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黄金科学技术 >

2024 , Vol. 32 >Issue 3: 445 - 457

DOI: https://doi.org/10.11872/j.issn.1005-2518.2024.03.042

采选技术与矿山管理

云锡高峰山矿段矿柱回采方案研究

  • 虞云林 , 1 ,
  • 侯克鹏 2 ,
  • 杨八九 , 1 ,
  • 程涌 1 ,
  • 卢泰宏 3 ,
  • 张楠楠 3
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  • 1. 云南亚融矿业科技有限公司,云南 昆明 650093
  • 2. 昆明理工大学国土资源工程学院,云南 昆明 650093
  • 3. 云锡设计院有限公司,云南 个旧 661000
杨八九(1981-),男,云南大理人,高级工程师,从事地压监测方面的研究工作。

虞云林(1994-),男,云南大理人,工程师,从事采矿与岩石力学方面的研究工作。

收稿日期: 2024-02-02

  修回日期: 2024-04-09

  网络出版日期: 2024-07-05

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Study on Pillar Mining Scheme of Gaofengshan Ore Section in Yunxi

  • Yunlin YU , 1 ,
  • Kepeng HOU 2 ,
  • Bajiu YANG , 1 ,
  • Yong CHENG 1 ,
  • Taihong LU 3 ,
  • Nannan ZHANG 3
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  • 1. Yunnan Yarong Mining Technology Co. , Ltd. , Kunming 650093, Yunnan, China
  • 2. School of Land and Resources Engineering, Kunming University of Science and Technology, Kunming 650093, Yunnan, China
  • 3. Yunxi Design Institute Co. , Ltd. , Gejiu 661000, Yunnan, China

Received date: 2024-02-02

  Revised date: 2024-04-09

  Online published: 2024-07-05

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摘要

为了更合理地回收云锡老厂分公司残矿资源,运用FLAC3D数值模拟软件对高峰山矿段残留矿柱回采进行模拟分析,提出6种不同的矿柱回收方案,针对分析结果确定了合适的矿柱回采工艺,并开展了工业试验。结合矿山实际情况,从多个维度分析剩余矿柱是否具备回收条件和回收价值。结果表明:可采用进路规格为4 m×4 m的两步骤胶结充填采矿法进行矿柱回采,一步骤胶结充填强度大于3.52 MPa,二步骤充填强度大于1.08 MPa;矿段内有4条矿柱相对完整、保有资源量大且品位高,现阶段具备回采条件,其中南盘区4#盘区矿柱需在锡精矿市场金属价格大于24.48万元/t时进行回采,其余3条矿柱可在锡精矿市场金属价格大于10.05万元/t时进行回采。

关键词: 残矿资源; 数值模拟; 矿柱置换; 矿柱回采; 回采条件; 胶结充填采矿法

本文引用格式

虞云林 , 侯克鹏 , 杨八九 , 程涌 , 卢泰宏 , 张楠楠 . 云锡高峰山矿段矿柱回采方案研究[J]. 黄金科学技术, 2024 , 32(3) : 445 -457 . DOI: 10.11872/j.issn.1005-2518.2024.03.042

Abstract

In order to make the residual ore resources of Yunxi Old Factory Branch get better recycling,in view of the situation that there are a large number of residual pillars in the panel area of Gaofengshan ore section,after the completion of the on-site engineering geological investigation,representative rock samples were selected to conduct the rock mechanics test,and the result parameters were obtained.FLAC3D numerical simulation method was used to analyze the stability of the stope before the recovery of the pillars,and the law of ground pressure appearance in each panel area was obtained.Combined with the actual situation of the mine,it is concluded that the two methods of extracting the mining pillar and replacing the pillar are suitable for the recovery of the pillar in the mining area.On this basis,six pillar recovery schemes were considered under ideal conditions,and after comparative analysis,only the two-step collodion-filled room-and-pillar mining method is suitable for recovering the security ore in this mine.Through the filling mechanical parameter experiments,the filling body parameters required for two-step spaced back mining were derived after comparing multiple schemes.At the same time,the pillar recovery process was discussed in detail,and the industrial test of pillar recovery was carried out in areas with different degrees of geopressure manifestation.From the experimental results,the top plate of the pillar can be kept stable during and after the pillar recovery process.Based on the actual situation,the 13 pillars in the mining section were analyzed in terms of the resource grade of the pillars,the stability of the surrounding empty area,the need for protection works above the pillars,the economic benefits of mining and the price break-even.After the study,it is concluded that through the results of industrial test,the two-step cemented filling mining method with the specifications of 4 m×4 m can be used for the pillar mining,with the strength of one-step cemented filling is greater than 3.52 MPa and the strength of two-step filling is greater than 1.08 MPa.There are four pillars in the section with relatively intact,large amount of retained resources and high grade,which are in good condition for mining.The 4# pillar panel in the south plate area should be mined when the market metal price of tin concentrate is more than 244 800 yuan/t.The remaining 3 ore pillars can be mined when the market metal price of tin concentrate is more than 100 500 yuan/t.

Key words: residual ore resources; numerical simulation; pillar replacement; pillar mining; mining condition; cemented filling mining method

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脚注

http://www.goldsci.ac.cn/article/2024/1005-2518/1005-2518-2024-32-3-445.shtml

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