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矿山采空区崩落爆破评估验收方法 被引量:10
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作者 崔晓荣 林谋金 +1 位作者 郑炳旭 喻鸿 《金属矿山》 CAS 北大核心 2015年第9期11-15,共5页
为了评价和验收矿山采空区的崩落爆破,根据采空区崩落爆破前后的体积平衡原理,提出利用爆破后采空区充填率和遗留空区体积这2个指标共同评价采空区崩落爆破处理效果的方法。首先对采空区进行三维激光扫描获得空区形态参数,接着测量和计... 为了评价和验收矿山采空区的崩落爆破,根据采空区崩落爆破前后的体积平衡原理,提出利用爆破后采空区充填率和遗留空区体积这2个指标共同评价采空区崩落爆破处理效果的方法。首先对采空区进行三维激光扫描获得空区形态参数,接着测量和计算获得崩落爆破方案中被破碎的岩石体积,再测量崩落爆破后地表塌陷体积,最后通过推导的公式计算获得评价验收指标。其中采空区充填系数k用来判别原采空区的主要安全风险是否得到排除,如k>85%表示爆破效果优良;遗留空区体积用来判别崩落爆破后的遗留风险大小。根据这2个指标结果进行采空区崩落爆破施工的验收。实践证明,该方法具有成本低、效率高的优势,能够满足隐患空区治理与隐患资源开采协同作业的日常生产要求,对地采转露采矿山空区治理和验收有借鉴意义。 展开更多
关键词 地采矿山 危机矿山 隐患资源 空区 崩落爆破
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三维采矿软件DIMINE在广西大新锰矿的应用 被引量:4
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作者 蒋深竹 《中国锰业》 2012年第4期38-42,52,共6页
随着计算机技术、网络技术、传感器技术的发展,采矿业不断向数字化和信息化推进。DIMINE软件是国内新开发的专业三维矿山应用软件。以广西大新锰矿西北采区露天转地下开采试采矿房为例,应用DIMINE软件进行了系统的采矿方案设计,包括测... 随着计算机技术、网络技术、传感器技术的发展,采矿业不断向数字化和信息化推进。DIMINE软件是国内新开发的专业三维矿山应用软件。以广西大新锰矿西北采区露天转地下开采试采矿房为例,应用DIMINE软件进行了系统的采矿方案设计,包括测量、地质资料导入,地表、矿体、井巷模型建立,采准切割布置等内容,为建立数字化矿山提供了可靠的参考实例。 展开更多
关键词 DIMINE 模型 三维 露转地采
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Opencast to underground iron ore mining method 被引量:6
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作者 FAN Xiao-ming REN Feng-yu +1 位作者 XIAO Dong MAO Ya-chun 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第7期1813-1824,共12页
At the end of the open-pit mining process in large metal mines, the mining model must change from open-pit mining to underground mining, but the mutual interference between the two mining models leads to poor producti... At the end of the open-pit mining process in large metal mines, the mining model must change from open-pit mining to underground mining, but the mutual interference between the two mining models leads to poor production safety conditions and difficulties in production convergence during the transition period. To solve these technical problems of poor production safety conditions and difficulties in production convergence during the transition period, in this study, based on the case of the Dagu Mountain Mine, a new transition mode of wedge switching for collaborative mining is proposed and established, which is suitable for collaborative mining. This new mining process completely eliminates the boundary pillar and the artificial covering layer, combining the technology of the mining-induced caving method and the technology of deep mining at the bottom of the open-pit. The results show that 1) the optimization of the open-pit boundary reduces the amount of rock stripping, and 2) it achieves a stable transition of collaborative mining capacity. The study shows that the proposed method uses the technologies of the mining-induced caving method in underground mining and deep mining at the bottom of the open pit in open-pit mining, and the method then optimizes the open-pit mining in detail by comparing the advantages of open-pit mining and underground mining. This study provides true and accurate technical support for the transition from open-pit mining to underground mining. 展开更多
关键词 opencast-to-underground mining transition mode wedge-shaped transition mode
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Stability of boundary pillars in transition from open pit to underground mining 被引量:11
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作者 赵兴东 李连崇 +1 位作者 唐春安 张洪训 《Journal of Central South University》 SCIE EI CAS 2012年第11期3256-3265,共10页
Based on the height of back-filled materials, thickness of ore body, height of boundary pillar and dipping angle of ore body and water pressure, the safety factors of all the pillars are calculated with the limit equi... Based on the height of back-filled materials, thickness of ore body, height of boundary pillar and dipping angle of ore body and water pressure, the safety factors of all the pillars are calculated with the limit equilibrium method. The calculation results present that the safety factors of pillars in Sections 19, 20, 24, 28 are less than 1.3, and those of unstable sections are identified preliminarily. Further, a numerical investigation in Sections 18, 20, 22, 24, 25 and 28 implemented with numerical code RFPA20 is employed to further validate the pillar performance and the stability of stopes. The numerical results show the pillars in Sections 18, 22 and 24 are stable and the designed pillar size is suitable. The width of the ore body near Section 28 averages 20 m, failure occurs in the left stope, but the boundary pillars near Section 28 maintain good performance. The pillars in Sections 20 and 25 are unstable which are mainly affected by the Faults F8 and F18. The existence of faults alters the stress distribution, failure mode and water inrush pathway. This work provides a meaningful standard for boundary pillar and stope design in a mine as it transitions from an open pit to underground. 展开更多
关键词 boundary pillar STABILITY underground mining numerical simulation case study
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