• Chinese Core Periodicals
  • Chinese Core Journals of Science and Technology
  • RCCSE Chinese Authoritative Academic Journals
Email Alert RSS
Advanced Search
LI Liangwei, WU Wenbin, TANG Jianping. Influence of Drill Pipe Type on Drilling and Slagging in Soft Coal Seam[J]. Safety in Coal Mines, 2020, 51(5): 122-125.
Citation: LI Liangwei, WU Wenbin, TANG Jianping. Influence of Drill Pipe Type on Drilling and Slagging in Soft Coal Seam[J]. Safety in Coal Mines, 2020, 51(5): 122-125.
shu

Influence of Drill Pipe Type on Drilling and Slagging in Soft Coal Seam

More Information
  • Published Date: May 19, 2020
    Graphical Abstract
    • Abstract
  • In view of the problem of pressure air exhaust slag by borehole along the soft coal seam, the minimum air pressure and its calculation method are determined by analyzing the variation law of the air pressure and air volume in the two kinds of drilling construction through the field test. The results show that: due to the different structure of drill pipe, under the same wind pressure, the mitsubishi drill pipe is easier to discharge slag than the round drill pipe, and the minimum air supply pressure of the round drill pipe is greater than that of the triangular drill pipe at the same depth; the air volume of the two types of drill pipe decreases with the increase of the depth during the construction, while the absolute amount of the downward trend of the round drill pipe is greater than that of the mitsubishi drill pipe; with the increase of the construction depth, the cuttings of the two drill pipes show a trend of increasing, at the same depth, the cuttings of mitsubishi drill pipes are obviously larger than that of circular drill pipes; the slag discharge space between the round drill pipe and the hole wall should be less than that of the triangular drill pipe. Under the same drilling speed, the blocking probability of coal cuttings in the drilling of the triangular drill pipe is less than that of the circular drill pipe. The triangular drill pipe is easier to discharge the cuttings smoothly, and it is also conducive to the gas discharge.
    • FullText(HTML)
    • References (13)
  • [1]
    许江,宋肖徵,彭守建,等.顺层钻孔布置间距对煤层瓦斯抽采效果影响的物理模拟试验研究[J].岩土力学,2019,40(11):1-10.
    [2]
    凌标灿,戴世鑫,曹承平,等.三棱钻杆在中软煤层顺层瓦斯抽排钻孔的应用[J].煤炭科学技术,2009,37(10):44-46.
    [3]
    王坤.松软煤层顺层钻孔成孔工艺技术[J].科技创新与应用,2019(12):98-99.
    [4]
    Yiyu Lu, Yong Liu, Xiaohong Li, et al. A new method of drilling long boreholes in low permeability coal by improving its permeability[J]. International Journal of Coal Geology, 2010, 84(2): 94-102.
    [5]
    NingpingYao, XinshengYin, Yi Wang, et al. Practice and Drilling Technology of Gas Extraction Borehole in Soft Coal Seam[J]. Procedia Earth and Planetary Science,2011, 3: 53-61.
    [6]
    潘小叶.针对松软突出煤层椭圆钻杆的研制[J].煤矿机械,2012,33(3):153-154.
    [7]
    周松元,赵军,刘学服,等.严重喷孔松软煤层成孔工艺与装备研究[J].湖南科技大学学报(自然科学版),2011,26(4):11-16.
    [8]
    侯红,凌标灿,罗维,等.松软突出煤层中三角型钻杆成孔技术研究[J].煤炭科学技术,2012,40(8):67.
    [9]
    Dingqi Li. A new technology for the drilling of long boreholes for gas drainage in a soft coal seam[J]. Journal of Petroleum Science and Engineering, 2016, 137: 107-112.
    [10]
    Ji Qianhui. Research and Application of Auger-air Drilling and Sieve Tube Borehole Protection in Soft Outburst-prone Coal Seams[J]. Procedia Engineering, 2014, 73: 283-288.
    [11]
    杨健,肖丽辉.三棱凹槽螺旋钻杆的设计[J].煤矿安全,2014,45(5):103-105.
    [12]
    谢祖平.松软煤层新型螺旋钻杆研制及应用[J].煤矿机械,2019,40(7):143-145.
    [13]
    吕伟伟,隆清明,晁建伟.取样过程中风流对煤样瓦斯解吸规律影响的探讨分析[J].中国煤炭,2016,42(7):83-85.
    • Related Articles

  • Related Articles

    [1]YANG Jian, MENG Delong, LIU Haodong, WANG Gang. Temperature distribution law and cooling simulation of high temperature tunneling roadway[J]. Safety in Coal Mines, 2023, 54(3): 40-45.
    [2]WANG Lin, LI Tingchun, ZHANG Hao, DU Yiteng, ZHANG Zhigao. Simulation Study on Maximum Cycle Footage During Roadway Excavation[J]. Safety in Coal Mines, 2019, 50(1): 226-230.
    [3]DAI Jiangjiao, HUANG Jiahai, ZHAO Bin, CHENG Heng, LI Jun. Numerical Analysis of Ventilation System in Large Section Simulation Tunneling Roadway[J]. Safety in Coal Mines, 2016, 47(11): 193-196.
    [4]GENG Cheng. Research on Vibration Characteristics of Blasting Excavation in Rectangular Soft Rock Roadway[J]. Safety in Coal Mines, 2016, 47(8): 57-60.
    [5]WANG Fei, ZHU Hongli, ZHANG Jianzhen. Surrounding Rock Stability Numerical Simulation in Water-rich Roadway Based on Fluid-solid Coupling Theory[J]. Safety in Coal Mines, 2016, 47(4): 219-221,225.
    [6]YANG Dengfeng, CHEN Zhonghui, LIU Xin, GAO Qin, WANG Li'nan. Numerical Simulation of Mining-induced Water Bursting Law of Coal Floor with Hidden Faults[J]. Safety in Coal Mines, 2015, 46(11): 193-195,199.
    [7]ZHAO Yuting, DUAN Dong, YANG Yao, FANG Chaohe, QU Xiaoming, KANG Zhiqin. Numerical Simulation on Influence Factors of Ground Stress at the End of Fault[J]. Safety in Coal Mines, 2015, 46(10): 210-212,213.
    [8]SUN Haiyang, WANG Lianguo, LU Yinlong, HUANG Yaoguang. Numerical Simulation and Parameter Optimization of Advance Anchor Bolt Support in Fault[J]. Safety in Coal Mines, 2015, 46(8): 205-208.
    [9]WANG Chun. Bolt-grouting Support Technology for Mining Roadway Passing Through Water-bearing Fault[J]. Safety in Coal Mines, 2015, 46(6): 73-76.
    [10]HUANG Cun-han, HUANG Jun-jie, LI Zhen-hua. The Water Inrush Numerical Simulation of Minor Faults Concealed in Coal Seam Floor[J]. Safety in Coal Mines, 2013, 44(10): 24-26.

Catalog

    Get Citation
    XML
    Article views (19) PDF downloads (0) Cited by()
    Turn off MathJax
    Article Contents
    Abstract
    References
    Related Articles
    Links

    辽公网安备 21049802000106号 辽ICP备11020636号-9

    Website Copyright © CCTEG Shenyang Research Institute

    Address:No. 11 Binhe Road, Fushun Economic Development Zone, Liaoning Postal Code:113122

    Tel:024-56616988/56616881 Email:mkaq@163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return