Application of Sequential Gaussian Conditional Simulation to Underground Mine Design Under Grade Uncertainty

IF 1.1 Q3 MINING & MINERAL PROCESSING
F. Sotoudeh, M. Ataei, R. Kakaie, Y. Pourrahimian
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引用次数: 4

Abstract

In mining projects, all uncertainties associated with a project must be considered to determine the feasibility study. Grade uncertainty is one of the major components of technical uncertainty that affects the variability of the project. Geostatistical simulation, as a reliable approach, is the most widely used method to quantify risk analysis to overcome the drawbacks of the estimation methods used for an entire ore body. In this work, all the algorithms developed by numerous researchers for optimization of the underground stope layout are reviewed. After that, a computer program called stope layout optimizer 3D is developed based on a previously proposed heuristic algorithm in order to incorporate the influence of grade variability in the final stope layout. Utilizing the sequential gaussian conditional simulation, 50 simulations and a kriging model are constructed for an underground copper vein deposit situated in the southwest of Iran, and the final stope layout is carried out separately. It can be observed that geostatistical simulation can effectively cope with the weakness of the kriging model. The final results obtained show that the frequency of economic value for all realizations varies between 6.7 M$ and 30.7 M$. This range of variation helps designers to make a better and lower risk decision under different conditions.
序贯高斯条件模拟在品位不确定条件下地下矿山设计中的应用
在采矿项目中,必须考虑与项目有关的所有不确定因素,以确定可行性研究。等级不确定性是影响项目可变性的技术不确定性的主要组成部分之一。地质统计模拟作为一种可靠的方法,是目前应用最广泛的风险量化分析方法,克服了整个矿体估计方法的不足。在这项工作中,回顾了众多研究人员开发的用于地下采场布局优化的所有算法。在此基础上,根据提出的启发式算法,开发了采场布置优化3D程序,将品位变化的影响纳入最终的采场布置中。利用序贯高斯条件模拟方法,对伊朗西南部某地下铜脉矿床进行了50次模拟,建立了kriging模型,并分别进行了最终采场布置。可以看出,地质统计模拟可以有效地弥补克里格模型的不足。得到的最终结果表明,所有实现的经济价值频率在670万美元和3070万美元之间变化。这种变化范围有助于设计师在不同条件下做出更好、更低风险的决策。
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
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
发文量
0
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