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    Dense boreholes for weakening bottom layer by cutting roof and pressure relief of gob-side entry retaining

    New search for: LI Dongyin
    New search for: ZHANG Jingxuan
    New search for: ZHENG Lijun
    New search for: WANG Shen
    New search for: WANG Wen
    New search for: HUANG Zujun

    In order to ensure the safe and smooth process of gob-side entry retaining of high stress thick coal seam bottom layer in Guhanshan Coal Mine, combined with the broken condition and gas condition of the regenerated roof, the necessity of adopting dense borehole to cut roof and relieve pressure of the gob-side entry retaining roadway at the bottom layer of Guhanshan Mine is verified by theoretical analysis and numerical simulation test. The inclined angle, depth and spacing of dense drilling holes were analyzed and optimized by using the slip and instability conditions of masonry beams and numerical simulation tests. The borehole parameters are applied to the field engineering practice, and the shrinkage of both sides of the roadway is 656 mm and the shrinkage of top and bottom is 545 mm, which can meet the requirements of safety and production.

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    Dense boreholes for weakening bottom layer by cutting roof and pressure relief of gob-side entry retaining

    New search for: LI Dongyin
    New search for: ZHANG Jingxuan
    New search for: ZHENG Lijun
    New search for: WANG Shen
    New search for: WANG Wen
    New search for: HUANG Zujun

    In order to ensure the safe and smooth process of gob-side entry retaining of high stress thick coal seam bottom layer in Guhanshan Coal Mine, combined with the broken condition and gas condition of the regenerated roof, the necessity of adopting dense borehole to cut roof and relieve pressure of the gob-side entry retaining roadway at the bottom layer of Guhanshan Mine is verified by theoretical analysis and numerical simulation test. The inclined angle, depth and spacing of dense drilling holes were analyzed and optimized by using the slip and instability conditions of masonry beams and numerical simulation tests. The borehole parameters are applied to the field engineering practice, and the shrinkage of both sides of the roadway is 656 mm and the shrinkage of top and bottom is 545 mm, which can meet the requirements of safety and production.

    Access

    Download

    Dense boreholes for weakening bottom layer by cutting roof and pressure relief of gob-side entry retaining

    New search for: LI Dongyin
    New search for: ZHANG Jingxuan
    New search for: ZHENG Lijun
    New search for: WANG Shen
    New search for: WANG Wen
    New search for: HUANG Zujun

    In order to ensure the safe and smooth process of gob-side entry retaining of high stress thick coal seam bottom layer in Guhanshan Coal Mine, combined with the broken condition and gas condition of the regenerated roof, the necessity of adopting dense borehole to cut roof and relieve pressure of the gob-side entry retaining roadway at the bottom layer of Guhanshan Mine is verified by theoretical analysis and numerical simulation test. The inclined angle, depth and spacing of dense drilling holes were analyzed and optimized by using the slip and instability conditions of masonry beams and numerical simulation tests. The borehole parameters are applied to the field engineering practice, and the shrinkage of both sides of the roadway is 656 mm and the shrinkage of top and bottom is 545 mm, which can meet the requirements of safety and production.

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    Download

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    Title:

    Dense boreholes for weakening bottom layer by cutting roof and pressure relief of gob-side entry retaining

    Contributors:

    LI Dongyin (author) / ZHANG Jingxuan (author) / ZHENG Lijun (author) / WANG Shen (author) / WANG Wen (author) / HUANG Zujun (author)

    Published in:

    Meikuang Anquan, Vol 53, Iss 7, Pp 111-118, 125 (2022)

    Publication date:

    2022

    ISSN:

    1003-496X

    DOI:

    https://doi.org/10.13347/j.cnki.mkaq.2022.07.018

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    layered mining , bottom layer , gob-side entry retaining , dense boreholes , cutting roof pressure relief , Mining engineering. Metallurgy , TN1-997

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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