Near-face stockpile open pit mining: a method to enhance NPV and quality of the plant throughput

IF 2.7 3区工程技术 Q3 ENVIRONMENTAL SCIENCES International Journal of Mining Reclamation and Environment Pub Date : 2022-12-28 DOI:10.1080/17480930.2022.2160891

Hongshuo Gong, M. Tabesh, A. Moradi Afrapoli, H. Askari-Nasab

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引用次数: 1

Abstract

ABSTRACT Stockpiles are of great importance in open pit mine production scheduling and are widely used for different reasons while being placed in different locations. Near face stockpile (NFS) is a new mining concept which combines the IPCC (in-pit crushing and conveying) method with an in-pit near-face (and near crusher) stockpile. The stockpile decouples the whole mining flow into two weakly related subsystems, which are the mining subsystem and processing subsystem. There are many theoretical advantages in comparison to the traditional open-pit mining method, such as higher tolerance on uncertainties without compromising production, higher equipment utilisation, less operating cost, better blending results, etc. The introduction of NFS, however, requires reconsideration of production planning in open pit mines. In this paper, we developed a mixed integer linear programming model to solve long-term production scheduling problem in open pit mines. To quantitatively measure the performance of the NFS mining method, we implemented the model in a real mining case study and compared the results with the traditional open pit mining method with an out-of-pit crusher. The results reveal that implementing the NFS method can improve the net present value by 9.3% and decrease the plant MWT head grade deviation by 20%.

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近面堆料露天开采：一种提高净现值和工厂生产质量的方法

摘要料堆在露天矿生产调度中具有重要意义，由于不同的原因，料堆在不同的位置被广泛使用。近工作面堆（NFS）是一种新的采矿概念，它将IPCC（矿井内破碎和输送）方法与矿井内近工作面（和近破碎机）堆相结合。料堆将整个采矿流程解耦为两个弱相关的子系统，即采矿子系统和加工子系统。与传统的露天采矿方法相比，有许多理论优势，如在不影响生产的情况下对不确定性的容忍度更高、设备利用率更高、运营成本更低、混合效果更好等。然而，NFS的引入需要重新考虑露天矿的生产计划。本文建立了一个混合整数线性规划模型来求解露天矿的长期生产调度问题。为了定量测量NFS采矿方法的性能，我们在一个实际的采矿案例研究中实现了该模型，并将结果与传统的露天采矿方法进行了比较。结果表明，采用NFS方法可以使净现值提高9.3%，使工厂MWT原矿品位偏差降低20%。

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来源期刊

International Journal of Mining Reclamation and Environment ENVIRONMENTAL SCIENCES-MINING & MINERAL PROCESSING

CiteScore

5.70

自引率

8.30%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Mining, Reclamation and Environment published research on mining and environmental technology engineering relating to metalliferous deposits, coal, oil sands, and industrial minerals. We welcome environmental mining research papers that explore: -Mining environmental impact assessment and permitting- Mining and processing technologies- Mining waste management and waste minimization practices in mining- Mine site closure- Mining decommissioning and reclamation- Acid mine drainage. The International Journal of Mining, Reclamation and Environment welcomes mining research papers that explore: -Design of surface and underground mines (economics, geotechnical, production scheduling, ventilation)- Mine planning and optimization- Mining geostatics- Mine drilling and blasting technologies- Mining material handling systems- Mine equipment