Gold Science and Technology
img

Wechat

Adv. Search
Online Submission Peer Review Office Work

Gold Science and Technology ›› 2017, Vol. 25 ›› Issue (5): 67-72.doi: 10.11872/j.issn.1005-2518.2017.05.067

Previous Articles     Next Articles

Research and Application of Support Technology Without Legs in Sanshandao Gold Mine

MA Minghui1,ZHU Mingde2,CHEN Zihui1,FANG Cheng1   

  1. 1.Sanshandao Gold Mine,Shandong Gold Mining(Laizhou)Co.,Ltd.,Laizhou    261442,Shandong,China;
    2.Deep Mining Laboratory of Shandong Gold Group Co.,Ltd.,Laizhou    261442,Shandong,China
  • Received:2017-06-15 Revised:2017-08-16 Online:2017-10-30 Published:2018-02-12

PDF (PC)

708

Abstract:

Xishan mining area of Sanshandao gold mine has gone into operation for 27 years from 1989,it reserved many high grade top and bottom pillar orebody effected by price and grade fluctuation.As some of the complicated occurrence conditions orebodies haven’t been mined when the gold prices is in the doldrums.Mining of top and bottom pillar orebodies faces several technical problems,such as lower strength of the upper cover body,complex surrounding rock condition and resources recovery difficulty etc.The supporting technology of top and bottom pillar orebody in Xishan mining area of Sanshandao gold mine is studied combined with theoretical analysis and field industrial test.The results can provide scientific instruction for determining the support scheme of  mining of top and bottom pillar orebody.By innovative using support technology without legs,more than 3 000 tons gold ore was successful stoped in S10190 stope.It also can avoid the steel support knocked down by scraper,reducing the application amount of support material such as I-beam and timber.The technology let the mechanization operation efficiency promoted to improve the mining efficiency of stopes,it has good economic and social results.

Key words: broken orebody, artificial bottom, mining plan, supporting plan, supporting technology, support without legs, mining efficiency

CLC Number: 

  • TD953

[1] Wang Huawu,Wang Baosheng,Gao Chunguo.Practice of energy saving and consumption reducing in Sanshandao gold mine[J].Energy Saving of Non-Ferrous Metallurgy,2011, 27(1):12-14.[王华武,王宝胜,高春国.三山岛金矿节能降耗实践[J].有色冶金节能,2011,27(1):12-14.]
[2] Chen Yumin,Xiu Guolin.Research on technology of efficient mining and security in large-undersea metal deposit[J].China Mining Magazine,2012,21(S1):15-19.[陈玉民,修国林.海底大型金属矿床高效开采与安全保障技术研究[J].中国矿业,2012,21(增1):15-19.]
[3] Ma Fengshan,Guo Jie,Li Kepeng,et al.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.[马凤山,郭捷,李克蓬,等.三山岛海底金矿开采充填体与顶板岩层的变形监测研究[J].黄金科学技术,2016,24(4):66-72.]
[4] Tan Hongjun.Research on the hydrogeological conditions of Sanshandao gold mine[J].Research and Development of  Mining,1993(S2):71-84.[谭红军.三山岛金矿水文地质条件的研究[J].矿业研究与开发,1993(增2):71-84.]
[5] Qu Weixun,Wang Xuming,Shao Mingming,et al.Application of hydrogeological observation data in prediction of mine water inflow[J].Mining Technology,2011,11(1):35-38.[曲伟勋,王旭明,邵明明,等.水文地质观测资料在矿坑涌水量预测中的应用[J].采矿技术,2011,11(1):35-38.]
[6] Li Xibing,Liu Zhixiang,Peng Kang,et al.Theory and practice of rock mechanics related to exploitation of undersea metal mine[J].Chinese Journal of Rock Mechanics and Enginee- ring,2010,29(10):1945-1953.[李夕兵,刘志祥,彭康,等.金属矿滨海基岩开采岩石力学理论与实践[J].岩石力学与工程学报,2010,29(10):1945-1953.]
[7] Ding Jianfeng,He Shunbin,Liu Dabing,et al.The research and application of panel mining method in Sanshandao gold mine[J].Gold Science and Technology,2011,19(3):63-67.[丁剑锋,何顺斌,刘大兵,等.盘区采矿法在三山岛金矿的研究与应用[J].黄金科学技术,2011,19(3):63-67.]
[8] Liu Zhiyi,Zhao Guoyan,Zhou Tao,et al.Stability analysis of remnant pillars recovery under weak rock in Sanshandao gold mine[J].Mining and Metallurgical Engineering,2013,33(4):5-10.[刘志义,赵国彦,周韬,等.三山岛金矿软破介质下残柱开采的稳定性分析[J].矿冶工程,2013,33(4):5-10.]
[9] Wang Jianbo,Lan Ming,Liu Zhixiang.Research on exploiting scheme choice of roof and bottom pillars based on empowerment combination and ideal point method[J].Gold Science and Technology,2015,23(3):55-59.[王剑波,兰明,刘志祥.基于组合赋权—理想点法的顶底柱开采方案优选研究[J].黄金科学技术,2015,23(3):55-59.]
[10] Song Mingchun,Zhang Junjin,Zhang Pijian,et al.Discovery and tetonic-magmatic background of superlarge gold deposit in offshore of northern Sanshandao,Shandong Penin- sula,China[J].Acta Geologica Sinica,2015,89(2):365- 383.[宋明春,张军进,张丕建,等.胶东三山岛北部海域超大型金矿床的发现及其构造—岩浆背景[J].地质学报,2015,89(2):365-383.]
[11] Guo Bin,Liu Shuai,Chen Zihui.Research on geological characteristics and structural lithofacies of Sancang metallogenic belt in Laizhou,Shandong[J].Mineral Resources and Geology,2010,24(5):395-398.[郭彬,刘帅,陈自辉.山东莱州三仓成矿带地质特征与构造岩相研究[J].矿产与地质,2010,24(5):395-398.]
[12] Liu Zhijun,Gong Haoyuan.The improvement of upward horizontal cut and fill stoping method[J].Mining Research and Development,2004,24(S1):130-133.[刘志君,龚浩源.上向水平分层充填采矿法的改进[J].矿业研究与开发,2004,24(增1):130-133.]   
[13] Peng Qingsheng.The roof management of upward horizontal cut and fill stoping method[J].Mining Technology,2012,12(2):11-12.[彭青生.上向水平分层充填采矿法的顶板管理[J].采矿技术,2012,12(2):11-12.]
[14] Guo Runnian,Zheng Yunyong.Discussion on the advantage and shortcoming of conventional detonation network for underground big demolition[J].Yunnan Metallurgy,2007,36(5):9-12.[郭润年,郑云勇.井下大爆破常规起爆网路利弊论[J].云南冶金,2007,36(5):9-12.]
[15] Ding Minglong,Song Weidong,Jiang Jianguo,et al.Experimental study of upward horizontal drift stoping and backfilling method in Dayingezhuang gold mine[J].Non-ferrous Metals(Mine Section),2013,65(6):6-8.[丁明龙,宋卫东,江建国,等.上向水平进路充填采矿法在大尹格庄金矿的试验研究[J].有色金属(矿山部分),2013,65(6):6-8.]
[16] Yang Zhijun,Ren Fenhua.Study on supporting of rock instability based on the rhombus thought[J].Metal Mine,2010(10):6-9.[杨志军,任奋华.基于菱形思维的围岩失稳支护研究[J].金属矿山,2010(10):6-9.]
[17] Zhou Yong,He Yinglai.Stability analysis of stope by using cementation filling method[J].Hunan Nonferrous Metals,2013,29(2):9-11,73.[周勇,贺应来.采用胶结充填法对采场稳定性分析[J].湖南有色金属,2013,29(2):9-11,73.]
[1] Hongwei ZHANG,Fuxing ZHANG,Sheng SUN,Zhengcheng GUO. Research and Application of High-efficiency Drift Backfill Mining Method in Gently Inclined Broken Orebody [J]. Gold Science and Technology, 2021, 29(6): 899-907.
[2] Zhenghua TAN,Yang WEN,Liguan WANG,Guotai LI. Optimization Method for Preparation of Underground Mining Plan Based on Critical Chain [J]. Gold Science and Technology, 2021, 29(4): 602-611.
[3] WANG Dawei, WANG Zhuo,LI Lei, LI Weining,QIN Weili,LIU Hongwei, LI Weiguo. Research and Application of the Upward Horizontal Fan Drift Mining Method [J]. J4, 2012, 20(2): 67-70.
[4] CAO Yingli,QIN Xiuhe,ZHANG Ruizhong,GAO Jincheng. Research and Application of Mining Method of Horizontal Stratified Entrance-Filling of Tailing in Xiadian Gold Mine [J]. J4, 2012, 20(2): 62-66.
[5] LIU Tao,GAO Longtao,SUI Yongle,SONG Linfu. The Mining Method of Broken Orebody in Hubazhuang Gold Mine,Shandong Province [J]. J4, 2011, 19(5): 29-32.
[6] YANG Yong, CAO Hua-Yong, ZHANG Hai-Chao. Research of the Mining Method of the Broken Orebody on the North Limb of Jiaojia Gold Mine [J]. J4, 2010, 18(2): 51-52.
[7] YIN Dafa,MENG Xiangrui,Yin Dashu. Mine Ming Plans and Its Intelligence Decision Support System [J]. J4, 2004, 12(6): 38-42.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!

©2018 Gold Science and Technology 

Telephone:0931-8277791 

E-mail: hjkx@lzb.ac.cn Postcode:730000 

Powered by Beijing Magtech Co. Ltd

陇ICP备17001318号-1