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基于多场信息融合的采动覆岩宏-细观损伤演化及"两带"发育位置判识

魏江波王双明刘浪蔚保宁种德雨刘智振李东奎庄登登周静

煤田地质与勘探2025，Vol.53Issue(4)：128-140,13.

煤田地质与勘探2025，Vol.53Issue(4)：128-140,13.DOI:10.12363/issn.1001-1986.25.01.0006

基于多场信息融合的采动覆岩宏-细观损伤演化及"两带"发育位置判识

Multi-field information fusion-based analysis of the macroscopic and mesoscopic damage evolution and location identification of caving and water-conducting fracture zones for mining overburden

魏江波 ¹王双明 ²刘浪 ³蔚保宁 ⁴种德雨 ⁵刘智振 ⁴李东奎 ⁵庄登登 ⁴周静⁴

作者信息

1. 陕西省煤炭绿色开发地质保障重点实验室,陕西西安 710054||西安科技大学地质与环境学院,陕西西安 710054||西安科技大学煤炭绿色开采地质研究院,陕西西安 710054||西安科技大学能源学院,陕西西安 710054
2. 陕西省煤炭绿色开发地质保障重点实验室,陕西西安 710054||西安科技大学地质与环境学院,陕西西安 710054||西安科技大学煤炭绿色开采地质研究院,陕西西安 710054
3. 陕西省煤炭绿色开发地质保障重点实验室,陕西西安 710054||西安科技大学能源学院,陕西西安 710054
4. 西安科技大学能源学院,陕西西安 710054
5. 陕西能源凉水井矿业有限责任公司,陕西榆林 719300
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摘要

Abstract

[Objective]For the coal mining areas in the middle reaches of the Yellow River,there is an urgent need to de-termine the failure characteristics of the mining overburden and the spatial structural evolution of caving and water-con-ducting fracture zones in the overburden,which is recognized as the major challenge in coal mining through gangue grouting filling in goaves.[Methods]To accurately identify the locations of the caving and water-conducting fracture zones in the mining overburden,this study investigated mining face 42205 in the Liangshuijing Coal Mine in northern Shaanxi Province.Using drilling data,this study constructed a numerical model of coal mining using the particle flow code method.Using this model,this study conducted a simulation analysis of the damage characteristics and patterns of the mining overburden,including microfracture development,the distribution of broken rock blocks,changes in vertical displacement,structural evolution of force chains,and the void fraction evolution.Furthermore,this study comprehens-ively determined the locations and morphologies of caving and water-conducting fracture zones in the overburden.Com-parison with field measurements verified that the simulation results were accurate and reliable.Finally,this study pro-posed a method for accurately identifying the locations of the caving and water-conducting fracture zones using macro-scopic and mesoscopic multi-field information fusion.[Results and Conclusions]The results indicate that the micro-fracture number in the mining overburden was positively correlated with the advancing distance of the mining face,presenting an exponential growth initially and then a linear growth.Under the condition of a bedrock/load layer thick-ness ratio approaching 1.0 and the presence of intact caving,fracture,and sagging zones in the mining overburden,the average length of the broken rock blocks in the overburden exhibited a nonlinear logarithmic growth with the rock layer height.As the mining face advanced,the height of the arch of strong force chains in the overburden increased first and then tended to be stable,and its span showed a variation trend consistent with that of the advancing speed of the mining face.The continuous increase in the load on the overburden led to the failure of the arch,which was the internal cause of the rock breaking-induced increase in the water-conducting fracture zone height.The strong force chains in the arch were characterized by a dense distribution vertically and a sparse distribution nearly horizontally from the bottom up.There was a negative correlation between the void fraction of the overburden and the rock layer height.Specifically,the aver-age void fraction decreased gradually from 30%to about 10%in a nonlinear manner from the loose zone on both sides to the central compaction zone within the caving zone.The comprehensive identification based on multi-field information fusion revealed that the mining overburden had an average water-conducting fracture zone height of 69.00 m and an av-erage caving zone height of 19.63 m,with an average fracture zone/mining height ratio of 19.71 and an average caving zone/mining height ratio of 5.61.Besides,the water-conducting fracture zone in the overburden displayed a regular trapezoid shape.The results of this study prove more accurate than those of traditional single-factor analysis.Therefore,in engineering applications,these results will provide a scientific basis for the accurate space calculation for the efficient filling of goaves with the slurry of gangue from caving zones in coal mining areas along the middle reaches of the Yel-low River.

关键词

采动损伤/多场信息融合/力链/空隙率/"两带"发育位置/数值模拟/黄河中游

Key words

mining-induced damage/multi-field information fusion/force chain/void fraction/locations of the caving and water-conducting fracture zones/numerical simulation/middle reaches of the Yellow River

分类

矿业与冶金

引用本文复制引用

魏江波,王双明,刘浪,蔚保宁,种德雨,刘智振,李东奎,庄登登,周静..基于多场信息融合的采动覆岩宏-细观损伤演化及"两带"发育位置判识[J].煤田地质与勘探,2025,53(4):128-140,13.

基金项目

国家自然科学基金项目(52304152) （52304152）

中国博士后科学基金项目(2024MD753979) （2024MD753979）

陕西省博士后科研项目(2024BSHSDZZ 210) （2024BSHSDZZ 210）

煤田地质与勘探

OA北大核心

ISSN：1001-1986

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