Optimizing the blast fragmentation quality of discontinuous rock mass: Case study of Jebel Bouzegza Open-Cast Mine, North Algeria

IF 2.8 Q2 MINING & MINERAL PROCESSING
Khaoula Bedri, M. Hamou, Mira Filali, R. Hadji, Hassan Taib
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Abstract

Purpose. The research aims to investigate the impact of discontinuity characteristics, including dip direction, dip and joint spacing, on the size distribution of blasted fragments in mines and quarries. The accuracy of blasting results is essential for efficient operations, and understanding these factors can enhance blast fragmentation outcomes. Methods. We conducted our research at the Jebel Bouzegza C01 aggregate quarry, analyzing eight blast benches. To determine fragment sizes, we employed image processing tools to calculate P50, P80, and Pmax sizes. Additionally, we used the Kuz Ram model to predict the average size (X50) and the percentage of oversize fragments (Pmax). The determination coefficient (R²) is calculated for both methods to assess their correlations with dip direction. Findings. Our analysis revealed significant findings related to the impact of discontinuity characteristics on fragment size distribution. The dip direction exhibits the strongest correlation of Pmax size when using Split Desktop and X50, as well as Pmax% with the Kuz Ram model. Joint spacing also plays a role in influencing blast fragmentation outcomes, although its effect depends on the infill materials. Originality. This research contributes to the understanding of factors affecting blast fragmentation outcomes. The research focuses on dip direction, dip and joint spacing characteristics, and adds to existing knowledge in this field. Practical implications. The findings of this research have practical implications for mines and quarries, offering valuable guidance for site investigations and optimization of blasting practices. By assessing properties such as dip direction and joint spacing, blasting operations can be enhanced to achieve more efficient and accurate results.
优化不连续岩体的爆破破碎质量:阿尔及利亚北部杰贝勒布泽格扎露天矿案例研究
研究目的本研究旨在调查不连续特征(包括倾角方向、倾角和接缝间距)对矿山和采石场爆破碎片尺寸分布的影响。爆破结果的准确性对高效作业至关重要,了解这些因素可提高爆破破碎结果。方法。我们在 Jebel Bouzegza C01 集料采石场进行了研究,分析了八个爆破台。为了确定碎片尺寸,我们使用图像处理工具计算 P50、P80 和 Pmax 尺寸。此外,我们还使用库兹拉姆模型来预测平均尺寸(X50)和过大碎片的百分比(Pmax)。我们计算了这两种方法的判定系数 (R²),以评估它们与倾角方向的相关性。结果。我们的分析揭示了与不连续特征对碎屑大小分布的影响有关的重要发现。使用 Split Desktop 和 X50 时,倾角方向与 Pmax 大小的相关性最强;使用 Kuz Ram 模型时,倾角方向与 Pmax% 的相关性也最强。接缝间距对爆破破碎结果也有影响,但其影响取决于填充材料。原创性。本研究有助于了解影响爆破破碎结果的因素。研究重点是倾角方向、倾角和接缝间距特征,为该领域的现有知识添砖加瓦。实际意义。研究结果对矿山和采石场具有实际意义,为现场调查和优化爆破实践提供了宝贵的指导。通过评估倾角方向和接缝间距等特性,可以提高爆破作业的效率和准确性。
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来源期刊
Mining of Mineral Deposits
Mining of Mineral Deposits MINING & MINERAL PROCESSING-
CiteScore
5.20
自引率
15.80%
发文量
52
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