Milad Abolghasemian, A. G. Kanafi, M. Daneshmand-Mehr
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引用次数: 11
摘要
采矿中的关键问题之一是运输系统。卡车和铲子是矿山中使用最广泛的运输设备。针对伊朗最大露天铜矿牵引系统的最大利用率问题,提出了一种基于两阶段仿真的优化方法。在第一阶段,使用OptQuest for Arena软件包解决优化问题,提供最优生产数量。第二阶段,采用元建模方法对露天矿运输系统问题进行双目标优化规划建模。元建模方法可以估算出准确的总生产数量,并通过实验设计确定最优的铲子值来解决问题。利用非约束方法得到了双目标问题的有效解。将该方法的结果与目前的情况进行了比较,通过该方法,总产量增加了21%(相当于1万吨)。因此,在该矿的计算表明,所提出的框架如何提高运输系统的产量和生产率。
A Two-Phase Simulation-Based Optimization of Hauling System in Open-Pit Mine
One of the key issues in mining is the hauling system. Truck and shovels are the most widely used transportation equipment in mines. In this paper, a two-phase simulation-based optimization is presented to maximize utilization of hauling system in the largest Iranian open-pit copper mine. In the first phase, The OptQuest for Arena software package was used to solve the optimization problem to provide an optimal production quantity. In the second phase, the haulage system problem in the open-pit was modeled by bi-objective optimization programing by means of meta-modeling approach. Meta-modeling approach could estimate the exact total production quantities, and solved the problem by determining the optimal value of shovels using the design of experiments. The efficient solution of the bi-objective problem was obtained using -constraint method. The results of the proposed approach were compared with the current situation, where the total production had increased by 21% (equivalent to 10K tons) through the proposed approach. Therefore, calculations in this mine show that how the proposed framework can improve the production and productivity of haulage system.
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