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Coal Geology & Exploration

Abstract

For the prpose of improving the gas control efficiency and reduce the cost in the goaf of “U” ventilation face, the ø550 mm super-large diameter borehole was used to replace the cross-heading buried pipe for gas drainage in goaf. According to the characteristics of super-large diameter borehole and the technical problems existed in construction, a ZDY15000LP super-large diameter spiral drilling rig with maximum torque 15000 N·m, maximum penetration 700 kN, and maximum stroke 1.3 m has been developed, which adopted the two-body layout of main engine and pump station, and the innovative design of key parts such as main engine, pump station, mechanical arm and power head of the rig is carried out. The super-large diameter drilling technology based on “pilot borehole + secondary reaming” was developed, the ø426 mm large spiral drill pipe and ø550 mm large diameter reaming bit supporting the super large diameter drilling construction were developed, and a complete set of construction technology and equipment for super-large diameter borehole was studied and formed. The engineering application in Wangpo Coal Mine of Shanxi Tiandi Coal Industry Co. Ltd. shows that the drilling rig has large output torque, good overall stability, cross belt and rapid relocation, and the supporting drilling technology is advanced and reliable, which meet the needs of borehole with super-large diameter forming in coal seam. A total of 17 large-diameter gas drainage boreholes were constructed in working face 3307, with a cumulative footage of 583 m. The drilling construction lasted 30 days, and the comprehensive construction efficiency was increased by 20%. The test results show that the drilling rig has high output torque, good overall stability, and can realize the functions of cross-belt construction and rapid displacement, etc. The performance of the supporting drilling tools is reliable, and the drilling process is highly operable, which can meet the demand of forming holes in large diameter coal seams. The research can provide technology and equipment support for super-large diameter in-seam borehole construction, and provide technical experience for mine gas control under similar geological conditions and mining conditions.

Keywords

gas control, 550 mm super-large diameter borehole in coal seam, drilling technology, drilling equipment, engineering application

DOI

10.12363/issn.1001-1986.21.08.0469

Reference

[1] 石智军,姚克,姚宁平,等. 我国煤矿井下坑道钻探技术装备40年发展与展望[J]. 煤炭科学技术,2020,48(4):1−34. SHI Zhijun,YAO Ke,YAO Ningping,et al. 40 years of development and prospect on underground coal mine tunnel drilling technology and equipment in China[J]. Coal Science and Technology,2020,48(4):1−34.

[2] 郑文贤,王凯,李全中,等. 大直径钻孔“以孔代巷”上隅角瓦斯治理参数优化及应用[J]. 中国矿业,2021,30(9):145−149. ZHENG Wenxian,WANG Kai,LI Quanzhong,et al. Optimization and application of gas control parameters in the upper corner of large diameter borehole[J]. China Mining Magazine,2021,30(9):145−149.

[3] 张海权,王惠风,王向东. 大直径高位钻孔代替高抽巷抽采瓦斯的研究[J]. 煤炭科学技术,2012,40(6):51−53. ZHANG Haiquan,WANG Huifeng,WANG Xiangdong. Study on gas drainage with large diameter high level borehole to replace high level gas drainage gateway[J]. Coal Science and Technology,2012,40(6):51−53.

[4] 华明国,汪开旺,傅永帅,等. 超大直径钻孔治理上隅角瓦斯技术研究[J]. 煤炭技术,2020,39(7):122−125. HUA Mingguo,WANG Kaiwang,FU Yongshuai,et al. Study on technology of controlling upper corner gas by super–large diameter borehole[J]. Coal Technology,2020,39(7):122−125.

[5] 薛彦平. 超大直径钻孔采空区瓦斯抽采技术研究及应用[J]. 煤炭技术,2021,40(8):123−126. XUE Yanping. Research and application of goaf gas drainage technology with super large diameter borehole[J]. Coal Technology,2021,40(8):123−126.

[6] 高宏,杨宏伟. 超大直径钻孔采空区瓦斯抽采技术研究[J]. 煤炭科学技术,2019,47(2):77−81. GAO Hong,YANG Hongwei. Super large diameter borehole gob gas extraction technology[J]. Coal Science and Technology,2019,47(2):77−81.

[7] 杨洋,杨帅. 大直径钻孔采空区瓦斯治理技术研究[J]. 煤炭与化工,2020,43(10):88−91. YANG Yang,YANG Shuai. Study on gas control technology of large diameter borehole[J]. Coal and Chemical Industry,2020,43(10):88−91.

[8] 薛彦平. 王坡煤矿破碎煤体中大直径钻孔施工工艺改进与应用[J]. 煤矿安全,2020,51(12):140−143. XUE Yanping. Construction technology improvement and application of large diameter drilling in broken coal of Wangpo Coal Mine[J]. Safety in Coal Mines,2020,51(12):140−143.

[9] 黄光利,冉庆雷,贾立刚. 大直径钻孔以孔代巷瓦斯治理技术应用研究[J]. 煤炭技术,2021,40(8):99−102. HUANG Guangli,RAN Qinglei,JIA Ligang. Study on application of gas control technology with large diameter borehole instead of tunnel[J]. Coal Technology,2021,40(8):99−102.

[10] 李飞,薛彦平,赵凯凯,等. 煤层大直径钻孔瓦斯治理技术研究与应用[J]. 煤炭工程,2021,53(3):84−88. LI Fei,XUE Yanping,ZHAO Kaikai,et al. Application of large diameter drilling in coal seam for gas control[J]. Coal Engineering,2021,53(3):84−88.

[11] 汪开旺. 超大直径钻孔治理上隅角瓦斯工艺研究[J]. 矿业安全与环保,2020,47(2):90−93. WANG Kaiwang. Study on the technology of controlling upper corner gas by extra–large diameter borehole[J]. Mining Safety & Environmental Protection,2020,47(2):90−93.

[12] 许超. 煤矿井下煤层大直径钻孔技术与装备[J]. 煤矿安全,2018,49(4):92−95. XU Chao. Drilling technology and equipment of large diameter borehole in coal seam of underground coal mine[J]. Safety in Coal Mines,2018,49(4):92−95.

[13] 王鲜,许超,王四一,等. 本煤层ø650 mm大直径钻孔技术与装备[J]. 金属矿山,2017(8):157−160. WANG Xian,XU Chao,WANG Siyi,et al. ø650 mm large diameter drilling technology and equipment for the coal seam[J]. Metal Mine,2017(8):157−160.

[14] 石璐. 12 000 N·m全液压坑道钻机动力头设计与仿真[D]. 西安:西安科技大学,2012.

SHI Lu. Design and simulation of 12 000 N·m power head of all hydraulic tunnel drilling rig[D]. Xi’an:Xi’an University of Science and Technology,2012.

[15] 冯德强. 钻机设计[M]. 武汉:中国地质大学出版社,1993.

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