Openings Design Method to Mitigate Rock Bursts During Deep Mining Works in the Peruvian Andes

2018 IEEE Sciences and Humanities International Research Conference (SHIRCON) Pub Date : 2018-11-01 DOI:10.1109/SHIRCON.2018.8593128

Edinson Aponte, Luis Arauzo, C. Raymundo

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Abstract

Underground mines usually perform works at considerably large depths at which the stress conditions on the rock mass are observed to increase (for example, the Yauliyacu mining unit). This mine exhibits a depth of approximately 1,500 meters, and its depth is being increased even further. The operations at this mine are divided into the upper and lower zone operations. This division eventually created a problem related to the seismicity induced by the mining activities, resulting in a high concentration of stress and accumulated energy, which further led to landslides or rock bursts that directly affected workers, equipment, and the mine infrastructure. The Yauliyacu mining unit exhibits a microseismic system that is strategically distributed throughout the mine, monitoring the occurrence of these events in real time. The microseismic event records during the second semester of 2017 were analyzed to identify the affected levels or the levels exhibiting considerable susceptibility to the manifestation of rock bursts. The redistribution behavior of the main stress in underground horseshoe openings were analyzed for the Yauliyacu mining unit using another type of opening proposed in this study.

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秘鲁安第斯山脉深部采矿工程中减轻岩爆的开口设计方法

地下矿山通常在相当大的深度进行工作，在那里观察到岩体的应力条件增加(例如，瑶里雅库采矿单元)。这个矿的深度约为一千五百米，而且它的深度还在进一步增加。该矿的作业分为上带作业和下带作业。这种划分最终造成了一个与采矿活动引起的地震活动有关的问题，导致应力高度集中和能量积聚，进一步导致山体滑坡或岩爆，直接影响到工人、设备和矿山基础设施。yuliyacu采矿单元展示了一个微地震系统，该系统战略性地分布在整个矿山，实时监测这些事件的发生。分析了2017年下半年的微地震事件记录，以确定受影响的水平或对岩爆表现具有相当敏感性的水平。采用本文提出的另一种掘进方式，分析了姚里雅库矿区地下马蹄形掘进中主应力的重分布规律。

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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2018 IEEE Sciences and Humanities International Research Conference (SHIRCON)

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