A NEW TECHNIQUE BASED ON ANT COLONY OPTIMIZATION FOR DESIGNING MINING PUSHBACKS IN THE PRESENCE OF GEOLOGICAL UNCERTAINTY

IF 1.2 Q3 GEOSCIENCES, MULTIDISCIPLINARY Rudarsko-Geolosko-Naftni Zbornik Pub Date : 2023-01-01 DOI:10.17794/rgn.2023.1.10

Seyyed-Omid Gilani, S. Moosazadeh, R. Poormirzaee

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引用次数: 1

Abstract

An essential task in the open-pit mine optimizing process is determining the extraction time of material located in the ultimate pit, considering some operational and economic constraints. The proper design of pushbacks has a significant impact on the optimum production planning. On the other hand, some uncertainty sources such as in-situ grade cause both deviations from production and financial goals. This paper presents an extension of a multi-stage formulation for risk-based pushback designing that utilizes the ant colony optimization (ACO) algorithm to solve it. For more detailed studies, two different strategies were developed according to statistical and probabilistic issues. The data of Songun copper mine located in NW Iran was used to evaluate the ability of the proposed approach in controlling the risk of deviation from production targets and increasing the project value. The results indicated the effectiveness of the proposed approach in pushback designing based on geological uncertainty. Examining different strategies showed that the technique based on multiple probability produces better solutions.

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一种基于蚁群优化的地质不确定性条件下采矿推挤设计新技术

露天矿优化过程中的一项重要任务是在考虑某些操作和经济约束的情况下，确定最终坑内物料的提取时间。延迟设计的合理与否对优化生产计划有着重要的影响。另一方面，一些不确定性来源，如原地品位，会导致生产和财务目标的偏差。本文提出了基于风险的推退设计的多阶段公式的扩展，利用蚁群优化(ACO)算法求解它。对于更详细的研究，根据统计和概率问题制定了两种不同的策略。以位于伊朗西北部的Songun铜矿为例，对该方法在控制生产目标偏离风险和提高项目价值方面的能力进行了评价。结果表明，该方法在地质不确定性条件下的推杆设计中是有效的。对不同策略的检验表明，基于多重概率的技术产生了更好的解决方案。

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