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WANG Liu-xing, LI Wen-ping, SUN Ru-hua, QIAO Wei. Water Inflow Prediction of Multi Mining Face Under Different Mining Scheme[J]. Safety in Coal Mines, 2012, 43(5): 98-100.
Citation: WANG Liu-xing, LI Wen-ping, SUN Ru-hua, QIAO Wei. Water Inflow Prediction of Multi Mining Face Under Different Mining Scheme[J]. Safety in Coal Mines, 2012, 43(5): 98-100.
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Water Inflow Prediction of Multi Mining Face Under Different Mining Scheme

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  • Published Date: May 09, 2012
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    • Abstract
  • Taking mining face affected by red bed in fifth mining area as research object,this paper analyzed the influence of different mining scheme(mining sequence) on water inflow of mining face,selected the best scheme of the smallest water flow by using "big-well method" to predict mining faces water inflow under different mining sequence,which provided a basic guarantee for safety recovery of the mining faces in southern of the fifth mining area.
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    • References (6)
  • [1]
    李文平.济宁三号煤矿五采区3#下煤开采红层水影响区分析及涌水量预计告[R].济宁:济宁三号煤矿,2007.
    [2]
    刘士义,胡东祥.兖州煤田侏罗系红层充水特征及其水害防治[J].煤炭科技,2008(3):89-91.
    [3]
    杨建华,李永涛,毛茂森.济三煤矿一采区红层水文地质特征及对开采的影响[J].山东煤炭科技,2003(2):13-14.
    [4]
    周来,冯启岩,杨建华,等.济宁三号井田矿井突水的水化学特征和水源判别[J].中国矿业,2005,14(8):66-69.
    [5]
    王竹春.济三煤矿南一采区1301综放面水害因素及对策[J].煤矿现代化,2003(1):8-9.
    [6]
    王东,李永涛.济三井田红层富水性及充水特征[J].山东煤炭科技,2002(1):27-30.
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