金属矿山
金屬礦山
금속광산
Metal Mine
2015年
10期
46-50
,共5页
点柱尺寸%数值模拟%地表变形
點柱呎吋%數值模擬%地錶變形
점주척촌%수치모의%지표변형
Pointed pillar size%Numerical simulation%Surface deformation
随着我国国民经济的不断发展,对矿产资源的需求日益增加,一些原来没有开采价值的"三下"资源项目也逐步列入了开采计划. 如何安全、高效、经济、合理地回收这些资源,并确保不影响到地表相关设施的安全,是近年来采矿界研究的重点. 根据苍山铁矿矿体开采技术条件,提出了目前比较适用于低价值资源开采的盘区点柱式上向分层充填采矿方法,通过参考类似矿山的经验,初步选择了几组可行的采矿方法点柱尺寸及顶板暴露面积参数,并利用数值模拟方法分析预测其对地表变形的影响. 通过多方案组合的模拟分析比较,采用采场点柱尺寸4 m×4 m的情况下,暴露面积为500 m2 时方案较优,可提高矿石回收率3% ~5%;模拟结果同时表明在此采场参数下,地表移动变形预测值均小于规程所允许值.
隨著我國國民經濟的不斷髮展,對礦產資源的需求日益增加,一些原來沒有開採價值的"三下"資源項目也逐步列入瞭開採計劃. 如何安全、高效、經濟、閤理地迴收這些資源,併確保不影響到地錶相關設施的安全,是近年來採礦界研究的重點. 根據蒼山鐵礦礦體開採技術條件,提齣瞭目前比較適用于低價值資源開採的盤區點柱式上嚮分層充填採礦方法,通過參攷類似礦山的經驗,初步選擇瞭幾組可行的採礦方法點柱呎吋及頂闆暴露麵積參數,併利用數值模擬方法分析預測其對地錶變形的影響. 通過多方案組閤的模擬分析比較,採用採場點柱呎吋4 m×4 m的情況下,暴露麵積為500 m2 時方案較優,可提高礦石迴收率3% ~5%;模擬結果同時錶明在此採場參數下,地錶移動變形預測值均小于規程所允許值.
수착아국국민경제적불단발전,대광산자원적수구일익증가,일사원래몰유개채개치적"삼하"자원항목야축보렬입료개채계화. 여하안전、고효、경제、합리지회수저사자원,병학보불영향도지표상관설시적안전,시근년래채광계연구적중점. 근거창산철광광체개채기술조건,제출료목전비교괄용우저개치자원개채적반구점주식상향분층충전채광방법,통과삼고유사광산적경험,초보선택료궤조가행적채광방법점주척촌급정판폭로면적삼수,병이용수치모의방법분석예측기대지표변형적영향. 통과다방안조합적모의분석비교,채용채장점주척촌4 m×4 m적정황하,폭로면적위500 m2 시방안교우,가제고광석회수솔3% ~5%;모의결과동시표명재차채장삼수하,지표이동변형예측치균소우규정소윤허치.
With the continuous development of China''s national economy,the demand for mineral resource is increasing. Some "three-under" resources that was not worth mining in the past are gradually listed to be mined. It is a focus in the study of mining industry in recent years that how to recycle those resources safely,efficiently,economically and ensure the safety of the related facilities on the surface. The panel overhand cut and filling mining method which is suitable for low value resources is put forward based on the mining technology condition of Cangshan Iron Mine. Groups of parameters including pointed pillar size and exposed area of roof are primarily selected by reference to the similar mining experience. Then,the numerical simula-tion is used to analyze and predict its influence on surface deformation. The results show that the scheme with pillar size 4m× 4m and exposed area of roof 500 m2 is optimal,compared with other schemes. It improves the ore recovery by 3% ~ 5%. The simulation results show that the surface deformation value is less than the allowed under the recommended parameters.