof of gently inclined coal seam |
| Yang Dechuan1, Wang Zihao1, Liu Chang2 |
| 1. School of Mining Engineering, Anhui University of Science and Technology, Huainan 232001, China; 2. Xieqiao Mine, Huaihe Energy Holding Group, Huainan 236200, China |
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Abstract In order to solve the problem of the difficulty of falling of thick and hard roof and the impact of ore pressure caused by mining, pre-cracking blasting roof cutting pressure relief mining was adopted, the reasonable roof cutting angle range was determined by establishing the roof cutting mechanical model, and the evolution law of the stress field and displacement field of the surrounding rock of the roadway under different roof cutting heights and angles was analyzed by FLAC3D numerical simulation, and the key parameters of the optimal roof cutting were obtained, and the field application and mine pressure monitoring were carried out. The results showed that when the roof cutting height was 32 m and the roof cutting angle was 70°, the pressure relief effect was the best. The maximum displacement of the roof after roof cutting was 170 mm, the amount of the two gangs gradually increased, and the working face tended to be stable after the advancement, which verified the accuracy of the numerical simulation. This study provided a theoretical basis and practical reference for roof cutting and pressure relief technology under similar geological conditions.
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| [ 1 ] 王绍威,倪学宁,徐敬帅,等. 厚煤层大采高坚硬顶板巷道大变形控制方法[ J ]. 工矿自动化,2025,51( 5 ):32 - 40.
[ 2 ] 耿 铭,孙 静. 厚硬顶板悬顶致灾机理及切顶控制技术研究[ J ]. 工矿自动化,2024,50( 11 ):132 - 141.
[ 3 ] 张陶香,涂 敏,赵庆冲,等. 沿空巷道侧向结构切顶卸压高度研究[ J ]. 科学技术与工程,2025,25( 12 ):4 938 - 4 946.
[ 4 ] 庄志鹏,郑文翔,段晓博,等. 缓倾斜煤层留窄煤柱切顶卸压合理参数研究[ J ]. 矿业研究与开发,2024,44( 11 ):66 - 74.
[ 5 ] 王 飞,王绪强,石新禹,等. 厚直接顶作用下切顶深度对沿空留巷稳定性影响分析[ J ]. 工矿自动化,2024,50( 12 ):59 - 66.
[ 6 ] 马 跃,陈胜焱,宫晨耀,等. 中厚煤层坚硬顶板切顶留巷关键技术参数研究及应用[ J ]. 煤炭工程,2024,56( 8 ):69 - 77.
[ 7 ] 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 ):2 536 - 2 547.
[ 8 ] Konicek P., Soucek K., Stas L., et al. Long-hole destress blasting for rock burst control during deep underground coal mining[ J ]. International Journal of Rock Mechanics and Mining Sciences, 2013, 61: 141 - 153.
[ 9 ] Konicek P., Soucek K., Stas L., et al. Long-hole destress blasting for rock burst control during deep underground coal mining[ J ]. International Journal of Rock Mechanics and Mining Sciences, 2013, 61: 141 - 153.
[ 10 ] Rakesh K., Mishra A. K., Ashok K., et al. Importance of Fracturing Hard and Massive Overlying Strata for Complete Extraction of Thick Coal Seam — Case Studies[ J ]. Journal of the Geological Society of India, 2022, 98( 2 ): 203 - 210.
[ 11 ] Wang Haosen, Wang Jiong, Elmo Davide, He Manchao, Ma Zimin, Gao Chengzhang. Ground response mechanism of entries and control methods induced by hard roof in long wall top coal caving panel[ J ]. Engineering Failure Analysis, 2023, 144.
[ 12 ] Chen Dongdong et al. Mining-induced failure characteristics and surrounding rock control of gob-side entry driving adjacent to filling working face in the deep coal mine[ J ]. Energy Science & Engineering, 2022, 10( 8 ): 2 593 - 2 611. 4
[ 13 ] 刘衍利,黎卫兵,黄星源. 切顶卸压爆破技术在沿空留巷中的应用[ J ]. 煤矿安全,2014,45( 6 ):132 - 135.
[ 14 ] 万志军,周楚良,罗兵全,等. 软岩巷道围岩非线性流变数学力学模型[ J ]. 中国矿业大学学报,2004( 4 ):106 - 110.
[ 15 ] 孟显伟,曲 泉,李子波,等. 集贤煤矿切顶留巷关键参数及留巷稳定性分析[ J ]. 煤矿安全,2024,55( 6 ):160 - 168. |
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