<div> 大西沟铁矿露采境界内空区顶板安全厚度研究* </div>

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现代矿业 ›› 2024, Vol. 40 ›› Issue (04): 79-.

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大西沟铁矿露采境界内空区顶板安全厚度研究*

大西沟铁矿露天开采安全受原地下开采残留空区的影响。为确保境界内台阶开采的

安全，采用4种理论计算方法和数值模拟，确定不同跨度采空区的顶板安全厚度，建立顶板安全厚度

与采空区跨度的函数关系，对境界内采空区进行分类，并结合采空区顶板安全厚度确定其处置时机。

研究结果表明，采空区顶板安全厚度随跨度增加呈二次函数增长，露采境界内已探知的5个空区均为

简单易处理的Ⅰ类空区。当前阶段应在1 343.9 m标高对2个采空区进行处理，未来应在1 368 m标高

对 2个采空区进行处理，在 1 356 m标高对 1个采空区进行处理，处理手段均为爆破崩落。研究结果

为大西沟铁矿境界内采空区的安全处置奠定基础。

1. 陕西大西沟矿业有限公司；

2. 西安建筑科技大学资源工程学院

出版日期:2024-04-15 发布日期:2024-08-13

Study on Safety Thickness of Goaf Roof in Open-pit Mining Boundary

of Daxigou Iron Mine

The safety of open-pit mining in Daxigou Iron Mine is affected by the residual goaf in the

original underground mining.In order to ensure the safety of bench mining in the boundary，four theoretical

calculation methods and numerical simulation are used to determine the safe thickness of the roof in different

span goafs，and the functional relationship between the safe thickness of the roof and the span of the goaf is

established.The goaf in the boundary is classified，and the disposal time is determined in combination with

the safe thickness of the roof of the goaf.The results show that the safety thickness of the roof of the goaf in⁃

creases quadratically with the increase of the span，and the five mined-out areas that have been discovered

in the open-pit mining boundary are all Class I mined-out areas that are simple and easy to deal with.At the

current stage，two goafs should be treated at the elevation of 1 343.9 m. In the future，two goafs should be

treated at the elevation of 1 368 m，and one goaf should be treated at the elevation of 1 356 m，and the treat⁃

ment means are blasting collapse.The research results lay a foundation for the safe disposal of goaf in the

boundary of Daxigou Iron Mine.

1. Shaanxi Daxigou Mining Co.，Ltd.;

2.School of Resources Engineering，Xi'an University of Architecture and Technology

Online:2024-04-15 Published:2024-08-13

摘要/Abstract

摘要：

大西沟铁矿露天开采安全受原地下开采残留空区的影响。为确保境界内台阶开采的

安全，采用4种理论计算方法和数值模拟，确定不同跨度采空区的顶板安全厚度，建立顶板安全厚度

与采空区跨度的函数关系，对境界内采空区进行分类，并结合采空区顶板安全厚度确定其处置时机。

研究结果表明，采空区顶板安全厚度随跨度增加呈二次函数增长，露采境界内已探知的5个空区均为

简单易处理的Ⅰ类空区。当前阶段应在1 343.9 m标高对2个采空区进行处理，未来应在1 368 m标高

对 2个采空区进行处理，在 1 356 m标高对 1个采空区进行处理，处理手段均为爆破崩落。研究结果

为大西沟铁矿境界内采空区的安全处置奠定基础。

关键词:

地下采空区顶板安全厚度理论计算数值模拟采空区治理

Abstract:

The safety of open-pit mining in Daxigou Iron Mine is affected by the residual goaf in the

original underground mining.In order to ensure the safety of bench mining in the boundary，four theoretical

calculation methods and numerical simulation are used to determine the safe thickness of the roof in different

span goafs，and the functional relationship between the safe thickness of the roof and the span of the goaf is

established.The goaf in the boundary is classified，and the disposal time is determined in combination with

the safe thickness of the roof of the goaf.The results show that the safety thickness of the roof of the goaf in⁃

creases quadratically with the increase of the span，and the five mined-out areas that have been discovered

in the open-pit mining boundary are all Class I mined-out areas that are simple and easy to deal with.At the

current stage，two goafs should be treated at the elevation of 1 343.9 m. In the future，two goafs should be

treated at the elevation of 1 368 m，and one goaf should be treated at the elevation of 1 356 m，and the treat⁃

ment means are blasting collapse.The research results lay a foundation for the safe disposal of goaf in the

boundary of Daxigou Iron Mine.

Key words:

underground goaf, safety thickness of roof, theoretical calculation, numerical simula?

tion, goaf management

李有仓王亚强赵彦锋郭进平李泽琛王小林汪朝.

大西沟铁矿露采境界内空区顶板安全厚度研究*

[J]. 现代矿业, 2024, 40(04): 79-.

LI Youcang WANG Yaqiang ZHAO Yanfeng GUO Jinping LI Zechen WANG Xiaolin WANG Zhao.

Study on Safety Thickness of Goaf Roof in Open-pit Mining Boundary

of Daxigou Iron Mine

[J]. Modern Mining, 2024, 40(04): 79-.

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