Monitoring and Research for the Deformation of Mine Backfill and Roof Surrounding Rock when Exploiting Sanshandao Seabed Gold Mine
Received date: 2016-06-10
Revised date: 2016-07-20
Online published: 2016-11-17
Xinli deposit of Sanshandao gold mine is the first exploited hard rock mine under seawater in China,which mainly occurred in seabed rock between 20 and 670 m in depth and covered by only 2 to 3 meters thick clay aquiclude under seawater.To ensure mining safety and according to mining geological conditions,six intelligently memory displacement meters had been buried in 13#,17# and 37# transverse drifts along exploration lines of 63,71 and 111,respectively.Two buried ways were designed for the six meters.One was an updip drill threading through footwall rock into fill mass and for monitoring the relative deformation between backfill and footwall rock.Another one was an updip drill penetrating footwall rock and F1 main fracture surface into hanging wall rock and for recording the relative deformation between footwall and hanging wall rocks.And the deformation and movement characteristics of backfill and hanging wall rock have been obtained from September 2013 to December 2014.The results showed that the body of fill mass and hanging wall rock under seawater were subject to a comparatively small deformation and remained good stable during the monitoring process.
MA Fengshan , GUO Jie , LI Kepeng , LU Rong , ZHANG Hongxun , LI Wei . Monitoring and Research for the Deformation of Mine Backfill and Roof Surrounding Rock when Exploiting Sanshandao Seabed Gold Mine[J]. Gold Science and Technology, 2016 , 24(4) : 66 -72 . DOI: 10.11872/j.issn.1005-2518.2016.04.066
[1] Kratzsch H.Mining Subsidence Engineering[M].New York:pringer-erlag,Berlin Heidelberg ,1983.
[2] Barry N,Whittaker I,David J,et al.Subsidence Occurrence,Prediction and Control[M].Netherlands:Elsevier Science Publisher,1989.
[3] Madan M S.Mine Subsidence of Mining Engineer[M].Englewood:Society for Mining Metallurgy,1986.
[4] Helmut K.Mining subsidence engineering [M].New York:Transl ated by Fleming,Spring-verlag Berlin Heidelberg,1983.
[5] Lin S,Whittaker B N,Reddish D J.Application of asymmetrical influence functions for subsidence prediction of gently inclined seam extractions[J].International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts,1992,29(5):479-490.
[6] Cui X M,Miao X X,Wang J A,et al.Improved prediction of differential subsidence caused by underground mining[J].International Journal of Rock Mechanics and Mining Sciences,2000,37(4):615-627.
[7] Sheore P R, Loui J P,Singh K B,et al.Ground subsidence observations and a modified influence function method for complete subsidence prediction[J].International Journal of Rock Mechanics and Mining Sciences,2000,37(5):801-818.
[8] Bell F G,Stacey T R,Genske D D.Mining subsidence and its effect on the environment:Some differing examples[J].Environmental Geology,2000,40(1/2):135-152.
[9] Swift G M,Reddish D J.Stability problems associated with an abandoned ironstone mine[J].Bulletin of Engineering Geology and the Environment,2002,61(3):227-239.
[10] 刘宝琛,廖国华.煤矿地表移动的基本规律[M].北京:中国工业出版社,1965.
[11] 煤炭科学研究总院北京开采所.煤矿地表移动与覆岩破坏规律及其应用[M].北京:煤炭工业出版社,1986.
[12] 何国清,杨伦,凌赓娣,等.矿山开采沉陷学[M].北京:中国矿业大学出版社,1991.
[13] 谢和平,陈至达.非线性大变形有限元分析及在预测岩层移动中的应用[J].中国矿业大学学报,1988(2):94-98.
[14] 寇新建,曾卓乔,尹德潜.自然崩落法下岩移规律研究[J].江西有色金属,1991,7(2):49-53.
[15] 汤建泉,孙晓明.覆岩组合运动规律的研究[J].山东科技大学学报(自然科学版),1995,14(4):365-370.
[16] 钱鸣高,缪协兴,许家林.岩层控制中关键层理论研究[J].煤炭学报,1996,21(3):225-230.
[17] 隋旺华.开采覆岩破坏工程地质预测的理论与实践[J].工程地质学报,1994,2(2):29-37.
/
| 〈 |
|
〉 |