Influence of the rock mass structure and the blasting technique on blast results in the Heliopolis quarry

Q3 Engineering
F. Bahloul, A. Hafsaoui, A. Idres, F. Boutarfa, A. I. Kanli, A. Benselhoub
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引用次数: 0

Abstract

Purpose. To find a relative methodology which will help the systematic analysis of the parameters influencing the blasting plan and a better understanding of the mechanisms of fragmentation of rocks with explosives. Methodology. The approach uses the Kuz-Ram model to predict blast performance. Three models were used to consider the effect of blast plan geometry on the quality of blast rock fragmentation. A new blasting plan is proposed using the Langefors method and the Kuz-Ram empirical model. The results obtained were compared with those of previous blasts. Findings. The research results show that the optimal fragmentation of 89.2 % with a balance between fine particles of 5.7 % and outsized blocks of 5.1 % of rocks by explosive in the Heliopolis aggregates quarry is highly dependent on the type and quantity of explosive used, the direction of initiation, and the cracks caused by the waves of shock (back effects). Originality. The present work is concerned with the problem of the quality of rock blasting which will ultimately affect the costs of drilling, blasting and the efficiency of all mining operations. Parameters influencing the processes of rock fragmentation during mining operations are specified. Practical value. The purpose of blasting is to disaggregate the material in order to facilitate its recovery by the extraction equipment. It is therefore necessary to correctly define the blasting plan by optimizing these geometric parameters, the nature and the quantity of explosive, the initiation sequences aim to have the right particle size distribution.
岩体结构和爆破技术对赫利奥波利斯采石场爆破效果的影响
目的找到一种有助于系统分析影响爆破计划的参数的相关方法,并更好地了解炸药炸碎岩石的机理。方法。该方法使用 Kuz-Ram 模型来预测爆破性能。使用三个模型来考虑爆破计划几何形状对爆破岩石破碎质量的影响。使用 Langefors 方法和 Kuz-Ram 经验模型提出了一种新的爆破方案。将获得的结果与之前的爆破结果进行了比较。研究结果研究结果表明,在 Heliopolis 集料采石场,炸药的最佳破碎率为 89.2%,同时兼顾 5.7%的细颗粒和 5.1%的大块岩石,这在很大程度上取决于所用炸药的类型和数量、起爆方向以及冲击波造成的裂缝(反向效应)。原创性。本研究涉及岩石爆破的质量问题,这将最终影响钻孔、爆破的成本和所有采矿作业的效率。明确了采矿作业中影响岩石破碎过程的参数。实用价值。爆破的目的是破碎材料,以便于开采设备回收。因此,有必要通过优化这些几何参数、炸药的性质和数量、起爆顺序来正确确定爆破计划,以获得正确的粒度分布。
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
CiteScore
1.70
自引率
0.00%
发文量
148
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