品位不确定条件下露天矿库存随机长期生产调度的模拟退火算法

IF 2.7 3区工程技术 Q3 ENVIRONMENTAL SCIENCES

International Journal of Mining Reclamation and Environment Pub Date : 2022-11-08 DOI:10.1080/17480930.2022.2140543

Abid Ali Khan Danish, Asif Khan, Khan Muhammad

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引用次数: 0

摘要

摘要提出了一种新的基于模拟退火的随机优化算法，在考虑储层选择和其他相关约束的情况下，通过对矿体的多个等概率模拟实现，将地质不确定性整合到优化过程中。包括储存选项，增加了在早期加工高品位和大多数特定矿石块的机会。通过三个案例研究，即案例a有2448个区块，B有6578个区块，C有10,810个区块，证明了所提出的算法在创建一个足够好的生产计划方面的效率，该计划可以最大限度地降低偏离生产目标的风险，同时最大化操作的净现值。结果与两阶段随机模型的比较表明，所提出的方法将生产偏差的风险降至最低，并在合理的时间内为情况a、B和C提供了接近最优的解决方案，最优性差距分别为3.53、- 0.87和8.19%。

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A simulated annealing based stochastic long-term production scheduling of open-pit mines with stockpiling under grade uncertainty

ABSTRACT This research presents a new Simulated Annealing based stochastic optimisation algorithm to integrate geological uncertainty into the optimization process through multiple equiprobable simulated realisations of an orebody while considering stockpiling options and other relevant constraints. The stockpiling option is included, increasing the chances of processing high-grade and most certain ore blocks in early periods. The efficiency of the proposed algorithm in creating a single good enough production schedule that minimises the risk of deviation from production targets while maximising the net present value of the operation is demonstrated through three case studies, i.e. case A with 2448 blocks, B with 6,578 and C with 10,810 blocks. The comparison of results with the two-stage stochastic model reveals that the proposed methodology reduces the risk of production deviation to a minimal and provides a near-optimal solution with an optimality gap of 3.53, −0.87, and 8.19% for cases A, B, and C within a reasonable amount of time.

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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