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安阳煤矿煤柱破坏机理及控制技术

陈光林周文凯郭彦会冯晓辉周兴龙闫医慧

陕西煤炭2024，Vol.43Issue(1)：6-10,18,6.

陕西煤炭2024，Vol.43Issue(1)：6-10,18,6.DOI:10.20120/j.cnki.issn.1671-749x.2024.0102

安阳煤矿煤柱破坏机理及控制技术

Failure mechanism and control technology of coal pillar for Anyang Coal Mine

陈光林 ¹周文凯 ¹郭彦会 ¹冯晓辉 ¹周兴龙 ¹闫医慧²

作者信息

1. 陕西澄合合阳煤炭开发有限公司,陕西渭南 715300
2. 西安科技大学能源学院,陕西西安 710054
折叠

摘要

Abstract

The coal pillar in the section of the fully mechanized mining face serves as a protective coal pillar for the safety passage of the working face.It is not only a component of the return air roadway of the working face,but also a component of the auxiliary transportation roadway of the next working face.The rationality of its reserved width is not only related to the safety and stability of the working face channel,but also affects the mining recovery rate of the mine.It is one of the difficul-ties that restrict the safe and efficient production of the coal mine.If the section coal pillar is left too large,it not only causes a waste of coal resources,but also causes the overlying roof of the section coal pillar to hang over a large area near the goaf under the support effect,and some water conducting fracture zones cannot be effectively closed.If the coal pillars in the sec-tion are too small,they cannot support the load and during the mining process of the working face,deformation and damage can easily occur along the groove,causing the leakage of water and harmful gases in the goaf.We combine the actual situa-tion of Anyang Coal Mine and adopt research methods such as on-site monitoring,theoretical analysis,and numerical simula-tion to propose reasonable coal pillar parameters and coal wall support technology in order to guide actual on-site work.The research results of this article are of great significance for the maintenance of the surrounding rock of dynamic pressure tun-nels,the safe and efficient production of coal,and the improvement of coal resource recovery rate.At the same time,it has certain guiding significance for the reasonable setting of coal pillars for roadway protection in the similar mine working face sections.

关键词

安阳煤矿/区段煤柱/破坏机理/数值模拟

Key words

Anyang Coal Mine/section coal pillar/failure mechanism/numerical simulation

分类

矿业与冶金

引用本文复制引用

陈光林,周文凯,郭彦会,冯晓辉,周兴龙,闫医慧..安阳煤矿煤柱破坏机理及控制技术[J].陕西煤炭,2024,43(1):6-10,18,6.

基金项目

国家自然科学基金资助项目(51774229) （51774229）

陕西省创新能力支撑计划-科技创新团队项目(2018TD-038) （2018TD-038）

陕西煤炭

ISSN：1671-749X

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