Energy release and disaster-causing mechanism of ore-pillar combination

IF 4.9 2区 工程技术 Q1 ENGINEERING, CHEMICAL
Yu Tang , Weibing Zhu , Jianlin Xie , Tianyu Li , Bozhi Zhao , Chunlei Guo
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Abstract

Coal and other mineral resources are also commonly found in bauxite mining. The process of bauxite mining is usually affected by retained ore pillars in other strata, which leads to the formation of combinations composed of different strata. Once these combinations become unstable, they can cause serious disasters that threaten production safety. Aiming at the safe mining of co-associated resources in the overlying coal seams of bauxite mines, in this paper, the strength, fracture development, and energy evolution of the coal-rock-aluminum (C-R-A) combination under varying thickness proportions of coal, rock, and aluminum were studied by means of particle flow code (PFC) numerical simulation, SPSS statistical analysis, and other methods. The results indicate that the strength of the combination is significantly negatively correlated with the thickness of the soft coal seam and remarkably positively correlated with the thickness of the hard aluminum layer. Under the same stress conditions, fractures in the combination mainly occur in the coal seam. As the thickness proportion of the coal seam in the overall structure increases, the number of fractures there grows correspondingly. Under a larger thickness proportion of the rock stratum, the combination releases its elastic energy faster after instability, and the fractures develop more intensely. As the thickness proportion of the rock stratum decreases, the elastic energy index (WET) in the C-R-A combination rises, and the burst proneness strengthens. Areas where the thickness proportions of coal, rock, and aluminum lie in the ranges of 30%–60%, 10%–20%, and 30%–60% respectively are considered high-risk zones, and rock burst accidents are most likely to occur when the thickness ratio of coal, rock, and aluminum is 4: 1: 5. These research findings can provide guidance for the safe mining of similar coal and aluminum associated resources.
矿柱组合的能量释放和致灾机理
在铝土矿开采中还经常发现煤炭和其他矿产资源。在铝土矿开采过程中,通常会受到其他地层中保留矿柱的影响,从而形成由不同地层组成的组合体。这些组合一旦不稳定,就会造成严重灾害,威胁生产安全。针对铝土矿上覆煤层共伴生资源的安全开采,本文通过粒子流代码(PFC)数值模拟、SPSS统计分析等方法,研究了煤、岩、铝(C-R-A)组合在不同厚度比例下的强度、断裂发育和能量演化情况。结果表明,该组合的强度与软煤层的厚度呈显著负相关,而与硬铝层的厚度呈明显正相关。在相同应力条件下,组合的断裂主要发生在煤层中。随着煤层厚度在整体结构中所占比例的增加,其断裂数量也相应增加。在岩层厚度比例较大的情况下,组合体失稳后释放弹性能量的速度较快,裂缝发育也较密集。随着岩层厚度比例的减小,C-R-A 组合的弹性能量指数(WET)上升,爆裂性增强。煤、岩、铝的厚度比例分别在 30%-60%、10%-20%、30%-60% 之间的区域为高风险区,当煤、岩、铝的厚度比例为 4:1:5 时最易发生岩爆事故。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Minerals Engineering
Minerals Engineering 工程技术-工程:化工
CiteScore
8.70
自引率
18.80%
发文量
519
审稿时长
81 days
期刊介绍: The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.
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